WO2016145970A1 - Connector assembly - Google Patents
Connector assembly Download PDFInfo
- Publication number
- WO2016145970A1 WO2016145970A1 PCT/CN2016/074325 CN2016074325W WO2016145970A1 WO 2016145970 A1 WO2016145970 A1 WO 2016145970A1 CN 2016074325 W CN2016074325 W CN 2016074325W WO 2016145970 A1 WO2016145970 A1 WO 2016145970A1
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- WO
- WIPO (PCT)
- Prior art keywords
- pin
- signal
- pins
- male
- row
- Prior art date
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R13/00—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
- H01R13/62—Means for facilitating engagement or disengagement of coupling parts or for holding them in engagement
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R31/00—Coupling parts supported only by co-operation with counterpart
- H01R31/06—Intermediate parts for linking two coupling parts, e.g. adapter
Definitions
- the present invention relates to a connector assembly, and more particularly to a novel connector assembly.
- the Android data cable and the Apple data cable are generally one-piece structure. When inserting the electronic device port, external force is required to insert, and the Android data cable cannot be performed. Positive and negative plug-in charging is very inconvenient.
- the present invention provides a new type of connector assembly that is convenient to use.
- the solution to the technical problem of the present invention is to provide a novel connector assembly including a male head, the male head including a plug portion and a magnetic portion, the plug portion being inserted into the interface of the electronic device, the magnetic An end surface of the suction portion facing away from the plug portion is a first magnetic surface; a plurality of pins are exposed on the first magnetic surface; a female head, the female head and the male head are separately arranged, One end of the female head that is butted with the male head has a second magnetic absorbing surface, and the first magnetic absorbing surface is magnetically attracted corresponding to the second magnetic absorbing surface; the female head includes a plurality of pin headers, The pin header and the pin are connected to transmit a signal; the pin and/or the pin header 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 mutually Centrosymmetric.
- the magnetic attraction portion includes a first insulating portion, the first insulating portion is disposed on the first magnetic absorbing surface, and isolating and isolating the pin; and the magnetic sheet is surrounded by the magnetic sheet In the first insulating portion, the magnetic sheet is a magnet or a magnetically adsorbed ferromagnetic material.
- the magnetic attraction portion is a sheet structure, the thickness of the magnetic attraction portion is 0.3 mm to 2 mm, and the width of the magnetic attraction portion is larger than the width of the insertion portion.
- a groove is formed at one end of the female head and the male head, and a bottom surface of the groove is a second magnetic surface, and the magnetic portion is correspondingly received in the groove, and the pin is exposed.
- the female head Protruding from the second magnetic attraction surface, the female head further includes a second insulating portion, and the second insulating portion is insulated to isolate the pin header.
- a lower portion of the second magnetic attraction surface in the groove is provided with at least one female magnet, and the female magnet magnetically adsorbs the magnetic attraction portion.
- the plurality of pins are disposed on the first magnetic attraction surface in a single row, and different signals transmitted by the pins are symmetrically disposed on a central axis, and the plurality of rows are arranged for the pins. Signal and position match.
- a plurality of pins are disposed in the plug portion, the plurality of pins are matched with signals in an interface of the electronic device, and different signals transmitted by the plurality of pins are asymmetrically disposed at one end inserted into the interface of the electronic device.
- the plurality of pins are staggered inside the plug portion to the plurality of pins on the first magnetic attraction surface.
- a plurality of pins are disposed in the plug portion, the plurality of pins are matched with signals in an interface of the electronic device, and different signals transmitted by the plurality of pins are symmetrically disposed at an end inserted into the interface of the electronic device.
- the plurality of pins are connected in parallel to the plurality of pins on the first magnetic absorbing surface inside the plug portion.
- the plurality of pins are arranged in two rows in parallel on the first magnetic absorbing surface, and each row is the same size from the horizontal center line of the first magnetic absorbing surface, and the first row of pins constitutes a signal positive group.
- the second row of pins constitutes a signal reverse group;
- the female head comprises a row of pins arranged in a row, and each of the rows of pins is matched with the signal of any row of pins.
- the different signals transmitted by each row of pins are symmetrically arranged with a central axis, and the signals transmitted by the pins include a V+ signal, a V-signal, a D+ signal, and a D-signal.
- the plurality of rows of pins are arranged in parallel on the second magnetic absorbing surface, and each row is the same size from the horizontal center line of the second magnetic absorbing surface, and the first row of pins constitutes a signal positive group.
- the second row of pins constitutes a signal reverse group;
- the male head comprises a row of pins arranged in a row, and each pin of the single row is matched with the signal of any row of pins.
- the plurality of pins are arranged in parallel at least two rows on the first magnetic absorbing surface, and at least two of the rows are the same size from the horizontal center line of the first magnetic absorbing surface; It may be composed of any one of at least two rows, or a partial pin of any one of at least two rows and a partial pin of the other row;
- the female head includes a plurality of tubes arranged in at least one row and may be respectively associated with the tube The signal of the foot forward group and the signal of the pin reverse group signal match the connected pin header.
- the positive signal group of the pin includes at least a pin for transmitting a V+ signal, a V-signal, a D+ signal, and a D-signal; the signal reverse group of the pin also includes at least a V+ signal, a V-signal, and a D+ signal. , the pin of the D-signal.
- the plurality of rows of pins are arranged in parallel at least two rows on the second magnetic absorbing surface, and wherein at least two of the rows are the same in size from the horizontal center line of the second magnetic absorbing surface; Can be in any of at least two rows Forming a row, or consisting of a partial pin header of any one of at least two rows and a partial pin header of the other row; the male head includes a plurality of positively arranged and arranged rows of signals that can be respectively arranged with the pin headers arranged in at least one row The signal of the pin forward group signal matches the connected pin.
- the positive signal group of the pin header includes at least a pin header for transmitting a V+ signal, a V-signal, a D+ signal, and a D-signal; the signal reverse group of the pin header also includes at least a V+ signal, a V-signal, and a D+ signal. , D-signal pin header.
- a novel connector assembly of the present invention has the following beneficial effects.
- a novel connector assembly according to the present invention is provided with a male body and a female head 13 in a split configuration, and the male or female female pin is symmetrically arranged so that the female can be formed when the female is positively coupled with the male.
- the power supply path realizes the charging function, and when the female head is turned 180° and the male head is reversely coupled, the power supply path can be formed to realize the charging function.
- the pins of the male head are one row, two rows or multiple rows, and at least two signal positive group and signal reverse group which are symmetric with each other are formed, and each signal positive group transmits at least one V+ signal, A V-signal, a D+ signal, and a D-signal, the female pin header selects a signal forward group and/or a signal reverse group for signal and position matching, so that the male and female forward or female flip
- the 180 degree reverse combined with the male head can form a power signal path and a data signal path, thereby realizing the functions of charging and data transmission;
- the female pin headers are in one row, two rows or multiple rows, and at least two are formed for each other.
- each signal forward group transmits at least one V+ signal, one V-signal, one D+ signal, and one D-signal, and the male pin selects a signal positive group.
- And/or signal reverse group for signal and position matching, so that the male and female forwards can be combined or the female flip can be reversed by 180 degrees to form a power signal path and a data signal path, so that charging and Data transmission Loss function.
- the male plug is inserted into the interface of the electronic device, and the female magnet is arranged on the female head, and the male and female heads are electrically connected under the action of the magnetic force, which is convenient for the male
- the connection and separation of the female head does not require the male head to be removed from the interface of the electronic device multiple times, thereby damaging the interface and thereby affecting the service life of the electronic device;
- the front end of the pin header is higher than the front end surface of the second insulating portion, and is exposed at The front end surface of the second insulating portion makes the electrical connection performance of the female head and the male head more reliable, and the stability of signal transmission is better.
- the pin header is a pogo-pin needle, which has long impact life, stable transmission of low-impedance electrical signals, and saves installation space, etc., and is convenient for miniaturization of the male head 11.
- a groove is arranged at the upper end of the female head, and the shape and size of the groove correspond to the magnetic part of the male head, and the magnetic part is just received in the groove, so that the surface contact of the male and the female head is more firmly combined. Electrical connections are more stable.
- the magnetic part of the male head is designed as a sheet structure, which attaches the male head to the port of the electronic device, and the user does not substantially feel the thickness thereof, and the user is willing to attach the male long-term attachment. At the port of the electronic device, it does not affect the user carrying the electronic device, and can charge and transmit data to the electronic device, and even protect the port of the electronic device, such as moisture, ash, and waterproof.
- Figure 1 is a schematic view showing the overall structure of a novel connector assembly of the present invention.
- FIG. 2 is a schematic view showing the structure of a male head of a first embodiment of a novel connector assembly of the present invention.
- FIG 3 is a structural schematic view showing the male head and the female front side of the first embodiment of a novel connector assembly according to the present invention.
- FIG. 4 is a schematic view showing the structure of a male and female reverse side of a first embodiment of a novel connector assembly according to the present invention.
- Fig. 5 is a schematic view showing the structure of a male head of a second embodiment of a novel connector assembly of the present invention.
- Fig. 6 is a structural schematic view showing the male and female joints of the second embodiment of a novel connector assembly according to the present invention.
- Fig. 7 is a schematic view showing the structure of a male head of a third embodiment of a novel connector assembly of the present invention.
- FIG. 8 is a structural schematic view showing the male and female joints of the third embodiment of a novel connector assembly according to the present invention.
- FIG. 9 is a structural schematic view showing the male and female joints of the fourth embodiment of a novel connector assembly according to the present invention.
- Figure 10a is a schematic view of the male structure of a fifth embodiment of a novel connector assembly of the present invention.
- Fig. 10b is a structural schematic view showing the end face of the male magnetic head and the female end of the fifth embodiment of the novel connector assembly of the present invention.
- Figure 10c is a perspective view showing the three-dimensional structure of the female body of the fifth embodiment of the novel connector assembly of the present invention.
- Fig. 10d is a schematic view showing the end face structure of the fifth female head of the embodiment of the present invention.
- Figure 10e is a schematic illustration of the male and female combination of the fifth embodiment of a novel connector assembly of the present invention.
- Fig. 10f is a structural schematic view showing the matching of the male and female forward combined signals of the fifth embodiment of a novel connector assembly of the present invention.
- Figure 10g is a schematic view showing the structure of the female flip-flop of the fifth embodiment of the present invention in which the female flip is matched with the male-integrated signal.
- Fig. 11a is a structural schematic view showing the end face of the male magnetic head and the female end of the sixth embodiment of a novel connector assembly according to the present invention.
- Fig. 11b is a structural schematic view showing the end face of the female connector of the sixth embodiment of the present invention in contact with the male end.
- Figure 11c is a structural schematic view showing the matching of the female and male positive coupling signals of the sixth embodiment of a novel connector assembly of the present invention.
- Figure 11d is a schematic view showing the structure of the female connector of the sixth embodiment of the present invention in which the flipping of the female head is reversed by 180° and the male combined signal is matched.
- Fig. 12a is a structural schematic view showing the end face of the male magnetic head and the female end of the seventh embodiment of a novel connector assembly according to the present invention.
- Fig. 12b is a structural schematic view showing the matching of the female and male forward combined signals of the seventh embodiment of a novel connector assembly of the present invention.
- Fig. 12c is a schematic view showing the structure of the male connector flipping 180° reverse and the male joint signal matching in the seventh embodiment of the novel connector assembly of the present invention.
- Fig. 13a is a structural schematic view showing the end face of the male magnetic head and the female end of the eighth embodiment of the novel connector assembly of the present invention.
- Fig. 13b is a structural schematic view showing the end face of the male connector of the eighth embodiment of the present invention in contact with the male end.
- Fig. 13c is a structural schematic view showing the matching of the female and male positive coupling signals of the eighth embodiment of a novel connector assembly of the present invention.
- Figure 13d is a schematic view showing the structure of the female connector flipping 180° reverse and the male joint signal matching in the eighth embodiment of the novel connector assembly of the present invention.
- Fig. 14a is a structural schematic view showing the end face of the male magnetic head and the female end of the ninth embodiment of the novel connector assembly of the present invention.
- Fig. 14b is a structural schematic view showing the end face of the male connector of the embodiment of the present invention in contact with the male end.
- Fig. 14c is a structural schematic view showing the matching of the female and male positive coupling signals of the ninth embodiment of a novel connector assembly of the present invention.
- Figure 14d is a schematic view showing the structure of the female flip-flop of the embodiment of the present invention in which the female flip is 180° reversed and the male combined signal is matched.
- Fig. 15a is a structural schematic view showing the end face of the ten female head of the embodiment of the present invention in contact with the male end.
- Fig. 15b is a structural schematic view showing the matching of the female and male forward combined signals of the tenth embodiment of a novel connector assembly of the present invention.
- Fig. 15c is a schematic view showing the structure of the female flipping 180° reverse and male coupling signal of the tenth embodiment of a novel connector assembly according to the present invention.
- Fig. 16a is a structural schematic view showing the end face of the eleven female head of the novel connector assembly according to the present invention in contact with the male end.
- Fig. 16b is a structural schematic view showing the matching of the female and male forward combined signals of the eleventh embodiment of a novel connector assembly of the present invention.
- Fig. 16c is a schematic view showing the structure of the female flipping 180° reverse and male coupling signal of the eleventh embodiment of a novel connector assembly according to the present invention.
- Fig. 17a is a structural schematic view showing the end face of the male magnetic head and the female end of the twelfth embodiment of a novel connector assembly according to the present invention.
- Figure 17b is a structural schematic view of the end face of the twelve female head of the embodiment of the present invention in contact with the male end.
- Figure 17c is a block diagram showing the matching of the female and male forward combined signals of the embodiment 12 of a novel connector assembly of the present invention.
- Figure 17d is a schematic view showing the structure of the female connector flipping 180° reverse and the male coupling signal in the twelfth embodiment of the novel connector assembly of the present invention.
- Figure 18a is a structural schematic view of the end face of the thirteen female head of the novel connector assembly of the present invention in contact with the male end.
- Fig. 18b is a structural schematic view showing the matching of the female and male forward combined signals of the thirteenth embodiment of a novel connector assembly of the present invention.
- Figure 18c is a schematic view showing the structure of the female flip-flop of the embodiment of the present invention in which the 180-degree reverse and male-integrated signals are matched.
- Fig. 19a is a structural schematic view showing the end face of the male connector of the fourteenth embodiment of the present invention in contact with the male end.
- Fig. 19b is a structural schematic view showing the matching of the female and male forward coupling signals of the fourteenth embodiment of a novel connector assembly of the present invention.
- Fig. 19c is a schematic view showing the structure of the male flip-flop of 180° reverse and the male-integrated signal in the fourteenth embodiment of the novel connector assembly of the present invention.
- Figure 20a is a structural schematic view of the end face of the fifteen female head of the embodiment of the present invention in contact with the male end.
- Fig. 20b is a structural schematic view showing the matching of the female and male forward combined signals of the fifteenth embodiment of a novel connector assembly of the present invention.
- Figure 20c is a schematic view showing the structure of the female flip-flip 180° reverse and male-integrated signal matching in the fifteenth embodiment of the novel connector assembly of the present invention.
- Figure 21a is a structural schematic view showing the end face of the male magnetic head and the female end of a sixteenth embodiment of the novel connector assembly of the present invention.
- Fig. 21b is a structural schematic view showing the end face of the male connector of the embodiment of the novel connector assembly of the present invention in contact with the male end.
- Figure 21c is a schematic view showing the structure of the female and male forward combined signals of the sixteenth embodiment of a novel connector assembly of the present invention.
- Figure 21d is a schematic view showing the structure of the female flip-flop 180° reverse and male-headed signal matching in the sixteenth embodiment of the novel connector assembly of the present invention.
- Fig. 22a is a structural schematic view showing the end face of the male magnetic head and the female end of the seventeenth embodiment of the novel connector assembly of the present invention.
- Fig. 22b is a structural schematic view showing the end face of the seventeen female head of the novel connector assembly according to the present invention in contact with the male end.
- Fig. 22c is a structural schematic view showing the matching of the female and male positive coupling signals of the seventh embodiment of a novel connector assembly of the present invention.
- Fig. 22d is a schematic view showing the structure of the male-flip 180° reverse and male-integrated signal matching in the seventh embodiment of the novel connector assembly of the present invention.
- Figure 23a is a structural schematic view showing the end face of the male magnetic head and the female end of the eighteenth embodiment of the novel connector assembly of the present invention.
- Figure 23b is a structural schematic view of the end face of the eighteen female head of the embodiment of the present invention in contact with the male end.
- Fig. 24a is a structural schematic view showing the end face of the male connector of the novel connector assembly of the present invention in contact with the male end.
- Fig. 24b is a structural schematic view showing the matching of the female and male forward coupling signals of the nineteenth embodiment of the novel connector assembly of the present invention.
- Fig. 24c is a schematic view showing the structure of the male-flip 180° reverse and male-integrated signal matching in the nineteenth embodiment of the novel connector assembly of the present invention.
- Figure 25a is a schematic view showing the structure of the end face of the female connector of the embodiment of the present invention in contact with the male end.
- Fig. 25b is a structural schematic view showing the matching of the female and male forward combined signals of the embodiment 20 of a novel connector assembly of the present invention.
- Figure 25c is a schematic view showing the structure of the female flip-flop of the embodiment of the present invention in which the 180-degree reverse and male-integrated signals are matched.
- a novel connector assembly 10 provided by the present invention includes a male head 101, a female head 103, a wire body 105 and a plug 107.
- the female head 103, the wire body 105 and the plug 107 are integrally connected, the female head 103 and the plug 107 are respectively located at both ends of the wire body 105, the male head 101 and the female head 103 are separately designed, and the male head 101 and the female head 103 are magnetically coupled.
- Adsorption conduction connection The male 101 is plugged into the interface 201 of the electronic device 20.
- the plug 107 can be any of a USB connector, a Type-c connector, a micro head, a Lighting Dock head, and an HDMI interface.
- a male head 101 includes a plug portion 1011 and a magnetic attraction portion 1013.
- the plug portion 1011 and the magnetic portion 1013 are integrally formed.
- the plug portion 1011 has a rectangular shape and is made of a conductive material.
- the plug-in portion 1011 is located above the magnetic portion 1013 (here and below).
- the position words "upper”, “lower”, “inside” or “outer” are used only to define the relative position on the specified view), and the width of the insertion portion 1011 is slightly smaller than the width of the magnetic attraction portion 1013.
- the magnetic attraction portion 1013 is of a sheet type 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, an optimum value of 0.8 mm in thickness, a width of 3 mm and a length of 12 mm.
- the magnetic portion 1013 may have a thickness of 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, 1.6.
- the thickness of the design is as long as it does not affect the customer's incompatibility with the thickness of the electronic device 20, and there may be a tolerance of ⁇ 0.2 mm.
- the plug portion 1011 is inserted into the interface 201 of the electronic device 20, and the magnetic portion 1013 seals the interface tightly. Adhered to the outer surface of the interface 201, it is possible to prevent debris from entering the interface 201 of the electronic device 20 and the male 101 can be inserted into the electronic device 20 for a long period of time without affecting use.
- the plug-in portion 1011 includes a power supply positive 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, that is, a V+ line, a D- line, a D+ line, a V- line, and a V.
- - Line V+ is defined as: power positive signal
- D+ is defined as: data positive signal
- D- is defined as: data negative signal
- V- is defined as: power negative signal
- each line is arranged from left to right.
- the signals transmitted from left to right are V+ signal electric contact, D-signal electric contact, D+ signal electric contact, empty end electric contact, V-signal Contact.
- the null-ended electrical contact is electrically connected to any one of the V+ signal, the D-signal, the D+ signal, and the V-signal.
- the signal line in the plug-in portion 1011 The arrangement order of the lines viewed from the upper end of the plug-in portion 1011 is the power supply positive line 1021, the data negative line 1023, the data positive line 1025, the left power supply negative line 1027, and the right power supply negative line 1029, and the lower end of the plug-in portion is viewed from the line.
- the arrangement order is a left power supply negative line 1027, a data negative line 1023, a power supply positive line 1021, a data positive line 1025, and a right power supply negative line 1029.
- the magnetic attraction portion 1013 includes a pin 1041, a magnetic sheet 1043, and a first insulating portion 1045.
- the number of the pins 1041 is five, which are in one-to-one correspondence with the lower ends of the five signal lines in the plug portion 101, and are sequentially connected.
- the functions of the five pins 1041 are the negative power supply, the data negative, the positive power supply, the positive data and the negative power supply.
- the pins 1041 are exposed in a row on the front end surface of the magnetic sheet 1043, and the first insulating portion 1045 is disposed around the pins 1041 so that the plurality of pins 1041 are insulated from each other while the pins 1041 and the magnetic sheets are made.
- 1043 is insulated from each other.
- the magnetic sheet 1043 may be a magnet material or a ferromagnetic material adsorbed by a magnet.
- the first pin 1041 of the male 101 is electrically connected to the left negative power line 1027
- the third of the pin 1041 is electrically connected to the power positive line 1021
- the left negative power line 1027 and the power positive line 1021 form a male end.
- the signals signaled by 101 and female 103 are forwarded to group A.
- the female head 103 in the positive direction of the male head 101 and the female head 103 according to the first embodiment of the present invention, has a rectangular shape, and the female head 103 includes a contact 1031, a pin 1033 and a female magnet 1035.
- the upper end of the female head 103 is provided with a groove having a shape and a size corresponding to the magnetic attraction portion 1013.
- the magnetic attraction portion 1013 is received in the concave groove, and a plurality of contacts 1031 are disposed in the concave groove.
- the pin header 1033 includes a left first power terminal pin 1061, a second power pin pin 1065, a first data pin pin 1063, a second data pin pin 1067, and a right first power pin pin 1069, and the pin 1033
- the upper end is in one-to-one correspondence with the contact 1031 and is electrically connected, and the lower end is electrically connected to the line body 105.
- Each contact 1031 is electrically connected to the left first power terminal pin 1061, the first data terminal pin 1063, the second power terminal pin 1065, the second data terminal pin 1067 and the right first power terminal.
- the pin 1069 is arranged, and the position of the contact 1031 is set corresponding to the pin 1041 of the male 101.
- the female magnet 1035 corresponds to the magnetic sheet 1043, and the female 103 and the male 101 are connected together by magnetic adsorption. Once the female 103 is connected to the male 101, the female 1041 and the female on the male 101 are connected. The contact 1031 on the head 103 is also turned on to achieve an electrical connection.
- the pin headers 1033 are arranged in parallel, that is, the arrangement order of the upper portions and the arrangement order of the lower portions are the same, and the arrangement order of the upper portions of the pins 1033 is sequentially the left first power supply terminal pin 1061, the first data terminal pin 1063, and the second.
- the power terminal pin 1065, the second data pin pin 1067, and the right first power pin pin 1069, and the lower order of the pin 1033 are also sequentially arranged as a left first power pin pin 1061, a first data pin pin 1063, The second power supply terminal pin 1065, the second data terminal pin 1067, and the right first power terminal pin 1069.
- the upper end of the left first power terminal pin 1061 is connected to the left power negative line 1027 of the male 101, and the upper end of the first data terminal pin 1063 and the data negative line of the male 101.
- the upper end of the second power end pin 1065 is connected with the power main line 1021 of the male 101
- the upper end of the second data end pin 1067 is connected with the data positive line 1025 of the male 101
- the right first power end 1069 is connected.
- the upper end of the needle is connected to the right power supply negative line 1029 of the male head 101.
- the upper end of the left first power terminal pin 1061 is connected to the left power negative line 1027 of the male 101
- the upper end of the second power terminal pin 1065 is connected to the power positive line 1021 of the male 101
- the right first power terminal is connected.
- the upper end of the 1069 pin is connected to the right power negative line 1029 of the male 101 to charge the electronic device.
- the third pin 1041 of the male 101 is electrically connected to the right negative power supply line 1029, the third of the pin 1041 is electrically connected to the power positive line 1021, and the right negative power supply line 1029 and the power supply positive line 1021 form a male connector.
- the signal signal 101 and the female 103 signal are connected to the reverse group B.
- the signal transmitted by the pin 1041 of the male 101 to the group A and the signal transmitted by the reverse group B of the pin 1041 are symmetrical with each other.
- the arrangement order of the pins 1033 is from the left to the right, and the right first power supply terminal pin 1069, The two data terminal pins 1067, the second power terminal pin 1065, the first data terminal pin 1063, and the left first power terminal pin 1061.
- the pin 1033 is in communication with the pin 1041 through the contact 1031, the right first power pin pin 1069 is connected to the left power negative line 1027 of the male 101, and the second data pin pin 1067 is connected to the data negative line 1023 of the male 101.
- the second power terminal pin 1065 is connected to the power positive line 1021 of the male 101
- the first data terminal pin 1063 is connected to the data positive line 1025 of the male 101
- the left first power terminal pin 1061 and the male 101 are connected.
- the right power supply line 1029 is connected.
- the right first power supply terminal pin 1069 is connected to the left power supply negative line 1027 of the male 101
- the second power supply terminal pin 1065 is connected to the power supply positive line 1021 of the male 101
- the left first power supply terminal pin 1061 is The right power supply negative line 1029 of the male 101 is connected to charge the electronic device. Therefore, the electronic device can be charged regardless of whether the female head 103 is used on the front side or the back side.
- a male head 201 also includes a plug portion 2011 and a magnetic attraction portion 2013 .
- the plug portion 2011 and the magnetic attraction portion 2013 are integrally formed.
- the plug-in unit 2011 includes a left power positive line 2022, a left data positive line 2023, a data negative line 2024, a right data positive line 2025, and a right power supply positive line 2026. Each line is arranged from left to right, that is, the data negative line.
- a left power positive line 2022, a left data positive line 2023, a data negative line 2024, a right data positive line 2025, a right power positive line 2026, and a right ground line 2027 are arranged in order from left to right, and are arranged in parallel, that is, each The order in which the lines are arranged in the upper and lower portions is the same.
- the magnetic attraction portion 2023 includes a pin 2041 and a magnetic plate 2043.
- the seven pins 2041 are in one-to-one correspondence with the seven wires, and the functions of the seven pins 2041 are respectively a negative power supply, a positive power supply, and a positive data. Data negative, data positive, power positive and negative power supply.
- the male 201 magnet surrounds the pin 2041.
- the female head 203 has a rectangular shape, and the female head 203 includes a contact 2031, a pin header (no label), and a female magnet 2035.
- the upper end of the female head 203 is provided with a groove having a shape and a size corresponding to the magnetic attraction portion 2013.
- the magnetic attraction portion 2013 is received in the concave groove, and a plurality of contacts 2031 are disposed in the concave groove.
- the pin header includes a left first power terminal pin 2061, a left second power pin pin 2062, a left first data pin pin 2063, a second data pin pin 2064, a right first data pin pin 2065, and a second right.
- the power terminal pin 2066 and the right first power pin pin 2067, the seven pin pins are axially symmetric with the second data port pin 2064, and the upper end of the pin is in one-to-one correspondence with the contact 2031 and is electrically connected, and the lower end is connected
- the line body (not shown) is connected.
- Each contact 2031 is electrically connected to the left first power terminal pin 2061, the left second power pin pin 2062, the left first data pin pin 2063, the second data pin pin 2064, and the right first
- the data terminal pin 2065, the right second power terminal pin 2066 and the right first power terminal pin 2067, and the position of the contact 2031 is set corresponding to the pin 2041 of the male 201.
- the female magnet 2035 corresponds to the magnetic sheet 2043, and the female 203 and the male 201 are connected together by magnetic adsorption. Once the female 203 is connected to the male 201, the female 2041 on the male 201 is connected to the female.
- the contact 2031 on the head 203 is also turned on to achieve an electrical connection.
- the pin headers are arranged in parallel, that is, the left first power terminal pin 2061, the left second power pin pin 2062, the left first data pin pin 2063, the second data pin pin 2064, and the right first data end.
- the arrangement of the pin 2065, the right second power terminal pin 2066 and the right first power terminal pin 2067 in the upper portion is the same as the lower order.
- the line 2022 is connected, the upper end of the left first data end pin 2063 is connected to the left data positive line 2023 of the male head 201, and the upper end of the second data end pin 2064 is connected with the data negative line 2024 of the male head 201, and the right first data is
- the upper end of the end pin 2065 is connected to the right data positive line 2025 of the male 201
- the upper end of the right second power end pin 2066 is connected to the right power positive line 2026 of the male 201
- the upper end of the right first power end pin 2067 is connected. It is connected to the right ground line 2027 of the male head 201.
- the left first power supply terminal pin 2061 is connected to the left ground 2021
- the right first power terminal pin 2067 is connected to the right ground 2027
- the left second power terminal pin 2062 is connected to the left power positive line 2022, right.
- the second power supply terminal pin 2066 is connected to the right power supply positive line 2026 to charge the electronic device.
- the 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 and the left power positive line 2022 are connected to also charge the electronic device. It is also realized that the electronic device can be charged when the female head 203 is connected in reverse.
- a male head 301 includes a plug portion 3011 and a magnetic attraction portion 3013.
- the plug portion 3011 is integrally formed with the magnetic portion 3013.
- the plug portion 3011 is rectangular and the magnetic portion is The 3013 is elongated, the insertion portion 3011 is located above the magnetic attraction portion 3013, and the width of the insertion portion 3011 is slightly smaller than the width of the magnetic attraction portion 3013.
- the plug portion 3011 includes a power supply positive 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- line, and each line is sequentially arranged from left to right.
- the order of the lines viewed from the upper end of the plug is the power positive line 3021, the left power negative line 3027, and the right power negative line 3029.
- the power supply positive line 3021, the left power supply negative line 3027, and the right power supply negative line 3029 correspond to the power supply positive pole, the empty end and the ground of the electronic device pin, and the arrangement order of the lower end of the plug portion 3011 is the left power negative line.
- the magnetic attraction portion 3013 includes a pin 3041 and a magnetic piece 3043.
- the three pins 3041 are in one-to-one correspondence with the lower ends of the three wires and are electrically connected.
- the functions of the three pins 3041 are respectively the negative pole of the power source, the positive pole of the power source and the negative pole of the power source.
- the magnetic sheet 3043 surrounds the pin 3041.
- the pin 3041 of the male head 301 is first connected to the left power negative line 3027, the third of the pin 3041 is electrically connected to the power positive line 3021, and the left power negative line 3027 and the power positive line 3021 form a male end.
- the signal connected between the signal 301 and the female 303 is forward to the group C.
- the third pin 3041 of the head 301 is electrically connected to the right power supply negative line 3029, the third of the pin 3041 is electrically connected to the power positive line 3021, and the right power supply negative line 3029 and the power supply positive line 3021 form a male head 301.
- the signal connected to the female head 303 signal is forwarded to group D.
- the signal transmitted by the pin 3041 to the group C is symmetric with the signal transmitted by the reverse group D of the pin 3041 signal.
- FIG. 8 is a positive combination of the male head 301 and the female head 303 according to the third embodiment of the present invention.
- the female head 303 has a rectangular shape, and the female head 303 includes a contact 3031, a pin 3033 and a female magnet 3035.
- a recess is formed in the upper end of the female head 303.
- the recess has a shape and a size corresponding to the magnetic portion 3013.
- the magnetic portion 3013 is received in the recess, and a plurality of contacts 3031 are disposed in the recess.
- the pin 3033 includes a left first power terminal pin 3061, a second power pin pin 3065, and a right first power pin pin 3069.
- the upper end of the pin 3033 is in one-to-one correspondence with the contact 3031 and is electrically connected, and the lower end is connected to the line.
- Body 305 is conductively connected.
- Each contact 3031 is electrically connected to the left first power terminal pin 3061, the second power terminal pin 3065 and the right first power terminal pin 3069, and the position of the contact 3031 corresponds to the male 301.
- the pin 3041 is set.
- the female magnet 3035 corresponds to the magnetic sheet 3043, and the female 303 and the male 301 are connected together by magnetic adsorption. Once the female 303 is connected to the male 301, the female 3041 on the male 301 is connected to the female 301. Touch on head 303 Point 3031 is also turned on to reach an electrical connection.
- the pin 3033 is arranged in parallel, that is, the arrangement order of the upper portion and the arrangement order of the lower portion are the same, and the pin 3033 is the second power supply terminal pin 3065 as the axis of symmetry, and the upper order of the pin 3033 is sequentially left.
- the first power supply terminal pin 3061, the second power terminal pin 3065 and the right first power terminal pin 3069, and the lower order of the pin 1033 are also arranged in the order of the left first power terminal pin 3061 and the second power terminal pin. 3065 and the right first power terminal pin 3069.
- the upper end of the left first power terminal pin 3061 is connected to the left power negative line 3027 of the male 301, and the upper end of the second power terminal pin 3065 and the power supply of the male 301 are positive.
- the 3021 is connected, and the upper end of the right first power terminal 3069 is connected to the right power negative line 3029 of the male 301.
- the upper end of the left first power supply terminal pin 3061 is connected to the left power supply negative line 3027 of the male head 301
- the upper end of the second power supply terminal pin 3065 is connected to the power supply positive line 3021 of the male head 301, and the right first power supply terminal is connected.
- the upper end of the 3069 pin is connected to the right power negative line 3029 of the male head 301 to charge the electronic device.
- the left first power terminal pin 3061 is connected to the right power negative line 3029 of the male 301
- the upper end of the second power terminal pin 3065 is The power supply line 3021 of the male head 301 is connected
- the right first power supply terminal pin 3069 is connected to the left power supply negative line 3027 of the male head 301, so that the electronic device can also be charged. It is also realized that the electronic device can be charged when the female head 303 is reversing.
- the pin 3041 to which the left power supply negative line 3027 is connected and the pin 3041 to which the right power supply negative line 3029 is connected are symmetrically disposed with respect to the pin 3041 to which the power supply positive line 3021 is connected.
- the contact 3031 connected to the left first power terminal pin 3061 and the contact 3031 connected to the right first power terminal 3069 are symmetrically arranged with respect to the contact 3031 connected to the second power terminal pin 3065, and the power supply The positive line 3021, the left power supply negative line 3027 and the right power supply negative line 3029 are connected to the pin 3041.
- FIG. 9 is a positive combination of the male head 401 and the female head 403 according to the fourth embodiment of the present invention.
- the difference from the third embodiment is the internal power supply positive line 4021, the left power supply negative line 4027, and the right power supply negative with the male head 401.
- the connection of the wire 4029 and the arrangement of the pins 4032 in the female 403 are different.
- the pin header 4033 includes a left first power terminal pin 4061, a second power pin pin 4065, and a right first power pin pin 4069. When viewed from the upper end of the pin 4033, the arrangement order is the left first power pin pin 4061.
- the second power supply terminal pin 4065 and the right first power terminal pin 4069 viewed from the lower end of the pin 4033, the arrangement order is the left first power terminal pin 4061, the right first power pin pin 4069, and the second The power terminal pin 4065.
- the upper end of the pin header 4033 is in one-to-one correspondence with the contact 4031 and is electrically connected, and the lower end is electrically connected to the wire body.
- Each contact 4031 is electrically connected to the left first power terminal pin 4061, the second power terminal pin 4065 and the right first power terminal pin 4069, and the position of the contact 4031 corresponds to the male 401.
- the pin 4041 is set.
- the plug portion 4011 includes a power supply positive line 4021, a left power supply negative line 4027, and a right power supply negative line 4029, that is, a V+ line, a V- line, and a V- line, and each line is sequentially arranged from left to right.
- the power supply positive line 4021, the left power supply negative line 4027, and the right power supply negative line 4029 are arranged in the same order of the upper portion and the lower order, and the left power supply negative line 4027 is used as the symmetry axis, and the upper order of the plug portion 4011 is sequentially
- the power positive line 4021, the left power negative line 4027, and the right power negative line 4029, and the lower order of the plug portion 4011 are also sequentially the power supply positive line 4021, the left power supply negative line 4027, and the right power supply negative line 4029.
- the upper end of the left first power terminal pin 4061 is connected with the left power negative line 4027 of the male 401, and the upper end of the second power terminal pin 4065 and the power supply of the male 401 are positive.
- the 4021 is connected, and the upper end of the right first power terminal 4069 is connected to the right power negative line 4029 of the male 401.
- the upper end of the left first power terminal pin 4061 is connected to the left power negative line 4027 of the male 401
- the upper end of the second power terminal pin 4065 is connected to the power positive line 4021 of the male 401, and the right first power terminal is connected.
- the upper end of the 4069 pin is connected to the right negative power line 4029 of the male 401 to charge the electronic device.
- the left first power supply terminal pin 4061 is connected to the right power supply negative line 4029 of the male 401
- the upper end of the second power supply terminal pin 4065 is The power supply line 4021 of the male head 401 is connected, and the right first power supply terminal pin 4069 is connected to the left power supply negative line 4027 of the male 401, so that the electronic device can also be charged. It is also realized that the electronic device can be charged when the female head 403 is reversed.
- the pin 4041 to which the left power supply negative line 4027 is connected and the pin 4041 to which the right power supply negative line 4029 is connected are symmetrically disposed with respect to the pin 4041 to which the power supply positive line 4021 is connected.
- the contact 4031 connected to the left first power terminal pin 4061 and the contact 4031 connected to the right first power terminal 4069 are symmetrically arranged with respect to the contact 4031 connected to the second power terminal pin 4065, and the power supply The positive line 4021, the left power supply negative line 4027 and the right power supply negative line 4029 are connected to the pin 4041.
- the male pin needs to form at least one signal positive.
- the signal forward group and the signal reversal group are centrally symmetric with each other, and the signal forward group and the signal reversal group include at least one V+ signal and one V-signal; the female pin header is selected
- One of the signal forward sets or one of the signal reverse sets performs signal and position matching settings, thus ensuring that either the front side of the female head and the male head are electrically connected under magnetic attraction, or the female head is flipped 180° back.
- the male-conducting connection can make the male V+ and V- and the female V+ and V- correspondingly connected to each other, forming a power signal transmission path to realize the charging function.
- the fifth embodiment differs from the first embodiment in the arrangement of the pins 1131 on the magnetic portion 113 of the male head 11.
- a side of the magnetic portion 113 of the male head 11 facing away from the insertion portion 111 forms a first magnetic surface 1137, and the first magnetic surface 1137 is magnetically attracted to the female head 13 to electrically guide the male head 11 and the female head 13 through.
- the pin 1131 is arranged in a single row at the upper half of the first magnetic surface 1137 from the horizontal center line L (where L can be from the center line to The distance of the upper surface of the magnetic attraction portion 113, the number of the pins 1131 may be one or more, and the pin 1131 is exposed on the first magnetic surface 1137 for electrically conducting with the female head 13.
- the first insulating portion 1135 is wrapped around the pin 1131 so that the pins 1131 are insulated from each other, and the magnetic sheet 1133 is a ferromagnetic conductive material, which is disposed around 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, wherein the first V+ pin 1141 transmits a V+ signal, and the first D+ pin 1143 passes the D+ signal, the first D-pin 1145 delivers the D-signal, and the first V-pin 1147 delivers the V-signal.
- the arrangement of the pins 131 on the magnetic attraction portion 113 is, from left to right, a first D+ pin 1143, a first D-pin 1145, a first V+ pin 1141, a first D-pin 1145, and a first V-pin 1147.
- the corresponding signal pin 1311 can be connected to the corresponding signal line in the interface of the electronic device through the corresponding pin disposed in the plug portion to realize signal transmission.
- the female head 13 includes a pin header 131, a female magnet 133, a second insulating portion 135 and a recess 137.
- the female head 13 has a rectangular shape, and a groove 137 is formed at an upper end thereof.
- the groove 137 has a shape and a size corresponding to the magnetic portion 113 of the male head 11.
- the magnetic attraction portion 113 is received in the groove 137 and the groove 137.
- the bottom surface of the female magnet 133 is a permanent magnet or an electromagnet.
- the female magnet 133 is disposed on the bottom surface of the recess 137 and is disposed around the second insulating portion 135.
- the front end surface of the female magnet 133 is flush with the bottom of the recess 137.
- a second magnetic absorbing surface 139 is formed at the bottom of the groove 137, and the shape of the second magnetic absorbing surface 139 and the first magnetic absorbing surface 1137 is the same in size. Under the magnetic attraction of the male head 11 and the female head 13, the male head 11 The first magnetic surface 1137 and the second magnetic surface 139 of the female head 13 are magnetically adsorbed, so that the male head 11 and the female head 13 are more firmly bonded, and the electrical connection is more stable.
- the second magnetic absorbing surface 139 is provided with a pin header 131 which is two rows arranged in parallel in the horizontal direction, and the first row is disposed on the upper half of the second magnetic absorbing surface 139 from the horizontal center line L, The second row is disposed at a lower half of the second magnetic attraction surface 139 from the horizontal center line L.
- the second insulating portion 135 is wrapped around the pin 131 in a rectangular shape so that each of the pins 131 is insulated from each other, and the front end of the pin 131 is raised above the front end surface of the second insulating portion 135 and exposed at the front end of the second insulating portion 135.
- the surface makes the electrical connection performance of the female head 13 and the male head 11 more reliable, and the stability of signal transmission is better.
- the pin header 131 is preferably a pogo-pin needle, so that the pin header 131 has a long impact life, a low-impedance electrical signal transmission is stable, and the installation space is saved, thereby facilitating miniaturization of the male
- the pin header 131 includes a first D+ pin 1313, two first D-pins 1315, a first V-row pin 1317, a first V+ pin 1311, a second D+ pin 1312, and a second V-pin 1316, two second D-pins 1314 and one second V+ pin 1310.
- the arrangement order of the first row of the pins 131 is from the left to the right, the first D+ pin 1313, the first D-pin 1315, the first V+ pin 1311, the first D-pin 1315 and the first V-. Pin header 1317.
- the second row and the first row are symmetrically arranged centrally with each other, and from left to right are a second V-pin 1316, a second D-pin 1314, a second V+ pin 1310, a second D-pin 1314 and The second D+ pin 1312.
- the foot 1147 is electrically connected to the first V-row pin 1317 of the female head 13. That is, the first D+ pin 1143 of the male head 11, the first D-pin 1145, the first V+ pin 1141, the first D-pin 1145, the first V-pin 1147 and the first D+ of the female 13
- the pin 1313, the first D-pin 1315, the first V+ pin 1311, the first D-pin 1315, and the first V-pin 1317 are in one-to-one correspondence and electrically connected.
- the D-signal, the D+ signal, the V-signal, and the V+ signal of the male head 11 respectively form a path corresponding to the D-signal, the D+ signal, the V-signal, and the V+ signal of the female head 13, so that the male 11 and the female head are formed.
- 13 forms a power signal path and a data signal path, which can realize the functions of charging and data transmission.
- the reverse phase is combined, that is, the female head 13 is turned 180° in reverse to be combined with the male head 11.
- the order of the pins 1131 of the male head 11 does not change.
- the first D+ pin 1143 of the male head 11, the first D-pin 1145, the first V+ pin 1141, the first D-pin 1145, the first V-pin 1147 and the female 13 respectively
- 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 in one-to-one conductive connection.
- the D-signal, the D+ signal, the V-signal, and the V+ signal of the male head 11 are respectively formed in a one-to-one correspondence with the D-signal, the D+ signal, the V-signal, and the V+ signal of the female head 13, so that the male head 11 and the female head are formed.
- 13 forms a power signal path and a data signal path, which can realize the functions of charging and data transmission.
- the first row of the pins 131 form a signal forward group E
- the second row forms a signal reverse group F
- the signal forward group E and the signal reverse group F are symmetrically arranged with each other.
- Both the signal forward group E and the signal reverse group F are provided with at least one D-signal, one D+ signal, one V-signal and one V+ signal.
- the sixth embodiment is different from the fifth embodiment in that the signal transmitted by the pin 2131 of the male head 21 is changed.
- the pin 2131 is the first D+ pin 2143 from left to right, first. D-pin 2145, first V+ pin 2141, first V-pin 2147, first V-pin 2147.
- the signal transmitted by the pin header 231 on the female head 23 also changes.
- the first row of the pin headers 231 is the first D+ pin header 2313 from the left to the right, the first V+ pin header 2311, and the first D-pin pin 2315, a V-row pin 2317, a first V-row pin 2317; the second row and the first row are center-symmetrical with each other from left to right, followed by a second V-row pin 2316, and a second V-row pin 2316, Two D-pins 2314, a second V+ pin 2310, and a second D+ pin 2312.
- the first D+ pin 2143 of the male head 21 when the male head 21 and the female head 23 are positively coupled the first D-pin 2145, the first V+ pin 2141, and the first V-pin 2147
- the first V-pin 2147 and the first D+ pin 2313 of the female 23 the first V+ pin 2311, the first D-pin 2315, the first V-pin 2317, and the first V-pin 2317
- One-to-one correspondence is connected, so that the male head 11 and the female head 13 form a power signal path and a data signal path, which can realize the functions of charging and data transmission.
- the male head 21 is kept unchanged, and after the female head 23 is turned 180°, the male head 21 is magnetically conductively connected, and the first D+ pin 2143 of the male head 21 and the first D-pin 2145 are used.
- the second V-pin 2316 and the second V-pin 2316 are connected in a one-to-one manner, so that the male 21 and the female 23 form a power signal path and a data signal path, which can realize the functions of charging and data transmission. .
- the first row of the pins 231 form a signal forward group
- the second row forms a signal reverse group
- the signal forward group and the signal reverse group are symmetrically arranged with each other.
- both the signal forward group and the signal reverse group are transmitted with at least one D-signal, one D+ signal, one V-signal and one V+ signal.
- the seventh embodiment is different from the fifth embodiment in that the position of the pin 3131 of the male head 31 is changed, and the pin 3131 is in a single row, and is disposed in the lower half of the first magnetic absorbing surface 3137.
- the distance from the horizontal direction center line L, the order of the pins 3131 from the left to the right is the first D+ pin 3143, the first D-pin 3145, the first V+ pin 3141, the first D-pin 3145, First V-pin 3147.
- the pin 3147 is respectively corresponding to the second D+ pin 3312 of the female head 33, the second D- pin 3314, the second V+ pin 3310, the second D- pin 3314 and the second V- pin 3316.
- the connection is made such that the male 31 and the female 33 form a power signal path and a data signal path, and the functions of charging and data transmission can be realized.
- the female head 33 is flipped 180° and then combined with the male head 31.
- the first D+ pin 3143, the first D-pin 3145, and the first V+ pin 3141 of the male head 31 are first.
- the first D+ pin 3313 of the female head 33, the first V+ pin 3311, the first D-pin 3315, the first V-pin 3317, and the first V-pin 3317 are connected in a one-to-one manner.
- the head 31 and the female head 33 form a power signal path and a data signal path, and can perform functions of charging and data transmission.
- the first row of the pin headers 331 form a signal forward group
- the second row forms a signal reverse group
- the signal forward group and the signal reverse group are symmetrically arranged with each other. Both the signal forward group and the signal reverse group are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal.
- the pin headers of the female head are two rows arranged in parallel, and the first row of the pin headers is disposed on the second magnetic face half. From the horizontal center line L, the second row is disposed at a distance from the horizontal centerline L of the lower half of the second magnetic attraction surface, that is, the first row and the second row of the pin headers are equal to the horizontal centerline.
- the pin header of the female head forms at least one signal forward group and at least one group signal reverse group, and the signal forward group and the signal reverse group are symmetrically arranged with each other.
- Each signal forward group and each signal reverse group transmit at least one D-signal, one D+ signal, one V-signal and one V+ signal.
- the specific layout position of the signal is not limited, and the male pin only needs to be arranged. Any one of the signal forward group and/or any signal reverse group is used to match the position and signal, so that the male and female forwards are combined or the female is flipped 180° and then reversed with the male.
- the power signal path and the data signal path can be formed, and the functions of charging and data transmission can be realized.
- the eighth embodiment is different from the fifth embodiment in that the pins 4131 of the male head 41 are two rows arranged in parallel, and the first row is disposed on the upper center of the first magnetic attraction surface 4137 from the horizontal center line. L, the second row is disposed at a lower horizontal center line L of the first magnetic attraction surface 4137, and the first row is a first D+ pin 4143 from the left to the right, and the first D-pin 4145 is first.
- V+ pin 4141, first D-pin 4145 and first V-pin 4147, the second row arrangement and the first row are centrally symmetric with each other, and from left to right is a second V-pin 4146, Two D-pins 4144, a second V+ pin 4140, a second D-pin 4144, and a second D+ pin 4142.
- the pin 431 of the female head 43 is positionally and signal-matched according to the pin 4131 of the male head 41.
- the first row of the pin 4131 is disposed on the upper half of the second magnetic absorbing surface 439 from the horizontal center line L.
- the second row is disposed at a lower half of the second magnetic attraction surface 439 from the horizontal center line L.
- the first row from left to right is a first D+ pin 4313, a first D-row pin 4315, a first V+ pin 4311, a first D-pin 4315 and a first V-row pin 4317.
- the second row of the pin 431 is arranged symmetrically with respect to the first row, and from left to right is a second V-pin 4316, a second D-pin 4314, a second V+ pin 4310, a second D - pin 4314 and second D+ pin 4312.
- the first D+ pin 4313 of the 43th, the first D-pin 4315, the first V+ pin 4311, the first D-pin 4315, the first V-pin 4317, the second V-pin 4316, the second D-pin 4314, second V+ pin 4310, second D-pin 4314, and second D+ pin 4312 are connected in a one-to-one manner, so that male 41 and female 43 form a power signal path and number According to the signal path, the functions of charging and data transmission can be realized.
- the first row and the second row of the 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 symmetrically disposed with each other. Both the signal forward group G and the signal reverse group H are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal.
- the ninth embodiment differs from the eighth embodiment in that the number of each row of the pin headers 531 of the female head 53 is changed.
- the arrangement of the pin 531 on the female head 53 is entirely "W" type, and the first row of the pin 531 is from the left to the right, which is the first D+ pin 5313, the first V+ pin 5311, and the first V- pin. 5317, the second row from left to right is a second D-row pin 5314, and a second D-row pin 5314.
- the male 51 in accordance with the eighth embodiment the first D+ pin 5143 of the male 51 when the male 51 and the female 53 are positively coupled, the first V+ pin 5141, the first V-pin 5147, the second D-pin 5144, second D-pin 5144 and first D+ pin 5313 of female 53, first V+ pin 5311, first V-pin 5317, second D-pin 5314, second
- the D-pins 5314 are connected to each other in a one-to-one manner, so that the male 51 and the female 53 form a power signal path and a data signal path, and the functions of charging and data transmission can be realized.
- the female head 43 is flipped 180° and combined with the male 51.
- the first D-pin 5145 of the male 51, the first D-pin 5145, and the second V-pin 5146 a second V+ pin 5140, a second D+ pin 5142 and a second D-pin 5314 of the female head 53, a second D-pin 5314, a first V-pin 5317, a first V+ pin 5311,
- the first D+ pin 5313 is connected in a conductive manner, so that the male 51 and the female 53 form a power signal path and a data signal path, and the functions of charging and data transmission can be realized.
- the first row and the second row of the pin 5131 form at least one signal forward group J and at least one signal reverse group K, and the signal forward group J and the signal reverse group K are symmetric with each other. Settings. Both the signal forward group J and the signal reverse group K are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal.
- the tenth embodiment differs from the ninth embodiment in that the number of each row of the pins 631 of the female head 63 is changed, and the first row and the second row of the pin headers 631 are integrally shaped. Structure, the first row of signals from left to right is the first D+ pin 6131, the first D-row pin 6315, the first V-row pin 6317, and the second row pin 631 only one is the second V+ pin 6310 .
- the holding male 61 is identical to the ninth embodiment.
- the male 61 and the female 63 are positively coupled, the first D+ pin 6143 of the male 61, the first D-pin 6145, and the first V-pin 6147
- the second V+ pin 6140 is respectively electrically connected to the first D+ pin 6313 of the female 63, the first D-pin 6315, the first V-pin 6317, and the second V+ pin 6310.
- the male 61 and the female 63 form a power signal path and a data signal path, and can perform functions of charging and data transmission.
- the female head 63 is flipped 180° to be combined with the male head 61.
- the first V+ pin 6141 of the male head 61, the second V-pin 6146, the second D-pin 6144, and the second The D+ pin 6142 and the second V+ pin 6310 of the female 63, the first V-row pin 6317, the second D- pin 6315, and the second D+ pin 6313 are connected in a one-to-one correspondence, such that the male 61 and The female head 63 forms a power signal path and a data signal path, and can perform functions of charging and data transmission.
- the first row and the second row of the pin 6131 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 arranged with each other. Both the signal forward group and the signal reverse group are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal.
- the first row of the male pins is disposed on the first magnetic face.
- the upper half is at a distance from the horizontal center line L
- the second row is disposed at a distance from the horizontal centerline L of the lower half of the first magnetic attraction surface, that is, the distance between the first row and the second row of the pins and the horizontal center line are equal
- the male pin forms at least one forward signal group and at least one reverse signal group, and the forward signal group and the reverse signal group are centrally symmetric with each other, and each forward signal group and each reverse signal group have at least one D - Signal, a D+ signal, a V-signal and a V+ signal, the specific arrangement position of the signal is not limited.
- the female pin header selects at least one forward signal group and/or at least one reverse signal group of the male pin to perform signal and position corresponding matching setting, thereby ensuring positive integration of the male and female heads or the female
- the head flip 180° reverse combined with the male head can form a power signal path and a data signal path, which can realize the functions of charging and data transmission.
- the eleventh embodiment differs from the tenth embodiment in that the pin headers 731 of the female head 73 are in a row which is disposed on the second magnetic surface of the female head 73 at a horizontal center.
- the pin 731 is, from left to right, a first D+ pin 7131, a first D-pin 7315, a first V+ pin 7311, a first D-pin 7315, and a first V-row 7317. .
- the holding male 71 is identical to the tenth embodiment.
- the male 71 and the female 73 are positively coupled, the first D+ pin 7143 of the male 71, the first D-pin 7145, and the first V+ pin 7141, One D-pin 7145, first V-pin 7147
- the first D+ pin 7731, the first D-pin 7315, the first V+ pin 7311, the first D-pin 7315, and the first V-pin 7317 are in one-to-one correspondence with the female head 73, and are electrically connected.
- the male 71 and the female 73 form a power signal path and a data signal path, and the functions of charging and data transmission can be realized.
- the female head 73 is flipped 180° in combination with the male 71.
- the pins 7313 are in one-to-one correspondence, and are connected in a conductive manner, so that the male 71 and the female 73 form a power signal path and a data signal path, and the functions of charging and data transmission can be realized.
- the first row and the second row of the pins 7131 of the male 71 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 centrally symmetric with each other. Settings. Both the signal forward group and the signal reverse group are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal.
- the pin headers of the female head are set in one row.
- the first row of pins of the male head is disposed on the first magnetic suction surface half from the horizontal center line L
- the second row of pins is disposed on the lower half of the first magnetic attraction surface from the horizontal center line L, that is, the pins
- the first row and the second row are equally spaced from the horizontal centerline.
- the first row and the second row of the pins 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 arranged with each other.
- Both the signal forward group and the signal reverse group are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal.
- the female pin header only needs to select any signal forward group and/or signal reverse group of the male pin to perform signal and position matching, so that the female forward and the male can be combined, or the female flip is 180°.
- the combination of the male head can form a power signal path and a data signal path, thereby realizing the functions of charging and data transmission.
- the twelfth embodiment differs from the fifth embodiment in that the number of rows of the pin 811 of the male head 81 is three rows arranged in parallel, and the first row is disposed on the first half of the first magnetic attraction surface 8137 of the male 81.
- the distance from the horizontal center line L, the second row is disposed at the horizontal center line of the first magnetic surface 8137 of the male 81, and the third row is disposed at the lower half of the first magnetic surface 8137 of the male 81 from the horizontal center line L.
- the distance between the first row and the third row is equal to the horizontal centerline.
- the first row of pins 9131 is, from left to right, a first D+ pin 8143, a first D-pin 8145, a first V+ pin 8141, a first D-pin 8145, and a first V-pin 8147.
- the second row from left to right is the second V+ pin 8140, the second D-pin 8144, the second D+ pin 8142, the second D-pin 8144, the second V+ pin 8140; the third row Symmetrical with the first row, from left to right, third V-pin 8157, third D-pin 8155, third V+ pin 8151, third D-pin 8155, third D+ tube Foot 8153.
- the row of pins 831 of the female head 83 is a row, which is disposed on the upper end surface of the second magnetic surface 839 of the female head 83 from the horizontal center line L, and the row of pins 831 from left to right is the first A D+ pin 8131, a first D-pin 8315, a first V+ pin 8311, a first D-row pin 8315, and a first V-row pin 8317.
- the male 81 and the female 83 are positively coupled, the first D+ pin 8143 of the male 81, the first D-pin 8145, the first V+ pin 8141, and the first D-pin 8145 , the first V-pin 8147 and the first D+ pin 8831 of the female 83, the first D-pin 8315, the first V+ pin 8311, the first D-pin 8315, and the first V-pin
- the 8317-one is connected to the conduction, so that the male 81 and the female 83 form a power signal path and a data signal path, thereby realizing the functions of charging and data transmission.
- the female head 83 is flipped 180° and then combined with the male 81.
- the needles 8313 are one-to-one corresponding to the conductive connection.
- the male 81 and the female 83 are formed into a power signal path and a data signal path, so that charging and data transmission functions can be realized.
- the pin headers 831 of the female head 83 are arranged in a row, and the positive or negative connection of the female head 83 and the male head 81 is not associated with the second row of the pins 8131 of the male 81, so the male pins 8131 can be arbitrarily ordered.
- the first row, the second row, and the third row of the pin 8131 of the male 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 are centered with each other. Symmetrical settings. Both the signal forward group M and the signal reverse group N are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal.
- the thirteenth embodiment is different from the twelfth embodiment in that the row of pins 931 of the female head 93 is a row disposed at a lower end surface of the second magnetic surface 939 from the horizontal center line L.
- the arrangement of the pins 931 from left to right is a first V-signal 9317, a first D-signal 9315, a -V+ signal 9311, a first D-signal 9315, and a first D+ signal 9313.
- the holding male 91 is the same as the twelfth embodiment.
- the third V-pin 9157 of the male 91, the third D-pin 9155, The third V+ pin 9151, the third D-pin 9155, the third D+ pin 9153 and the first V-signal 9317 of the female 93, the first D-signal 9315, the first V+ signal 9311, the first D - Signal 9315, the first D+ signal 9313 corresponds to the conduction connection one by one, so that the male 91 and the female 93 form a power signal path and a data signal path, thereby realizing the functions of charging and data transmission.
- the female head 93 is flipped 180° and then combined with the male head 91.
- the first D+ pin 9143 of the male head 91, the first D-pin 9145, the first V+ pin 9141, and the first D- Pin 9145, first V-pin 9147, and first D+ pin 9131 of the female, first D-pin 9315, first V+ pin 9311, first D-pin 9315, first The V-pins 9317 are connected in turn to form a power signal path and a data signal path, thereby realizing the functions of charging and data transmission.
- the first row, the second row, and the third row of the pin 9131 of the male 91 form at least one signal forward group and at least one signal reverse group, the signal forward group and the signal reverse Groups are symmetrically centered on each other. Both the signal forward group and the signal reverse group are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal.
- the pin headers of the female head are in a row.
- the first row of the male pins is disposed at a distance from the horizontal center line L of the first magnetic surface
- the second row is disposed at the horizontal center line of the first magnetic portion
- the third row is disposed under the first magnetic surface
- the half is at a horizontal center line L
- the male pin is equidistant from the center line
- the first row, the second row, and the third row of the male pin form at least one signal forward group and at least one signal inversion
- the group, the signal forward group and the signal reverse group are symmetrically arranged with each other.
- Both the signal forward group and the signal reverse group are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal.
- the specific layout position of the signal is not limited, and the pin rows of the first row and the third row are symmetric with each other.
- the female pin header is matched with at least one signal positive group and/or at least one signal reverse group of the male pin to ensure that the female head is positively coupled with the male, or the female flip is 180°.
- the combination of the heads enables the male and female heads to form a power signal path and a data signal path, thereby enabling charging and data transmission functions.
- the fourteenth embodiment differs from the thirteenth embodiment in the number of rows of the pin headers 241 of the female head 24, and the first row is disposed on the upper half of the second magnetic attraction surface 249 from the horizontal center line L.
- the second row is disposed at a horizontal center line of the second magnetic attraction surface 249.
- the arrangement of the first row of the pins 241 from left to right is, in order, a first D+ pin 2413, a first V+ pin 2411, a first V-row pin 2417; and a second row from left to right is a second D-
- the pin header 2414, the second D-pin header 2414, and the first row and the second row of the pin header 241 are in a "W" shape.
- the retaining male 22 is identical to the thirteenth embodiment.
- the first D+ pin 2243 of the male 22, the first V+ pin 2241, the first V-pin 2247, the second D - pin 2244, second D-pin 2244 and first D+ pin 2413 of female 24, first V+ pin 2411, first V-pin 2417, second D-pin 2414, second The D-pins 2414 are respectively connected to the conduction connection one by one to form a power signal path and a data signal path, thereby realizing the functions of charging and data transmission.
- the second D-pin 2244 of the male head 22 when the female head 24 is flipped 180° and the male head 22 is reversely coupled, the second D-pin 2244 of the male head 22, the second D-pin 2244, the third V-pin 2257, and the third V+ pin 2251, third D+ pin 2253 and second D-pin 2414 of female 24, second D-pin 2414, first V-pin 2417, second V+ pin 2411, second
- the D+ pin 2413 is connected to the conduction connection to form a power signal path and a data signal path, thereby realizing the functions of charging and data transmission.
- the first row, the second row, and the third row of the pins 2231 of the male 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 Q are centered with each other. Symmetrical settings. Both the signal forward group P and the signal reverse group Q are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal.
- the fifteenth embodiment is different from the fourteenth embodiment in that the row of the pins 341 of the female head 34 is arranged in each row, the row of pins 341 are two rows, and the first row is disposed in the second magnetism.
- the upper half of 349 is at a distance from the horizontal center line L
- the second row is disposed at a lower half of the second magnetic attraction portion 349 from the horizontal center line L
- the second row and the first row are in a "W" shape.
- the first row of signal arrangement of the pin 341 is from the left to the right, the first D+ pin 3413, the first V+ pin 3411, and the first V- pin 3417; the second row of signals is arranged from left to right. Two D-pins 3414, second D-pins 3414.
- the holding male 32 is the same as the fourteenth embodiment.
- the male 32 is positively coupled with the female 34
- the two D-pins 3414 and the second D-pins 3414 are connected in turn to form a power signal path and a data signal path, so that charging and data transmission functions can be realized.
- the female head 34 when the female head 34 is flipped 180° and combined with the male head 32, the first D-pin 3245 of the male head 32, the first D-pin 3245, the third V-pin 3257, and the third V+ Pin 3251, third D+ pin 3253 and second D-pin 3414 of female 34, second D-pin 3414, first V-pin 3417, first V+ pin 3411, first D+
- the pin headers 3413 are connected to each other in a one-to-one manner to form a power signal path and a data signal path, thereby realizing the functions of charging and data transmission.
- the first row, the second row, and the third row of the pins 3231 of the male head 32 form at least one signal forward group and at least one signal reverse group
- the signal forward group and the signal reverse Groups are symmetrically centered on each other. Both the signal forward group and the signal reverse group are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal.
- the pin 4231 of the male head 42 of the sixteenth embodiment has three rows.
- the difference from the fifteenth embodiment is the number of pins 4231 of each row.
- the first row is the first D+ from left to right.
- Pin 4243, first V+ pin 4241, first V-pin 4247, second row from left to right second D-pin 4244, second D-pin 4244, third row and first row Symmetrically centered, from left to right is a third V-pin 4257, a third V+ pin 4251, and a third D+ pin 4253.
- the pin 441 of the female head 44 is a parallel two-row structure, the first row is disposed at the horizontal center line of the second magnetic attraction portion 449, and the second row is disposed at the lower half of the second magnetic attraction portion 449.
- the first row from left to right is a first D-row pin 4415
- a first D-row pin 4415 is a first D-row pin 4415
- a second row from left to right is a second V-row pin 4416.
- the second V+ pin 4410, the second D+ pin 4412, and the first row and the second row of the pin are in an "M" shape.
- the male 42 and the female 44 are positively coupled.
- the second row of the male 42 is from left to right, the second D-pin 4244, the second D-pin 4244, and the third V-pin 4257.
- the second D+ pin 4412 is connected to the conduction connection one by one to form a power signal path and a data signal path, thereby realizing the functions of charging and data transmission.
- the female head 44 when the female head 44 is flipped 180° to be coupled with the male head 42, the first D-pin 4243 of the male head 42, the first V+ pin 4241, the first V-pin 4247, and the second D-tube.
- the pin 4215 is respectively corresponding to the second D+ pin 4412 of the female head 44, the second V+ pin 4410, the second V- pin 4416, the first D-pin 4415, and the first D-pin 4415.
- the connection is made to form a power signal path and a data signal path, so that charging and data transmission functions can be realized.
- the first row, the second row, and the third row of the pins 4231 of the male head 42 form at least one signal forward group and at least one signal reverse group, the signal forward group and the signal reverse Groups are symmetrically centered on each other. Both the signal forward group and the signal reverse group are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal.
- the male head 52 pin 5231 of the seventeenth embodiment has three rows.
- the difference from the sixteenth embodiment is the number of pins 5231 of each row.
- the first row is the first D+ tube from left to right. Foot 5243, first D-pin 5245, first D-pin 5245 first V-pin 5247; first row is second V+ pin 5240; third row and first row are center-symmetric, from Left to right are the third V-pin 5257, the third D-pin 5255, the third D-pin 5255, and the third D+ pin 5253.
- the pin 541 of the female head 54 has two rows. Unlike the previous embodiment, the number of each row of the pin 541 is the first row of the first V+ pin 5111 and the second row from the left. To the right is a second V-pin 5416, a second D-pin 5414, a second D-pin 5414, and a second D+ pin 5412.
- the second V+ pin 5240 of the male 52 when the male 52 is positively coupled to the female 54, the second V+ pin 5240 of the male 52, the third V-pin 5257, the third D-pin 5255, and the third D-pin. 5255, the third D+ pin 5253 and the first V+ pin 5141 of the female head 54, the second V- pin 5416, the second D- pin 5414, the second D- pin 5414, and the second D+ pin 5412
- the one-to-one conduction connection forms a power signal path and a data signal path, thereby enabling charging and data transmission functions.
- the female head 54 is flipped 180° and then reversely coupled with the male head 52.
- the second V+ pin headers 5411 are electrically connected to each other to form a power signal path and a data signal path, so that charging and data transmission functions can be realized.
- the first row, the second row, and the third row of the pins 5231 of the male head 52 form at least one signal forward group and at least one signal reverse group, the signal forward group and the signal reverse Groups are symmetrically centered on each other. Both the signal forward group and the signal reverse group are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal.
- the first row and the third row of the pins are symmetrical with each other, and the second row is horizontally symmetrical.
- the first row, the second row, and the third row of the pins of the male 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 disposed with each other. Both the signal forward group and the signal reverse group are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal.
- the specific layout position of the signal is not limited, and the pin header of the female head selects at least one signal forward group and/or the signal reverse group of the male pin to perform corresponding matching setting of the signal and the position, so that the female and the male are ensured.
- the power signal path and the data signal path can be formed by flipping the combination or the female head by 180° and then reversely combining with the male to realize the functions of charging and data transmission.
- the retaining male 62 is identical to the twelfth embodiment.
- the first row of the legs 6231 of the male 62 is, in order from left to right, the first D+ pin 6243, the first D-tube.
- the pin headers 641 of the female head 64 are three rows arranged in parallel, and the first row is disposed on the second magnetic attraction portion 649. The upper half is at a distance L from the horizontal center line, the second row is disposed at a horizontal center line on the second magnetic attraction portion 649, and the third row is disposed at a lower half of the second magnetic attraction portion 649 from the horizontal center line. L.
- the first row of pin headers 641 from left to right is a first D + pin header 6413, a first D-row pin 6415, a first V + pin header 6411, a first D-row pin 6415, a first D-row pin 6417;
- the third row and the first The rows are symmetric with respect to each other, and from left to right are a third V-row pin 6427, a third D-pin 6425, a third V+ pin 6421, a third D-pin 6425, and a third D+ pin 6423.
- the first row, the second row, and the third row of the pins 6231 of the male 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 are symmetrically disposed with each other. Both the signal forward group and the signal reverse group are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal.
- the nineteenth embodiment differs from the eighteenth embodiment in the number of pins 741 of each row of the female head 74.
- the first row is the first V+ pin 7431, and the second row is from left to right.
- it is a second D-row pin 7414, a second D-row pin 7414, and a third row from left to right is a third V-row pin 7427, and a third D+ pin 7423.
- the pin header 741 has a "V" shape as a whole.
- the structure of the male head 72 is maintained in accordance with the twelfth embodiment.
- the male head 72 and the female head 74 are positively coupled, the first V+ pin 7241 of the male head 72 and the second D-pin 7244 , a second D-pin 7244, a third V-pin 7257, a third D+ pin 7253 and a first V+ pin 7241 of the female 74, a second D-pin 7244, and a second D-pin 7244
- the third V-pin 7257 and the third D+ pin 7253 are connected in a one-to-one manner to form a power signal path and a data signal path, thereby realizing the functions of charging and data transmission.
- the female head 74 is reversely coupled with the male head 72 after being turned 180°, the first D+ pin 7243 of the male head 72, the first V-pin 7247, the second D-pin 7244, and the second D. - pin 7244, third V+ pin 7241 and third D+ pin 7423 of female 84, third V-pin 7427, second D-pin 7414, second D-pin 7414, first V+
- the pin headers 7413 are connected to each other in a one-to-one manner to form a power signal path and a data signal path, thereby realizing the functions of charging and data transmission.
- the first row, the second row, and the third row of the pin 7231 of the male head 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 are centered with each other. Symmetrical settings. Both the signal forward group X and the signal reverse group Y are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal.
- the twentieth embodiment is different from the nineteenth embodiment in that the number of rows of pins 841 of the female head 84 is different.
- the first row is the first D+ pin 8131 from left to right, first.
- the pin header 841 has a "W" shape as a whole.
- the holding male head 82 is identical to the seventeenth embodiment.
- the pin header 8425 and the third D-pin pin 8425 are connected to each other to form a power signal path and a data signal path, thereby realizing the functions of charging and data transmission.
- the female head 84 when the female head 84 is flipped 180° and combined with the male head 82, the first D-pin 8245 of the male head 82, the first D-pin 8245, the second V+ pin 8240, and the third V-tube
- the needles 8413 are connected to each other in a one-to-one manner to form a power signal path and a data signal path, thereby realizing the functions of charging and data transmission.
- the first row, the second row, and the third row of the pins 8231 of the male head 82 form at least one
- the signal forward group X and the at least one signal reverse group Y, the signal forward group X and the signal reverse group Y are symmetrically arranged with each other. Both the signal forward group X and the signal reverse group Y are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal.
- the number of male pins is three rows in parallel
- the number of rows of female pins is also three rows
- the tube of the male head The first row of the foot is disposed at a distance L between the first magnetic surface half and the horizontal center line
- the second row is disposed at a horizontal center line of the first magnetic surface
- the third row is disposed at a lower half of the first magnetic surface Distance L from the horizontal centerline.
- the first row and the third row of the pin are center-symmetric with each other
- the second row is horizontally symmetrical
- the three rows of pins form at least one set of signal forward group and signal reverse group
- signal forward group X and signal reverse group Y is symmetrically set to each other.
- Both the signal forward group X and the signal reverse group Y are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal.
- the specific arrangement position of the signal is not limited, and the female pin header selects at least one signal forward group and/or one signal reverse group signal and position corresponding matching setting of the male pin, that is, the female head can be combined with the male head. , or the female flipped 180° reverse combined with the male can form the power signal path and the data signal path, so that the functions of charging and data transmission can be realized.
- the signal forward group and the signal reverse group are centrally symmetric with each other, and each signal forward group and each signal reverse group are transmitted with at least one D-signal, one D+ signal, one V-signal and one V+ signal.
- the specific arrangement position of the signal is not limited, and the female pin header selects at least one signal forward group and/or one signal reverse group signal and position corresponding matching setting of the male pin, that is, the female head can be combined with the male head. , or the female flipped 180° reverse combined with the male can form the power signal path and the data signal path, so that the functions of charging and data transmission can be realized.
- the female pin headers are in one row, two rows, three rows or multiple rows, as long as the female pin headers form at least one signal forward group and one signal inversion
- the group, the signal forward group and the signal reverse group are centrally symmetric with each other, and each signal forward group and each signal reverse group are transmitted with at least one D-signal, one D+ signal, one V-signal and one V+. signal.
- the specific layout position of the signal is not limited, and the male pin selects at least one signal forward group and/or one signal reverse group corresponding to the matching setting of the female pin header, that is, the female head can be combined with the male head. , or the female flipped 180° reverse combined with the male can form the power signal path and the data signal path, so that the function of charging and data transmission can be realized, and the male is also the same.
- a novel connector assembly 10 of the present invention has the following beneficial effects.
- a novel connector assembly according to the present invention wherein the male head 11 and the female head 13 are separately disposed, and the pin 1131 of the male head 11 or the pin header 131 of the female head 13 has a symmetrical structure, so that the female head 13 is positively coupled with
- a power supply path can be formed to realize the charging function
- the female head 13 is turned 180° and the male head 11 is reversely coupled, the power supply path can be formed to realize the charging function.
- the pin 1131 of the male head 11 is one row, two rows or multiple rows, and forms at least two signal positive group and signal reverse group which are symmetric with each other, and each signal positive group transmits at least one V+.
- the signal, a V-signal, a D+ signal, and a D-signal, the female pin header 131 selects a signal forward group and/or a signal reverse group for signal and position matching, so that the male 11 and the female 13 are forward.
- the combination of the female head flipping 180 degrees and the male head 11 can form a power signal path and a data signal path, thereby realizing the functions of charging and data transmission;
- the female pin headers 131 are one row, two rows or multiple rows, And forming at least two mutually positive signal positive group and signal reverse group, each signal forward group transmitting at least one V+ signal, one V-signal, one D+ signal, one D-signal, male 11
- the pin 1131 selects a signal forward group and/or a signal reverse group for signal and position matching, so that the male head 11 and the female head 13 are positively coupled or the female head is reversed by 180 degrees and the male head 11 is combined with the male head 11 to form a power source.
- Signal path and data signal path thereby Capable of charging and data transfer.
- the male head 11 is inserted into the interface 201 of the electronic device 20, and the female head 13 is provided with a female magnet 135, and under the action of the magnetic force, the male head 11 and the female head 13 The electrical conduction is realized, and the connection and separation of the male head 11 and the female head 13 are facilitated.
- the male head 11 is not required to be removed from the interface 201 of the electronic device 20 multiple times, and the interface 201 is damaged to affect the service life of the electronic device 20;
- the front end of the pin header 131 is higher than the front end surface of the second insulating portion 137, and is exposed on the front end surface of the second insulating portion 137, so that the electrical connection performance of the female head 13 and the male head 11 is more reliable, and the stability of signal transmission is further improved. it is good.
- the pin header 131 is a pogo-pin needle, which has the advantages of long impact life, stable transmission of low-impedance electrical signals, and saving installation space, etc., and is convenient for miniaturization of the male head 11.
- the upper end of the female head 13 is provided with a recess 137.
- the shape and size of the recess 137 correspond to the magnetic attraction portion 113 of the male head 11.
- the magnetic attraction portion 113 is just received in the recess 137, so that the male head 11 and the female head
- the surface contact of 13 is more firmly bonded and the electrical connection is more stable.
- the magnetic attraction portion 1013 of the male head 101 is designed as a sheet-type structure.
- the thin-plate structure allows the male head 101 to be attached to the port of the electronic device 20, and the user does not substantially feel the thickness thereof, and the user is willing to let the user
- the head 101 is attached to the port of the electronic device 20 for a long time, which does not affect the user carrying the electronic device 20, and can charge and transmit data to the electronic device 20, and even protect the port of the electronic device 20, such as moisture and defense. Gray, waterproof, etc.
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- Details Of Connecting Devices For Male And Female Coupling (AREA)
Abstract
A connector assembly (10), comprising: a male joint (101), the male joint comprising a plugging portion (1011) and a magnetic attraction portion (1013), the plugging portion being inserted into an interface (201) of an electronic device (20), and an end face, away from the plugging portion, of the magnetic attraction portion being a first magnetic attraction surface; a plurality of pins, exposed from the first magnetic attraction surface; and a female joint (103), the female joint and the male joint being provided separately, a second magnetic attraction surface being provided at one end, butted with the male joint, of the female joint, and the first magnetic attraction surface and the second magnetic attraction surface being magnetically attracted to each other. The female joint comprises a plurality of needles, wherein the needles and the pins are correspondingly connected to transfer a signal, the pins and/or the needles form at least one signal forwarding group and at least one signal reversing group, and the signal forwarding group and the signal reversing group are in central symmetry with each other.
Description
本发明涉及一种连接组件,尤其涉及一种新型连接器组件。The present invention relates to a connector assembly, and more particularly to a novel connector assembly.
随着科技的发展,电子3C产品几乎已成为每个人生活中的必备品。基于要对电子产品充电,普通充电的数据线也越来越多,安卓数据线和苹果数据线大体都是一体式结构,在插入电子设备端口时需借助外力才能插入,而且安卓数据线无法进行正反插接充电,非常不方便。With the development of technology, electronic 3C products have become almost a must in everybody's life. Based on the need to charge electronic products, there are more and more data lines for ordinary charging. The Android data cable and the Apple data cable are generally one-piece structure. When inserting the electronic device port, external force is required to insert, and the Android data cable cannot be performed. Positive and negative plug-in charging is very inconvenient.
【发明内容】[Summary of the Invention]
为克服现有充电线使用不方便的问题,本发明提供了一种使用方便的新型连接器组件。In order to overcome the inconvenience of the existing charging line, the present invention provides a new type of connector assembly that is convenient to use.
本发明解决技术问题的方案是提供一种新型连接器组件,包括一公头,所述公头包括一插接部和一磁吸部,所述插接部插入电子设备接口内,所述磁吸部背向插接部的一端面为第一磁吸面;多个管脚裸露设置于所述的第一磁吸面;一母头,所述母头与所述公头分体设置,所述母头与所述公头对接的一端有一第二磁吸面,所述第一磁吸面与所述第二磁吸面相对应磁性吸附;所述母头包括多个排针,所述排针与所述管脚对应连接传递信号;所述管脚和/或所述排针形成至少一信号正向组和至少一信号反向组,且信号正向组和信号反向组互为中心对称。The solution to the technical problem of the present invention is to provide a novel connector assembly including a male head, the male head including a plug portion and a magnetic portion, the plug portion being inserted into the interface of the electronic device, the magnetic An end surface of the suction portion facing away from the plug portion is a first magnetic surface; a plurality of pins are exposed on the first magnetic surface; a female head, the female head and the male head are separately arranged, One end of the female head that is butted with the male head has a second magnetic absorbing surface, and the first magnetic absorbing surface is magnetically attracted corresponding to the second magnetic absorbing surface; the female head includes a plurality of pin headers, The pin header and the pin are connected to transmit a signal; the pin and/or the pin header 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 mutually Centrosymmetric.
优选地,所述磁吸部包括第一绝缘部,所述第一绝缘部设置于第一磁吸面上,并绝缘隔离所述管脚;与磁吸片,所述磁吸片环绕于所述第一绝缘部,所述磁吸片为磁铁或被磁性吸附的铁磁性材料。Preferably, the magnetic attraction portion includes a first insulating portion, the first insulating portion is disposed on the first magnetic absorbing surface, and isolating and isolating the pin; and the magnetic sheet is surrounded by the magnetic sheet In the first insulating portion, the magnetic sheet is a magnet or a magnetically adsorbed ferromagnetic material.
优选地,所述磁吸部为一薄片结构,磁吸部的厚度为0.3毫米至2毫米,且所述磁吸部的宽度大于所述插接部的宽度。Preferably, the magnetic attraction portion is a sheet structure, the thickness of the magnetic attraction portion is 0.3 mm to 2 mm, and the width of the magnetic attraction portion is larger than the width of the insertion portion.
优选地,所述母头与公头对接的一端设置一凹槽,所述凹槽的底面为第二磁吸面,所述磁吸部对应收容于所述凹槽内,所述排针裸露凸出于所述第二磁吸面,所述母头进一步包括一第二绝缘部,所述的第二绝缘部绝缘隔离所述排针。Preferably, a groove is formed at one end of the female head and the male head, and a bottom surface of the groove is a second magnetic surface, and the magnetic portion is correspondingly received in the groove, and the pin is exposed. Protruding from the second magnetic attraction surface, the female head further includes a second insulating portion, and the second insulating portion is insulated to isolate the pin header.
优选地,所述凹槽内第二磁吸面的下部设置有至少一母头磁铁,所述母头磁铁磁性吸附所述磁吸部。Preferably, a lower portion of the second magnetic attraction surface in the groove is provided with at least one female magnet, and the female magnet magnetically adsorbs the magnetic attraction portion.
优选地,所述多个管脚呈单排相隔设置于第一磁吸面上,且所述管脚传输的不同信号以一中心轴对称设置,所述多个排针对应所述管脚进行信号和位置匹配。Preferably, the plurality of pins are disposed on the first magnetic attraction surface in a single row, and different signals transmitted by the pins are symmetrically disposed on a central axis, and the plurality of rows are arranged for the pins. Signal and position match.
优选地,所述插接部内设置多个引脚,该多个引脚与电子设备接口内的信号相匹配,所述多个引脚传输的不同信号在插入电子设备接口内的一端非对称设置,该多个引脚在插接部内部交错的连接到第一磁吸面上的多个管脚。Preferably, a plurality of pins are disposed in the plug portion, the plurality of pins are matched with signals in an interface of the electronic device, and different signals transmitted by the plurality of pins are asymmetrically disposed at one end inserted into the interface of the electronic device. The plurality of pins are staggered inside the plug portion to the plurality of pins on the first magnetic attraction surface.
优选地,所述插接部内设置多个引脚,该多个引脚与电子设备接口内的信号相匹配,所述多个引脚传输的不同信号在插入电子设备接口内的一端对称设置,该多个引脚在插接部内部平行的连接到第一磁吸面上的多个管脚。Preferably, a plurality of pins are disposed in the plug portion, the plurality of pins are matched with signals in an interface of the electronic device, and different signals transmitted by the plurality of pins are symmetrically disposed at an end inserted into the interface of the electronic device. The plurality of pins are connected in parallel to the plurality of pins on the first magnetic absorbing surface inside the plug portion.
优选地,所述多个管脚分两排平行排列于第一磁吸面上,且每一排距离第一磁吸面的水平中心线的尺寸相同,第一排管脚构成信号正向组,第二排管脚构成信号反向组;母头包括单排相隔设置的一排排针,该单排排列的每一个排针均与任一排管脚的信号匹配连接。Preferably, the plurality of pins are arranged in two rows in parallel on the first magnetic absorbing surface, and each row is the same size from the horizontal center line of the first magnetic absorbing surface, and the first row of pins constitutes a signal positive group. The second row of pins constitutes a signal reverse group; the female head comprises a row of pins arranged in a row, and each of the rows of pins is matched with the signal of any row of pins.
优选地,该每一排管脚传输的不同信号以一中心轴对称设置,所述管脚传输的信号包括V+信号,V-信号,D+信号,D-信号。Preferably, the different signals transmitted by each row of pins are symmetrically arranged with a central axis, and the signals transmitted by the pins include a V+ signal, a V-signal, a D+ signal, and a D-signal.
优选地,所述多个排针分两排平行排列于第二磁吸面上,且每一排距离第二磁吸面的水平中心线的尺寸相同,第一排排针构成信号正向组,第二排排针构成信号反向组;公头包括单排相隔设置的一排管脚,该单排排列的每一个管脚均与任一排排针的信号匹配连接。Preferably, the plurality of rows of pins are arranged in parallel on the second magnetic absorbing surface, and each row is the same size from the horizontal center line of the second magnetic absorbing surface, and the first row of pins constitutes a signal positive group. The second row of pins constitutes a signal reverse group; the male head comprises a row of pins arranged in a row, and each pin of the single row is matched with the signal of any row of pins.
优选地,所述多个管脚分至少两排平行排列于第一磁吸面上,且其中至少有两排距离第一磁吸面的水平中心线的尺寸相同;管脚的信号正向组可由至少两排中的任一排构成,或由至少两排中任一排的部分管脚与其他排的部分管脚共同构成;母头包括以至少一排排列设置的多个可以分别与管脚的信号正向组和管脚的信号反向组信号匹配连接的排针。Preferably, the plurality of pins are arranged in parallel at least two rows on the first magnetic absorbing surface, and at least two of the rows are the same size from the horizontal center line of the first magnetic absorbing surface; It may be composed of any one of at least two rows, or a partial pin of any one of at least two rows and a partial pin of the other row; the female head includes a plurality of tubes arranged in at least one row and may be respectively associated with the tube The signal of the foot forward group and the signal of the pin reverse group signal match the connected pin header.
优选地,管脚的信号正向组至少包括传输V+信号,V-信号,D+信号,D-信号的管脚;管脚的信号反向组也至少包括传输V+信号,V-信号,D+信号,D-信号的管脚。Preferably, the positive signal group of the pin includes at least a pin for transmitting a V+ signal, a V-signal, a D+ signal, and a D-signal; the signal reverse group of the pin also includes at least a V+ signal, a V-signal, and a D+ signal. , the pin of the D-signal.
优选地,所述多个排针分至少两排平行排列于第二磁吸面上,且其中至少有两排距离第二磁吸面的水平中心线的尺寸相同;排针的信号正向组可由至少两排中的任一
排构成,或由至少两排中任一排的部分排针与其他排的部分排针共同构成;公头包括以至少一排排列设置的多个可以分别与排针的信号正向组和排针的信号正向组信号匹配连接的管脚。Preferably, the plurality of rows of pins are arranged in parallel at least two rows on the second magnetic absorbing surface, and wherein at least two of the rows are the same in size from the horizontal center line of the second magnetic absorbing surface; Can be in any of at least two rows
Forming a row, or consisting of a partial pin header of any one of at least two rows and a partial pin header of the other row; the male head includes a plurality of positively arranged and arranged rows of signals that can be respectively arranged with the pin headers arranged in at least one row The signal of the pin forward group signal matches the connected pin.
优选地,排针的信号正向组至少包括传输V+信号,V-信号,D+信号,D-信号的排针;排针的信号反向组也至少包括传输V+信号,V-信号,D+信号,D-信号的排针。Preferably, the positive signal group of the pin header includes at least a pin header for transmitting a V+ signal, a V-signal, a D+ signal, and a D-signal; the signal reverse group of the pin header also includes at least a V+ signal, a V-signal, and a D+ signal. , D-signal pin header.
与现有技术相比,本发明一种新型连接器组件具有以下的有益效果。Compared with the prior art, a novel connector assembly of the present invention has the following beneficial effects.
1、本发明一种新型连接器组件通过将公头和母头13进行分体设置,公头的管脚或母头的排针为对称结构,使得母头正向与公头结合时可以形成电源通路实现充电功能,且母头翻转180°与公头反向结合时也可以形成电源通路实现充电功能。1. A novel connector assembly according to the present invention is provided with a male body and a female head 13 in a split configuration, and the male or female female pin is symmetrically arranged so that the female can be formed when the female is positively coupled with the male. The power supply path realizes the charging function, and when the female head is turned 180° and the male head is reversely coupled, the power supply path can be formed to realize the charging function.
2、公头的管脚为一排、两排或多排,且形成至少两个互为中心对称的信号正向组和信号反向组,每一个信号正向组至少传递有一个V+信号、一个V-信号、一个D+信号、一个D-信号,母头排针选取一个信号正向组和/或信号反向组进行信号和位置匹配,使得公头与母头正向结合或者母头翻转180度反向与公头结合都可以形成电源信号通路和数据信号通路,从而可以实现充电和数据传输的功能;母头排针为一排、两排或多排,且形成至少两个互为中心对称的信号正向组和信号反向组,每一个信号正向组至少传递有一个V+信号、一个V-信号、一个D+信号、一个D-信号,公头管脚选取一个信号正向组和/或信号反向组进行信号和位置匹配,使得公头与母头正向结合或者母头翻转180度反向与公头结合都可以形成电源信号通路和数据信号通路,从而可以实现充电和数据传输的功能。2. The pins of the male head are one row, two rows or multiple rows, and at least two signal positive group and signal reverse group which are symmetric with each other are formed, and each signal positive group transmits at least one V+ signal, A V-signal, a D+ signal, and a D-signal, the female pin header selects a signal forward group and/or a signal reverse group for signal and position matching, so that the male and female forward or female flip The 180 degree reverse combined with the male head can form a power signal path and a data signal path, thereby realizing the functions of charging and data transmission; the female pin headers are in one row, two rows or multiple rows, and at least two are formed for each other. The central symmetric signal forward group and the signal reverse group, each signal forward group transmits at least one V+ signal, one V-signal, one D+ signal, and one D-signal, and the male pin selects a signal positive group. And/or signal reverse group for signal and position matching, so that the male and female forwards can be combined or the female flip can be reversed by 180 degrees to form a power signal path and a data signal path, so that charging and Data transmission Loss function.
3、采用公头和母头分体设计的形式,公头插入电子设备的接口当中,母头上设有母头磁铁,在磁力作用下公头和母头实现电性导通,方便公头和母头的连接和分离,不必多次将公头从电子设备的接口中多次拔除,损伤接口从而影响电子设备的使用寿命;排针的前端高出第二绝缘部前端面,并裸露在第二绝缘部的前端面,使得母头和公头的电性连接性能更为牢靠,信号传输的稳定性更好。3. In the form of split design of the male and female heads, the male plug is inserted into the interface of the electronic device, and the female magnet is arranged on the female head, and the male and female heads are electrically connected under the action of the magnetic force, which is convenient for the male The connection and separation of the female head does not require the male head to be removed from the interface of the electronic device multiple times, thereby damaging the interface and thereby affecting the service life of the electronic device; the front end of the pin header is higher than the front end surface of the second insulating portion, and is exposed at The front end surface of the second insulating portion makes the electrical connection performance of the female head and the male head more reliable, and the stability of signal transmission is better.
4、排针为pogo-pin针,其具有耐冲击使用寿命长,低阻抗电信号传输稳定,同时节约安装空间等特点,便于公头11的小型化。4. The pin header is a pogo-pin needle, which has long impact life, stable transmission of low-impedance electrical signals, and saves installation space, etc., and is convenient for miniaturization of the male head 11.
5、母头上端设置一凹槽,该凹槽形状、尺寸对应于公头的磁吸部,磁吸部刚好收容于该凹槽内,使得公头和母头的面接触结合更为牢固,电性连接更为稳定。5. A groove is arranged at the upper end of the female head, and the shape and size of the groove correspond to the magnetic part of the male head, and the magnetic part is just received in the groove, so that the surface contact of the male and the female head is more firmly combined. Electrical connections are more stable.
6、公头的磁吸部设计为薄片式结构,该薄片式结构使公头贴附于电子设备端口,且使用者基本不会感受到其厚度,可以让使用者愿意将公头长期贴附于电子设备的端口处,其不影响用户携带使用电子设备,并且可以对电子设备进行充电和传输数据,甚至起到保护电子设备端口的作用,如防潮、防灰、防水等。6. The magnetic part of the male head is designed as a sheet structure, which attaches the male head to the port of the electronic device, and the user does not substantially feel the thickness thereof, and the user is willing to attach the male long-term attachment. At the port of the electronic device, it does not affect the user carrying the electronic device, and can charge and transmit data to the electronic device, and even protect the port of the electronic device, such as moisture, ash, and waterproof.
图1是本发明一种新型连接器组件的整体结构示意图。BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a schematic view showing the overall structure of a novel connector assembly of the present invention.
图2是本发明一种新型连接器组件实施例一的公头结构示意图。2 is a schematic view showing the structure of a male head of a first embodiment of a novel connector assembly of the present invention.
图3是本发明一种新型连接器组件实施例一的公头与母头正面结合的结构示意图。3 is a structural schematic view showing the male head and the female front side of the first embodiment of a novel connector assembly according to the present invention.
图4是本发明一种新型连接器组件实施例一的公头与母头反面结合的结构示意图。4 is a schematic view showing the structure of a male and female reverse side of a first embodiment of a novel connector assembly according to the present invention.
图5是本发明一种新型连接器组件实施例二的公头结构示意图。Fig. 5 is a schematic view showing the structure of a male head of a second embodiment of a novel connector assembly of the present invention.
图6是本发明一种新型连接器组件实施例二的公头与母头结合的结构示意图。Fig. 6 is a structural schematic view showing the male and female joints of the second embodiment of a novel connector assembly according to the present invention.
图7是本发明一种新型连接器组件实施例三的公头结构示意图。Fig. 7 is a schematic view showing the structure of a male head of a third embodiment of a novel connector assembly of the present invention.
图8是本发明一种新型连接器组件实施例三的公头与母头结合的结构示意图。FIG. 8 is a structural schematic view showing the male and female joints of the third embodiment of a novel connector assembly according to the present invention.
图9是本发明一种新型连接器组件实施例四的公头与母头结合的结构示意图。FIG. 9 is a structural schematic view showing the male and female joints of the fourth embodiment of a novel connector assembly according to the present invention.
图10a是本发明一种新型连接器组件实施例五的公头结构示意图。Figure 10a is a schematic view of the male structure of a fifth embodiment of a novel connector assembly of the present invention.
图10b是本发明一种新型连接器组件实施例五的公头磁吸部与母头相接触端面的结构示意图。Fig. 10b is a structural schematic view showing the end face of the male magnetic head and the female end of the fifth embodiment of the novel connector assembly of the present invention.
图10c是本发明一种新型连接器组件实施例五的母头立体结构示意图。Figure 10c is a perspective view showing the three-dimensional structure of the female body of the fifth embodiment of the novel connector assembly of the present invention.
图10d是本发明一种新型连接器组件实施例五母头的与公头相接触端面结构示意图。Fig. 10d is a schematic view showing the end face structure of the fifth female head of the embodiment of the present invention.
图10e是本发明一种新型连接器组件实施例五的公头和母头结合的示意图。Figure 10e is a schematic illustration of the male and female combination of the fifth embodiment of a novel connector assembly of the present invention.
图10f是本发明一种新型连接器组件实施例五的公头和母头正向结合信号匹配的结构示意图。Fig. 10f is a structural schematic view showing the matching of the male and female forward combined signals of the fifth embodiment of a novel connector assembly of the present invention.
图10g是本发明一种新型连接器组件实施例五的母头翻转180°反向与公头结合信号匹配的结构示意图。Figure 10g is a schematic view showing the structure of the female flip-flop of the fifth embodiment of the present invention in which the female flip is matched with the male-integrated signal.
图11a是本发明一种新型连接器组件实施例六的公头磁吸部与母头相接触端面的结构示意图。Fig. 11a is a structural schematic view showing the end face of the male magnetic head and the female end of the sixth embodiment of a novel connector assembly according to the present invention.
图11b是本发明一种新型连接器组件实施例六母头的与公头相接触端面的结构示意图。
Fig. 11b is a structural schematic view showing the end face of the female connector of the sixth embodiment of the present invention in contact with the male end.
图11c是本发明一种新型连接器组件实施例六的母头与公头正向结合信号匹配的结构示意图。Figure 11c is a structural schematic view showing the matching of the female and male positive coupling signals of the sixth embodiment of a novel connector assembly of the present invention.
图11d是本发明一种新型连接器组件实施例六的母头翻转180°反向与公头结合信号匹配的结构示意图。Figure 11d is a schematic view showing the structure of the female connector of the sixth embodiment of the present invention in which the flipping of the female head is reversed by 180° and the male combined signal is matched.
图12a是本发明一种新型连接器组件实施例七的公头磁吸部与母头相接触端面的结构示意图。Fig. 12a is a structural schematic view showing the end face of the male magnetic head and the female end of the seventh embodiment of a novel connector assembly according to the present invention.
图12b是本发明一种新型连接器组件实施例七的母头与公头正向结合信号匹配的结构示意图。Fig. 12b is a structural schematic view showing the matching of the female and male forward combined signals of the seventh embodiment of a novel connector assembly of the present invention.
图12c是本发明一种新型连接器组件实施例七的母头翻转180°反向与公头结合信号匹配的结构示意图。Fig. 12c is a schematic view showing the structure of the male connector flipping 180° reverse and the male joint signal matching in the seventh embodiment of the novel connector assembly of the present invention.
图13a是本发明一种新型连接器组件实施例八的公头磁吸部与母头相接触端面的结构示意图。Fig. 13a is a structural schematic view showing the end face of the male magnetic head and the female end of the eighth embodiment of the novel connector assembly of the present invention.
图13b是本发明一种新型连接器组件实施例八母头的与公头相接触端面的结构示意图。Fig. 13b is a structural schematic view showing the end face of the male connector of the eighth embodiment of the present invention in contact with the male end.
图13c是本发明一种新型连接器组件实施例八的母头与公头正向结合信号匹配的结构示意图。Fig. 13c is a structural schematic view showing the matching of the female and male positive coupling signals of the eighth embodiment of a novel connector assembly of the present invention.
图13d是本发明一种新型连接器组件实施例八的母头翻转180°反向与公头结合信号匹配的结构示意图。Figure 13d is a schematic view showing the structure of the female connector flipping 180° reverse and the male joint signal matching in the eighth embodiment of the novel connector assembly of the present invention.
图14a是本发明一种新型连接器组件实施例九的公头磁吸部与母头相接触端面的结构示意图。Fig. 14a is a structural schematic view showing the end face of the male magnetic head and the female end of the ninth embodiment of the novel connector assembly of the present invention.
图14b是本发明一种新型连接器组件实施例九母头的与公头相接触端面的结构示意图。Fig. 14b is a structural schematic view showing the end face of the male connector of the embodiment of the present invention in contact with the male end.
图14c是本发明一种新型连接器组件实施例九的母头与公头正向结合信号匹配的结构示意图。Fig. 14c is a structural schematic view showing the matching of the female and male positive coupling signals of the ninth embodiment of a novel connector assembly of the present invention.
图14d是本发明一种新型连接器组件实施例九的母头翻转180°反向与公头结合信号匹配的结构示意图。Figure 14d is a schematic view showing the structure of the female flip-flop of the embodiment of the present invention in which the female flip is 180° reversed and the male combined signal is matched.
图15a是本发明一种新型连接器组件实施例十母头的与公头相接触端面的结构示意图。Fig. 15a is a structural schematic view showing the end face of the ten female head of the embodiment of the present invention in contact with the male end.
图15b是本发明一种新型连接器组件实施例十的母头与公头正向结合信号匹配的结构示意图。Fig. 15b is a structural schematic view showing the matching of the female and male forward combined signals of the tenth embodiment of a novel connector assembly of the present invention.
图15c是本发明一种新型连接器组件实施例十的母头翻转180°反向与公头结合信号匹配的结构示意图。Fig. 15c is a schematic view showing the structure of the female flipping 180° reverse and male coupling signal of the tenth embodiment of a novel connector assembly according to the present invention.
图16a是本发明一种新型连接器组件实施例十一母头的与公头相接触端面的结构示意图。Fig. 16a is a structural schematic view showing the end face of the eleven female head of the novel connector assembly according to the present invention in contact with the male end.
图16b是本发明一种新型连接器组件实施例十一的母头与公头正向结合信号匹配的结构示意图。Fig. 16b is a structural schematic view showing the matching of the female and male forward combined signals of the eleventh embodiment of a novel connector assembly of the present invention.
图16c是本发明一种新型连接器组件实施例十一的母头翻转180°反向与公头结合信号匹配的结构示意图。Fig. 16c is a schematic view showing the structure of the female flipping 180° reverse and male coupling signal of the eleventh embodiment of a novel connector assembly according to the present invention.
图17a是本发明一种新型连接器组件实施例十二的公头磁吸部与母头相接触端面的结构示意图。Fig. 17a is a structural schematic view showing the end face of the male magnetic head and the female end of the twelfth embodiment of a novel connector assembly according to the present invention.
图17b是本发明一种新型连接器组件实施例十二母头的与公头相接触端面的结构示意图。Figure 17b is a structural schematic view of the end face of the twelve female head of the embodiment of the present invention in contact with the male end.
图17c是本发明一种新型连接器组件实施例十二的母头与公头正向结合信号匹配的结构示意图。Figure 17c is a block diagram showing the matching of the female and male forward combined signals of the embodiment 12 of a novel connector assembly of the present invention.
图17d是本发明一种新型连接器组件实施例十二的母头翻转180°反向与公头结合信号匹配的结构示意图。Figure 17d is a schematic view showing the structure of the female connector flipping 180° reverse and the male coupling signal in the twelfth embodiment of the novel connector assembly of the present invention.
图18a是本发明一种新型连接器组件实施例十三母头的与公头相接触端面的结构示意图。Figure 18a is a structural schematic view of the end face of the thirteen female head of the novel connector assembly of the present invention in contact with the male end.
图18b是本发明一种新型连接器组件实施例十三的母头与公头正向结合信号匹配的结构示意图。Fig. 18b is a structural schematic view showing the matching of the female and male forward combined signals of the thirteenth embodiment of a novel connector assembly of the present invention.
图18c是本发明一种新型连接器组件实施例十三的母头翻转180°反向与公头结合信号匹配的结构示意图。Figure 18c is a schematic view showing the structure of the female flip-flop of the embodiment of the present invention in which the 180-degree reverse and male-integrated signals are matched.
图19a是本发明一种新型连接器组件实施例十四母头的与公头相接触端面的结构示意图。Fig. 19a is a structural schematic view showing the end face of the male connector of the fourteenth embodiment of the present invention in contact with the male end.
图19b是本发明一种新型连接器组件实施例十四的母头与公头正向结合信号匹配的结构示意图。Fig. 19b is a structural schematic view showing the matching of the female and male forward coupling signals of the fourteenth embodiment of a novel connector assembly of the present invention.
图19c是本发明一种新型连接器组件实施例十四的母头翻转180°反向与公头结合信号匹配的结构示意图。Fig. 19c is a schematic view showing the structure of the male flip-flop of 180° reverse and the male-integrated signal in the fourteenth embodiment of the novel connector assembly of the present invention.
图20a是本发明一种新型连接器组件实施例十五母头的与公头相接触端面的结构示意图。
Figure 20a is a structural schematic view of the end face of the fifteen female head of the embodiment of the present invention in contact with the male end.
图20b是本发明一种新型连接器组件实施例十五的母头与公头正向结合信号匹配的结构示意图。Fig. 20b is a structural schematic view showing the matching of the female and male forward combined signals of the fifteenth embodiment of a novel connector assembly of the present invention.
图20c是本发明一种新型连接器组件实施例十五的母头翻转180°反向与公头结合信号匹配的结构示意图。Figure 20c is a schematic view showing the structure of the female flip-flip 180° reverse and male-integrated signal matching in the fifteenth embodiment of the novel connector assembly of the present invention.
图21a是本发明一种新型连接器组件实施例十六的公头磁吸部与母头相接触端面的结构示意图。Figure 21a is a structural schematic view showing the end face of the male magnetic head and the female end of a sixteenth embodiment of the novel connector assembly of the present invention.
图21b是本发明一种新型连接器组件实施例十六母头的与公头相接触端面的结构示意图。Fig. 21b is a structural schematic view showing the end face of the male connector of the embodiment of the novel connector assembly of the present invention in contact with the male end.
图21c是本发明一种新型连接器组件实施例十六的母头与公头正向结合信号匹配的结构示意图。Figure 21c is a schematic view showing the structure of the female and male forward combined signals of the sixteenth embodiment of a novel connector assembly of the present invention.
图21d是本发明一种新型连接器组件实施例十六的母头翻转180°反向与公头结合信号匹配的结构示意图。Figure 21d is a schematic view showing the structure of the female flip-flop 180° reverse and male-headed signal matching in the sixteenth embodiment of the novel connector assembly of the present invention.
图22a是本发明一种新型连接器组件实施例十七的公头磁吸部与母头相接触端面的结构示意图。Fig. 22a is a structural schematic view showing the end face of the male magnetic head and the female end of the seventeenth embodiment of the novel connector assembly of the present invention.
图22b是本发明一种新型连接器组件实施例十七母头的与公头相接触端面的结构示意图。Fig. 22b is a structural schematic view showing the end face of the seventeen female head of the novel connector assembly according to the present invention in contact with the male end.
图22c是本发明一种新型连接器组件实施例十七的母头与公头正向结合信号匹配的结构示意图。Fig. 22c is a structural schematic view showing the matching of the female and male positive coupling signals of the seventh embodiment of a novel connector assembly of the present invention.
图22d是本发明一种新型连接器组件实施例十七的母头翻转180°反向与公头结合信号匹配的结构示意图。Fig. 22d is a schematic view showing the structure of the male-flip 180° reverse and male-integrated signal matching in the seventh embodiment of the novel connector assembly of the present invention.
图23a是本发明一种新型连接器组件实施例十八的公头磁吸部与母头相接触端面的结构示意图。Figure 23a is a structural schematic view showing the end face of the male magnetic head and the female end of the eighteenth embodiment of the novel connector assembly of the present invention.
图23b是本发明一种新型连接器组件实施例十八母头的与公头相接触端面的结构示意图。Figure 23b is a structural schematic view of the end face of the eighteen female head of the embodiment of the present invention in contact with the male end.
图24a是本发明一种新型连接器组件实施例十九母头的与公头相接触端面的结构示意图。Fig. 24a is a structural schematic view showing the end face of the male connector of the novel connector assembly of the present invention in contact with the male end.
图24b是本发明一种新型连接器组件实施例十九的母头与公头正向结合信号匹配的结构示意图。Fig. 24b is a structural schematic view showing the matching of the female and male forward coupling signals of the nineteenth embodiment of the novel connector assembly of the present invention.
图24c是本发明一种新型连接器组件实施例十九的母头翻转180°反向与公头结合信号匹配的结构示意图。Fig. 24c is a schematic view showing the structure of the male-flip 180° reverse and male-integrated signal matching in the nineteenth embodiment of the novel connector assembly of the present invention.
图25a是本发明一种新型连接器组件实施例二十母头的与公头相接触端面的结构示意图。Figure 25a is a schematic view showing the structure of the end face of the female connector of the embodiment of the present invention in contact with the male end.
图25b是本发明一种新型连接器组件实施例二十的母头与公头正向结合信号匹配的结构示意图。Fig. 25b is a structural schematic view showing the matching of the female and male forward combined signals of the embodiment 20 of a novel connector assembly of the present invention.
图25c是本发明一种新型连接器组件实施例二十的母头翻转180°反向与公头结合信号匹配的结构示意图。Figure 25c is a schematic view showing the structure of the female flip-flop of the embodiment of the present invention in which the 180-degree reverse and male-integrated signals are matched.
为了使本发明的目的,技术方案及优点更加清楚明白,以下结合附图及实施实例,对本发明进行进一步详细说明。应当理解,此处所描述的具体实施例仅仅用以解释本发明,并不用于限定本发明。The present invention will be further described in detail below with reference to the accompanying drawings and embodiments. It is understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
请参阅图1,本发明提供的一种新型连接器组件10,包括公头101、母头103、线体105和插头107。母头103、线体105和插头107连接为一体,母头103与插头107分别位于线体105的两端,公头101与母头103分体设计,并且公头101与母头103通过磁性吸附导通连接。公头101是插接到到电子设备20的的接口201当中的。插头107可以为USB接头,Type-c接头,micro头,Lighting Dock头和HDMI接口中的任意一项。Referring to FIG. 1, a novel connector assembly 10 provided by the present invention includes a male head 101, a female head 103, a wire body 105 and a plug 107. The female head 103, the wire body 105 and the plug 107 are integrally connected, the female head 103 and the plug 107 are respectively located at both ends of the wire body 105, the male head 101 and the female head 103 are separately designed, and the male head 101 and the female head 103 are magnetically coupled. Adsorption conduction connection. The male 101 is plugged into the interface 201 of the electronic device 20. The plug 107 can be any of a USB connector, a Type-c connector, a micro head, a Lighting Dock head, and an HDMI interface.
请参阅图2,为本发明实施例一的公头101,包括插接部1011和磁吸部1013,插接部1011与磁吸部1013一体成型,插接部1011为矩形状,由导电材料制成,插接到电子设备20的接口201内,与电子设备20实现导通连接,磁吸部1013为长条薄片状,插接部1011位于磁吸部1013之上方(此处及以下所述“上”、“下”、“内”或“外”等位置词仅用于限定指定视图上的相对位置),插接部1011的宽度比磁吸部1013的宽度稍小。磁吸部1013为薄片式设计,其厚度为0.3毫米至2毫米,宽度为2毫米至5毫米,长度为7毫米至18毫米,最佳值是厚度为0.8毫米,宽度为3毫米和长度为12毫米。当然,磁吸部分1013的厚度可以为0.3毫米、0.4毫米、0.5毫米、0.6毫米、0.7毫米、0.8毫米、0.9毫米、1.0毫米、1.1毫米、1.2毫米、1.3毫米、1.4毫米、1.5毫米、1.6毫米、1.7毫米、1.8毫米、1.9毫米、2.0毫米中的任意一项,厚度的设计只要不影响客户对电子设备20厚度产生不适应即可,而且可以存在±0.2毫米公差。当公头101与电子设备20结合时,由于公头101的结构为“凸”形,插接部1011是插入到电子设备20的接口201当中,而磁吸部1013是将接口封住并紧贴于接口201的外表面,这样可以防止有碎屑进入电子设备20的接口201中并且公头101可以长期插在电子设备20中不影响使用。
Referring to FIG. 2, a male head 101 according to a first embodiment of the present invention includes a plug portion 1011 and a magnetic attraction portion 1013. The plug portion 1011 and the magnetic portion 1013 are integrally formed. The plug portion 1011 has a rectangular shape and is made of a conductive material. The plug-in portion 1011 is located above the magnetic portion 1013 (here and below). The position words "upper", "lower", "inside" or "outer" are used only to define the relative position on the specified view), and the width of the insertion portion 1011 is slightly smaller than the width of the magnetic attraction portion 1013. The magnetic attraction portion 1013 is of a sheet type 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, an optimum value of 0.8 mm in thickness, a width of 3 mm and a length of 12 mm. Of course, the magnetic portion 1013 may have a thickness of 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, 1.6. Any one of millimeters, 1.7 mm, 1.8 mm, 1.9 mm, and 2.0 mm, the thickness of the design is as long as it does not affect the customer's incompatibility with the thickness of the electronic device 20, and there may be a tolerance of ± 0.2 mm. When the male 101 is combined with the electronic device 20, since the structure of the male 101 is "convex", the plug portion 1011 is inserted into the interface 201 of the electronic device 20, and the magnetic portion 1013 seals the interface tightly. Adhered to the outer surface of the interface 201, it is possible to prevent debris from entering the interface 201 of the electronic device 20 and the male 101 can be inserted into the electronic device 20 for a long period of time without affecting use.
插接部1011包括电源正线1021、数据负线1023、数据正线1025、左电源负线1027和右电源负线1029,也即为V+线、D-线、D+线、V-线和V-线(V+定义为:电源正信号,D+定义为:数据正信号,D-定义为:数据负信号,V-定义为:电源负信号),每根线从左到右依次排列。由于电子设备20接口201内的针脚顺序固定,从左到右传递的信号依次为V+信号电触片、D-信号电触片、D+信号电触片、空端电触片、V-信号电触片。空端电触片与V+信号、D-信号、D+信号、V-信号中的任意一种导通连接,因此为了和电子设备20的接口201内信号进行匹配,插接部1011内的信号线排布从插接部1011上端看线的排列顺序依次为电源正线1021、数据负线1023、数据正线1025、左电源负线1027和右电源负线1029,而插接部下端看线的排列顺序为左电源负线1027、数据负线1023、电源正线1021、数据正线1025和右电源负线1029。磁吸部1013包括管脚1041和磁吸片1043和第一绝缘部1045,管脚1041数量为五,其与插接部101内的五根信号线的下端一一对应并导通连接,依次五个管脚1041的功能分别为电源负极,数据负极、电源正极、数据正极和电源负极。管脚1041呈一排裸露设置于磁吸片1043的前端面,第一绝缘部1045设置在管脚1041的四周,使得多个管脚1041之间彼此绝缘,同时使得管脚1041和磁吸片1043彼此绝缘。磁吸片1043可以为磁铁材料,也可以为被磁铁吸附的铁磁性材料。The plug-in portion 1011 includes a power supply positive 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, that is, a V+ line, a D- line, a D+ line, a V- line, and a V. - Line (V+ is defined as: power positive signal, D+ is defined as: data positive signal, D- is defined as: data negative signal, V- is defined as: power negative signal), and each line is arranged from left to right. Since the stitches in the interface 201 of the electronic device 20 are sequentially fixed, the signals transmitted from left to right are V+ signal electric contact, D-signal electric contact, D+ signal electric contact, empty end electric contact, V-signal Contact. The null-ended electrical contact is electrically connected to any one of the V+ signal, the D-signal, the D+ signal, and the V-signal. Therefore, in order to match the signal in the interface 201 of the electronic device 20, the signal line in the plug-in portion 1011 The arrangement order of the lines viewed from the upper end of the plug-in portion 1011 is the power supply positive line 1021, the data negative line 1023, the data positive line 1025, the left power supply negative line 1027, and the right power supply negative line 1029, and the lower end of the plug-in portion is viewed from the line. The arrangement order is a left power supply negative line 1027, a data negative line 1023, a power supply positive line 1021, a data positive line 1025, and a right power supply negative line 1029. The magnetic attraction portion 1013 includes a pin 1041, a magnetic sheet 1043, and a first insulating portion 1045. The number of the pins 1041 is five, which are in one-to-one correspondence with the lower ends of the five signal lines in the plug portion 101, and are sequentially connected. The functions of the five pins 1041 are the negative power supply, the data negative, the positive power supply, the positive data and the negative power supply. The pins 1041 are exposed in a row on the front end surface of the magnetic sheet 1043, and the first insulating portion 1045 is disposed around the pins 1041 so that the plurality of pins 1041 are insulated from each other while the pins 1041 and the magnetic sheets are made. 1043 is insulated from each other. The magnetic sheet 1043 may be a magnet material or a ferromagnetic material adsorbed by a magnet.
公头101的管脚1041第一个与左电源负线1027导通连接,管脚1041的第三个与电源正线1021导通连接,左电源负线1027和和电源正线1021形成公头101和母头103信号连接的信号正向组A。The first pin 1041 of the male 101 is electrically connected to the left negative power line 1027, the third of the pin 1041 is electrically connected to the power positive line 1021, and the left negative power line 1027 and the power positive line 1021 form a male end. The signals signaled by 101 and female 103 are forwarded to group A.
请参阅图3,为本发明实施例一的公头101与母头103的正向结合,母头103为矩形状,母头103包括触点1031、排针1033和母头磁铁1035。母头103的上端设置一凹槽,该凹槽形状、尺寸对应于磁吸部1013,磁吸部1013收容于该凹槽内,在该凹槽内设置有多个触点1031。排针1033包括左第一电源端排针1061、第二电源端排针1065、第一数据端排针1063、第二数据端排针1067和右第一电源端排针1069,排针1033的上端与触点1031一一对应并导通连接,下端与线体105导通连接。该每一触点1031导通连接所述的左第一电源端排针1061,第一数据端排针1063,第二电源端排针1065,第二数据端排针1067和右第一电源端排针1069,且该触点1031的位置对应于公头101的管脚1041进行设置。母头磁铁1035与磁吸片1043相对应,通过磁性吸附使得母头103与公头101两者连接在一起,一旦母头103与公头101连接,则公头101上的管脚1041与母头103上的触点1031也就接通,达到电性连接。排针1033是并行排列着的,即在上部的排列顺序和下部的排列顺序相同,排针1033上部的排列顺序依次为左第一电源端排针1061、第一数据端排针1063、第二电源端排针1065、第二数据端排针1067和右第一电源端排针1069,排针1033下部的排列顺序也依次为左第一电源端排针1061、第一数据端排针1063、第二电源端排针1065、第二数据端排针1067和右第一电源端排针1069。通过触点1031与管脚1041的连通,左第一电源端排针1061的上端与公头101的左电源负线1027连接,第一数据端排针1063的上端与公头101的数据负线1023连接,第二电源端排针1065的上端与公头101的电源正线1021连接,第二数据端排针1067的上端与公头101的数据正线1025连接,右第一电源端1069排针的上端与公头101的右电源负线1029连接。这样,由于左第一电源端排针1061的上端与公头101的左电源负线1027连接,第二电源端排针1065的上端与公头101的电源正线1021连接,右第一电源端1069排针的上端与公头101的右电源负线1029连接,可对电子设备进行充电。Referring to FIG. 3, in the positive direction of the male head 101 and the female head 103 according to the first embodiment of the present invention, the female head 103 has a rectangular shape, and the female head 103 includes a contact 1031, a pin 1033 and a female magnet 1035. The upper end of the female head 103 is provided with a groove having a shape and a size corresponding to the magnetic attraction portion 1013. The magnetic attraction portion 1013 is received in the concave groove, and a plurality of contacts 1031 are disposed in the concave groove. The pin header 1033 includes a left first power terminal pin 1061, a second power pin pin 1065, a first data pin pin 1063, a second data pin pin 1067, and a right first power pin pin 1069, and the pin 1033 The upper end is in one-to-one correspondence with the contact 1031 and is electrically connected, and the lower end is electrically connected to the line body 105. Each contact 1031 is electrically connected to the left first power terminal pin 1061, the first data terminal pin 1063, the second power terminal pin 1065, the second data terminal pin 1067 and the right first power terminal. The pin 1069 is arranged, and the position of the contact 1031 is set corresponding to the pin 1041 of the male 101. The female magnet 1035 corresponds to the magnetic sheet 1043, and the female 103 and the male 101 are connected together by magnetic adsorption. Once the female 103 is connected to the male 101, the female 1041 and the female on the male 101 are connected. The contact 1031 on the head 103 is also turned on to achieve an electrical connection. The pin headers 1033 are arranged in parallel, that is, the arrangement order of the upper portions and the arrangement order of the lower portions are the same, and the arrangement order of the upper portions of the pins 1033 is sequentially the left first power supply terminal pin 1061, the first data terminal pin 1063, and the second. The power terminal pin 1065, the second data pin pin 1067, and the right first power pin pin 1069, and the lower order of the pin 1033 are also sequentially arranged as a left first power pin pin 1061, a first data pin pin 1063, The second power supply terminal pin 1065, the second data terminal pin 1067, and the right first power terminal pin 1069. Through the communication between the contact 1031 and the pin 1041, the upper end of the left first power terminal pin 1061 is connected to the left power negative line 1027 of the male 101, and the upper end of the first data terminal pin 1063 and the data negative line of the male 101. 1023 is connected, the upper end of the second power end pin 1065 is connected with the power main line 1021 of the male 101, the upper end of the second data end pin 1067 is connected with the data positive line 1025 of the male 101, and the right first power end 1069 is connected. The upper end of the needle is connected to the right power supply negative line 1029 of the male head 101. Thus, since the upper end of the left first power terminal pin 1061 is connected to the left power negative line 1027 of the male 101, the upper end of the second power terminal pin 1065 is connected to the power positive line 1021 of the male 101, and the right first power terminal is connected. The upper end of the 1069 pin is connected to the right power negative line 1029 of the male 101 to charge the electronic device.
公头101的管脚1041第三个与右电源负线1029导通连接,管脚1041的第三个与电源正线1021导通连接,右电源负线1029和和电源正线1021形成公头101和母头103信号连接的信号反向组B。公头101的管脚1041信号正向组A传递的信号和管脚1041信号反向组B传递的信号互为中心对称。The third pin 1041 of the male 101 is electrically connected to the right negative power supply line 1029, the third of the pin 1041 is electrically connected to the power positive line 1021, and the right negative power supply line 1029 and the power supply positive line 1021 form a male connector. The signal signal 101 and the female 103 signal are connected to the reverse group B. The signal transmitted by the pin 1041 of the male 101 to the group A and the signal transmitted by the reverse group B of the pin 1041 are symmetrical with each other.
请参阅图4,为本发明实施例一的公头101与母头103翻转180°呈反向结合时,排针1033的排列顺序从左到右依次为右第一电源端排针1069、第二数据端排针1067、第二电源端排针1065、第一数据端排针1063和左第一电源端排针1061。排针1033通过触点1031与管脚1041的连通,右第一电源端排针1069与公头101的左电源负线1027连接,第二数据端排针1067与公头101的数据负线1023连接,第二电源端排针1065与公头101的电源正线1021连接,第一数据端排针1063与公头101的数据正线1025连接,左第一电源端排针1061与公头101的右电源负线1029连接。这样,由于右第一电源端排针1069与公头101的左电源负线1027连接,第二电源端排针1065与公头101的电源正线1021连接,左第一电源端排针1061与公头101的右电源负线1029连接,可对电子设备进行充电。因此,不管母头103是正面还是反面使用,都能对电子设备进行充电。Referring to FIG. 4, when the male head 101 and the female head 103 are reversely coupled by 180° in the first embodiment of the present invention, the arrangement order of the pins 1033 is from the left to the right, and the right first power supply terminal pin 1069, The two data terminal pins 1067, the second power terminal pin 1065, the first data terminal pin 1063, and the left first power terminal pin 1061. The pin 1033 is in communication with the pin 1041 through the contact 1031, the right first power pin pin 1069 is connected to the left power negative line 1027 of the male 101, and the second data pin pin 1067 is connected to the data negative line 1023 of the male 101. Connected, the second power terminal pin 1065 is connected to the power positive line 1021 of the male 101, the first data terminal pin 1063 is connected to the data positive line 1025 of the male 101, and the left first power terminal pin 1061 and the male 101 are connected. The right power supply line 1029 is connected. Thus, since the right first power supply terminal pin 1069 is connected to the left power supply negative line 1027 of the male 101, the second power supply terminal pin 1065 is connected to the power supply positive line 1021 of the male 101, and the left first power supply terminal pin 1061 is The right power supply negative line 1029 of the male 101 is connected to charge the electronic device. Therefore, the electronic device can be charged regardless of whether the female head 103 is used on the front side or the back side.
请参阅图5,为本发明实施例二的公头201,同样包括插接部2011和磁吸部2013,插接部2011与磁吸部2013一体成型。插接部2011包括左电源正线2022、左数据正线2023、数据负线2024、右数据正线2025和右电源正线2026,每根线从左到右依次排列,即是以数据负线2024为轴对称排列着,而且插接部2011的外壳为金属材料做成,侧壁作为电源负极使用,即为地线,左右两侧壁相当于左地线2021和右地线2027。左地线
2021、左电源正线2022、左数据正线2023、数据负线2024、右数据正线2025、右电源正线2026和右地线2027从左到右依次排列,且并行排列着,即每根线在上部和下部的排列顺序是相同的。磁吸部2023包括管脚2041和磁吸片2043,七个管脚2041与七根线一一对应并导通连接,依次七个管脚2041的功能分别为电源负极、电源正极、数据正极、数据负极、数据正极、电源正极和电源负极。公头201磁铁围绕着管脚2041。Referring to FIG. 5 , a male head 201 according to a second embodiment of the present invention also includes a plug portion 2011 and a magnetic attraction portion 2013 . The plug portion 2011 and the magnetic attraction portion 2013 are integrally formed. The plug-in unit 2011 includes a left power positive line 2022, a left data positive line 2023, a data negative line 2024, a right data positive line 2025, and a right power supply positive line 2026. Each line is arranged from left to right, that is, the data negative line. 2024 is axially symmetrically arranged, and the outer casing of the plug portion 2011 is made of a metal material, and the side wall is used as a negative pole of the power source, that is, a ground line, and the left and right side walls are equivalent to the left ground line 2021 and the right ground line 2027. Left ground
2011, a left power positive line 2022, a left data positive line 2023, a data negative line 2024, a right data positive line 2025, a right power positive line 2026, and a right ground line 2027 are arranged in order from left to right, and are arranged in parallel, that is, each The order in which the lines are arranged in the upper and lower portions is the same. The magnetic attraction portion 2023 includes a pin 2041 and a magnetic plate 2043. The seven pins 2041 are in one-to-one correspondence with the seven wires, and the functions of the seven pins 2041 are respectively a negative power supply, a positive power supply, and a positive data. Data negative, data positive, power positive and negative power supply. The male 201 magnet surrounds the pin 2041.
请参阅图6,为本发明实施例二的公头201与母头203的结合,母头203为矩形状,母头203包括触点2031、排针(无标号)和母头磁铁2035。母头203的上端设置一凹槽,该凹槽形状、尺寸对应于磁吸部2013,磁吸部2013收容于该凹槽内,在该凹槽内设置有多个触点2031。排针包括左第一电源端排针2061、左第二电源端排针2062、左第一数据端排针2063、第二数据端排针2064、右第一数据端排针2065、右第二电源端排针2066和右第一电源端排针2067,七个排针以第二数据端排针2064为轴对称着,排针的上端与触点2031一一对应并导通连接,下端与线体(图未示)连接。该每一触点2031导通连接所述的左第一电源端排针2061,左第二电源端排针2062,左第一数据端排针2063,第二数据端排针2064,右第一数据端排针2065,右第二电源端排针2066和右第一电源端排针2067,且该触点2031的位置对应于公头201的管脚2041进行设置。母头磁铁2035与磁吸片2043相对应,通过磁性吸附使得母头203与公头201两者连接在一起,一旦母头203与公头201连接,则公头201上的管脚2041与母头203上的触点2031也就接通,达到电性连接。排针是并行排列着的,即是左第一电源端排针2061,左第二电源端排针2062,左第一数据端排针2063,第二数据端排针2064,右第一数据端排针2065,右第二电源端排针2066和右第一电源端排针2067在上部的排列顺序和下部的排列顺序相同。通过触点2031与管脚2041的连通,左第一电源端排针2061的上端与公头201的左地线2021连接,左第二电源端排针2062的上端与公头201的左电源正线2022连接,左第一数据端排针2063的上端与公头201的左数据正线2023连接,第二数据端排针2064的上端与公头201的数据负线2024连接,右第一数据端排针2065的上端与公头201的右数据正线2025连接,右第二电源端排针2066的上端与公头201的右电源正线2026连接,右第一电源端排针2067的上端与公头201的右地线2027连接。这样,由于左第一电源端排针2061与左地线2021连接,右第一电源端排针2067与右地线2027连接,左第二电源端排针2062与左电源正线2022连接,右第二电源端排针2066和右电源正线2026连接,可对电子设备进行充电。当母头203进行反转时,由于排针是对称设置的,因此,左第一电源端排针2061与右地线2027连接,右第一电源端排针2067与左地线2021连接,左第二电源端排针2062与右电源正线2026连接,右第二电源端排针2066和左电源正线2022连接也可对电子设备进行充电。同样实现了当母头203正反接的时候都能对电子设备进行充电。Referring to FIG. 6, the male head 201 and the female head 203 are combined according to the second embodiment of the present invention. The female head 203 has a rectangular shape, and the female head 203 includes a contact 2031, a pin header (no label), and a female magnet 2035. The upper end of the female head 203 is provided with a groove having a shape and a size corresponding to the magnetic attraction portion 2013. The magnetic attraction portion 2013 is received in the concave groove, and a plurality of contacts 2031 are disposed in the concave groove. The pin header includes a left first power terminal pin 2061, a left second power pin pin 2062, a left first data pin pin 2063, a second data pin pin 2064, a right first data pin pin 2065, and a second right. The power terminal pin 2066 and the right first power pin pin 2067, the seven pin pins are axially symmetric with the second data port pin 2064, and the upper end of the pin is in one-to-one correspondence with the contact 2031 and is electrically connected, and the lower end is connected The line body (not shown) is connected. Each contact 2031 is electrically connected to the left first power terminal pin 2061, the left second power pin pin 2062, the left first data pin pin 2063, the second data pin pin 2064, and the right first The data terminal pin 2065, the right second power terminal pin 2066 and the right first power terminal pin 2067, and the position of the contact 2031 is set corresponding to the pin 2041 of the male 201. The female magnet 2035 corresponds to the magnetic sheet 2043, and the female 203 and the male 201 are connected together by magnetic adsorption. Once the female 203 is connected to the male 201, the female 2041 on the male 201 is connected to the female. The contact 2031 on the head 203 is also turned on to achieve an electrical connection. The pin headers are arranged in parallel, that is, the left first power terminal pin 2061, the left second power pin pin 2062, the left first data pin pin 2063, the second data pin pin 2064, and the right first data end. The arrangement of the pin 2065, the right second power terminal pin 2066 and the right first power terminal pin 2067 in the upper portion is the same as the lower order. Through the communication between the contact 2031 and the pin 2041, the upper end of the left first power terminal pin 2061 is connected to the left ground 2021 of the male 201, and the upper end of the left second power terminal pin 2062 and the left power of the male 201 are positive. The line 2022 is connected, the upper end of the left first data end pin 2063 is connected to the left data positive line 2023 of the male head 201, and the upper end of the second data end pin 2064 is connected with the data negative line 2024 of the male head 201, and the right first data is The upper end of the end pin 2065 is connected to the right data positive line 2025 of the male 201, the upper end of the right second power end pin 2066 is connected to the right power positive line 2026 of the male 201, and the upper end of the right first power end pin 2067 is connected. It is connected to the right ground line 2027 of the male head 201. Thus, since the left first power supply terminal pin 2061 is connected to the left ground 2021, the right first power terminal pin 2067 is connected to the right ground 2027, and the left second power terminal pin 2062 is connected to the left power positive line 2022, right. The second power supply terminal pin 2066 is connected to the right power supply positive line 2026 to charge the electronic device. When the female head 203 is reversed, since the pin headers are symmetrically arranged, the left first power supply terminal pin 2061 is connected to the right ground wire 2027, and the right first power terminal pin 2067 is connected to the left ground wire 2021, left. The 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 and the left power positive line 2022 are connected to also charge the electronic device. It is also realized that the electronic device can be charged when the female head 203 is connected in reverse.
请参阅图7,为本发明实施例三的公头301,包括插接部3011和磁吸部3013,插接部3011与磁吸部3013一体成型,插接部3011为矩形状,磁吸部3013为长条状,插接部3011位于磁吸部3013之上方,插接部3011的宽度比磁吸部3013的宽度稍小。插接部3011包括电源正线3021、左电源负线3027和右电源负线3029,也即为V+线、V-线和V-线,每根线从左到右依次排列。由于电子设备接口的针脚顺序为电源正极,数据负极、数据正极、空端和接地,因此从插接部上端看线的排列顺序为电源正线3021、左电源负线3027和右电源负线3029,并且电源正线3021、左电源负线3027和右电源负线3029与电子设备针脚的电源正极、空端和接地一一对应,而插接部3011下端看线的排列顺序为左电源负线3027、电源正线3021和右电源负线3029。磁吸部3013包括管脚3041和磁吸片3043,三个管脚3041与三根线的下端一一对应并导通连接,依次三个管脚3041的功能分别为电源负极,电源正极和电源负极。磁吸片3043围绕着管脚3041。Referring to FIG. 7, a male head 301 according to a third embodiment of the present invention includes a plug portion 3011 and a magnetic attraction portion 3013. The plug portion 3011 is integrally formed with the magnetic portion 3013. The plug portion 3011 is rectangular and the magnetic portion is The 3013 is elongated, the insertion portion 3011 is located above the magnetic attraction portion 3013, and the width of the insertion portion 3011 is slightly smaller than the width of the magnetic attraction portion 3013. The plug portion 3011 includes a power supply positive 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- line, and each line is sequentially arranged from left to right. Since the pin sequence of the electronic device interface is the positive power supply, the data negative, the data positive, the null, and the ground, the order of the lines viewed from the upper end of the plug is the power positive line 3021, the left power negative line 3027, and the right power negative line 3029. And the power supply positive line 3021, the left power supply negative line 3027, and the right power supply negative line 3029 correspond to the power supply positive pole, the empty end and the ground of the electronic device pin, and the arrangement order of the lower end of the plug portion 3011 is the left power negative line. 3027, power supply line 3021 and right power supply negative line 3029. The magnetic attraction portion 3013 includes a pin 3041 and a magnetic piece 3043. The three pins 3041 are in one-to-one correspondence with the lower ends of the three wires and are electrically connected. The functions of the three pins 3041 are respectively the negative pole of the power source, the positive pole of the power source and the negative pole of the power source. . The magnetic sheet 3043 surrounds the pin 3041.
公头301的管脚3041第一个与左电源负线3027导通连接,管脚3041的第三个与电源正线3021导通连接,左电源负线3027和和电源正线3021形成公头301和母头303信号连接的信号正向组C。The pin 3041 of the male head 301 is first connected to the left power negative line 3027, the third of the pin 3041 is electrically connected to the power positive line 3021, and the left power negative line 3027 and the power positive line 3021 form a male end. The signal connected between the signal 301 and the female 303 is forward to the group C.
头301的管脚3041第三个与右电源负线3029导通连接,管脚3041的第三个与电源正线3021导通连接,右电源负线3029和和电源正线3021形成公头301和母头303信号连接的信号正向组D。管脚3041的信号正向组C传递的信号和管脚3041信号反向组D传递的信号互为中心对称。The third pin 3041 of the head 301 is electrically connected to the right power supply negative line 3029, the third of the pin 3041 is electrically connected to the power positive line 3021, and the right power supply negative line 3029 and the power supply positive line 3021 form a male head 301. The signal connected to the female head 303 signal is forwarded to group D. The signal transmitted by the pin 3041 to the group C is symmetric with the signal transmitted by the reverse group D of the pin 3041 signal.
请参阅图8,为本发明实施例三的公头301与母头303的正向结合,母头303为矩形状,母头303包括触点3031、排针3033和母头磁铁3035。母头303的上端设置一凹槽,该凹槽形状、尺寸对应于磁吸部3013,磁吸部3013收容于该凹槽内,在该凹槽内设置有多个触点3031。排针3033包括左第一电源端排针3061、第二电源端排针3065和右第一电源端排针3069,排针3033的上端与触点3031一一对应并导通连接,下端与线体305导通连接。该每一触点3031导通连接所述的左第一电源端排针3061,第二电源端排针3065和右第一电源端排针3069,且该触点3031的位置对应于公头301的管脚3041进行设置。母头磁铁3035与磁吸片3043相对应,通过磁性吸附使得母头303与公头301两者连接在一起,一旦母头303与公头301连接,则公头301上的管脚3041与母头303上的触
点3031也就接通,达到电性连接。排针3033是并行排列着的,即在上部的排列顺序和下部的排列顺序相同,并且排针3033是以第二电源端排针3065做为对称轴,排针3033上部的排列顺序依次为左第一电源端排针3061、第二电源端排针3065和右第一电源端排针3069,排针1033下部的排列顺序也依次为左第一电源端排针3061、第二电源端排针3065和右第一电源端排针3069。通过触点3031与管脚3041的连通,左第一电源端排针3061的上端与公头301的左电源负线3027连接,第二电源端排针3065的上端与公头301的电源正线3021连接,右第一电源端3069排针的上端与公头301的右电源负线3029连接。这样,由于左第一电源端排针3061的上端与公头301的左电源负线3027连接,第二电源端排针3065的上端与公头301的电源正线3021连接,右第一电源端3069排针的上端与公头301的右电源负线3029连接,可对电子设备进行充电。当母头303进行反转时,由于排针3033是对称设置的,因此,左第一电源端排针3061与公头301的右电源负线3029连接,第二电源端排针3065的上端与公头301的电源正线3021连接,右第一电源端排针3069与公头301的左电源负线3027连接,这样也可对电子设备进行充电。同样实现了当母头303正反接的时候都能对电子设备进行充电。Please refer to FIG. 8 , which is a positive combination of the male head 301 and the female head 303 according to the third embodiment of the present invention. The female head 303 has a rectangular shape, and the female head 303 includes a contact 3031, a pin 3033 and a female magnet 3035. A recess is formed in the upper end of the female head 303. The recess has a shape and a size corresponding to the magnetic portion 3013. The magnetic portion 3013 is received in the recess, and a plurality of contacts 3031 are disposed in the recess. The pin 3033 includes a left first power terminal pin 3061, a second power pin pin 3065, and a right first power pin pin 3069. The upper end of the pin 3033 is in one-to-one correspondence with the contact 3031 and is electrically connected, and the lower end is connected to the line. Body 305 is conductively connected. Each contact 3031 is electrically connected to the left first power terminal pin 3061, the second power terminal pin 3065 and the right first power terminal pin 3069, and the position of the contact 3031 corresponds to the male 301. The pin 3041 is set. The female magnet 3035 corresponds to the magnetic sheet 3043, and the female 303 and the male 301 are connected together by magnetic adsorption. Once the female 303 is connected to the male 301, the female 3041 on the male 301 is connected to the female 301. Touch on head 303
Point 3031 is also turned on to reach an electrical connection. The pin 3033 is arranged in parallel, that is, the arrangement order of the upper portion and the arrangement order of the lower portion are the same, and the pin 3033 is the second power supply terminal pin 3065 as the axis of symmetry, and the upper order of the pin 3033 is sequentially left. The first power supply terminal pin 3061, the second power terminal pin 3065 and the right first power terminal pin 3069, and the lower order of the pin 1033 are also arranged in the order of the left first power terminal pin 3061 and the second power terminal pin. 3065 and the right first power terminal pin 3069. Through the communication between the contact 3031 and the pin 3041, the upper end of the left first power terminal pin 3061 is connected to the left power negative line 3027 of the male 301, and the upper end of the second power terminal pin 3065 and the power supply of the male 301 are positive. The 3021 is connected, and the upper end of the right first power terminal 3069 is connected to the right power negative line 3029 of the male 301. Thus, since the upper end of the left first power supply terminal pin 3061 is connected to the left power supply negative line 3027 of the male head 301, the upper end of the second power supply terminal pin 3065 is connected to the power supply positive line 3021 of the male head 301, and the right first power supply terminal is connected. The upper end of the 3069 pin is connected to the right power negative line 3029 of the male head 301 to charge the electronic device. When the female head 303 is reversed, since the pin 3033 is symmetrically disposed, the left first power terminal pin 3061 is connected to the right power negative line 3029 of the male 301, and the upper end of the second power terminal pin 3065 is The power supply line 3021 of the male head 301 is connected, and the right first power supply terminal pin 3069 is connected to the left power supply negative line 3027 of the male head 301, so that the electronic device can also be charged. It is also realized that the electronic device can be charged when the female head 303 is reversing.
因此,左电源负线3027所连接的管脚3041和右电源负线3029所连接的管脚3041相对于电源正线3021所连接的管脚3041对称设置。左第一电源端排针3061所连接的触点3031和右第一电源端3069排针所连接的触点3031相对于第二电源端排针3065所连接的触点3031对称设置,并与电源正线3021,左电源负线3027和右电源负线3029所连接的管脚3041相对应。Therefore, the pin 3041 to which the left power supply negative line 3027 is connected and the pin 3041 to which the right power supply negative line 3029 is connected are symmetrically disposed with respect to the pin 3041 to which the power supply positive line 3021 is connected. The contact 3031 connected to the left first power terminal pin 3061 and the contact 3031 connected to the right first power terminal 3069 are symmetrically arranged with respect to the contact 3031 connected to the second power terminal pin 3065, and the power supply The positive line 3021, the left power supply negative line 3027 and the right power supply negative line 3029 are connected to the pin 3041.
请参阅图9,为本发明实施例四的公头401与母头403的正向结合,与实施例三的区别在与公头401内部电源正线4021、左电源负线4027和右电源负线4029的连接方式及母头403内部排针4033的排布结构不同。排针4033包括左第一电源端排针4061、第二电源端排针4065和右第一电源端排针4069,从排针4033的上端看,其排列顺序为左第一电源端排针4061、第二电源端排针4065和右第一电源端排针4069;从排针4033的下端看,其排列顺序为左第一电源端排针4061、右第一电源端排针4069和第二电源端排针4065。排针4033的上端与触点4031一一对应并导通连接,下端与线体导通连接。该每一触点4031导通连接所述的左第一电源端排针4061,第二电源端排针4065和右第一电源端排针4069,且该触点4031的位置对应于公头401的管脚4041进行设置。一旦母头403与公头401连接,则公头401上的管脚4041与母头403上的触点4031也就接通,达到电性连接。插接部4011包括电源正线4021、左电源负线4027和右电源负线4029,也即为V+线、V-线和V-线,每根线从左到右依次排列。电源正线4021、左电源负线4027和右电源负线4029在上部的排列顺序和下部的排列顺序相同,并且以左电源负线4027做为对称轴,插接部4011上部的排列顺序依次为电源正线4021、左电源负线4027和右电源负线4029,插接部4011下部的排列顺序也依次为电源正线4021、左电源负线4027和右电源负线4029。通过触点4031与管脚4041的连通,左第一电源端排针4061的上端与公头401的左电源负线4027连接,第二电源端排针4065的上端与公头401的电源正线4021连接,右第一电源端4069排针的上端与公头401的右电源负线4029连接。这样,由于左第一电源端排针4061的上端与公头401的左电源负线4027连接,第二电源端排针4065的上端与公头401的电源正线4021连接,右第一电源端4069排针的上端与公头401的右电源负线4029连接,可对电子设备进行充电。当母头403进行反转时,由于排针4033是对称设置的,因此,左第一电源端排针4061与公头401的右电源负线4029连接,第二电源端排针4065的上端与公头401的电源正线4021连接,右第一电源端排针4069与公头401的左电源负线4027连接,这样也可对电子设备进行充电。同样实现了当母头403正反接的时候都能对电子设备进行充电。Please refer to FIG. 9, which is a positive combination of the male head 401 and the female head 403 according to the fourth embodiment of the present invention. The difference from the third embodiment is the internal power supply positive line 4021, the left power supply negative line 4027, and the right power supply negative with the male head 401. The connection of the wire 4029 and the arrangement of the pins 4032 in the female 403 are different. The pin header 4033 includes a left first power terminal pin 4061, a second power pin pin 4065, and a right first power pin pin 4069. When viewed from the upper end of the pin 4033, the arrangement order is the left first power pin pin 4061. The second power supply terminal pin 4065 and the right first power terminal pin 4069; viewed from the lower end of the pin 4033, the arrangement order is the left first power terminal pin 4061, the right first power pin pin 4069, and the second The power terminal pin 4065. The upper end of the pin header 4033 is in one-to-one correspondence with the contact 4031 and is electrically connected, and the lower end is electrically connected to the wire body. Each contact 4031 is electrically connected to the left first power terminal pin 4061, the second power terminal pin 4065 and the right first power terminal pin 4069, and the position of the contact 4031 corresponds to the male 401. The pin 4041 is set. Once the female head 403 is connected to the male head 401, the pin 4041 on the male head 401 and the contact 4031 on the female head 403 are also turned on to achieve electrical connection. The plug portion 4011 includes a power supply positive line 4021, a left power supply negative line 4027, and a right power supply negative line 4029, that is, a V+ line, a V- line, and a V- line, and each line is sequentially arranged from left to right. The power supply positive line 4021, the left power supply negative line 4027, and the right power supply negative line 4029 are arranged in the same order of the upper portion and the lower order, and the left power supply negative line 4027 is used as the symmetry axis, and the upper order of the plug portion 4011 is sequentially The power positive line 4021, the left power negative line 4027, and the right power negative line 4029, and the lower order of the plug portion 4011 are also sequentially the power supply positive line 4021, the left power supply negative line 4027, and the right power supply negative line 4029. Through the communication between the contact 4031 and the pin 4041, the upper end of the left first power terminal pin 4061 is connected with the left power negative line 4027 of the male 401, and the upper end of the second power terminal pin 4065 and the power supply of the male 401 are positive. The 4021 is connected, and the upper end of the right first power terminal 4069 is connected to the right power negative line 4029 of the male 401. Thus, since the upper end of the left first power terminal pin 4061 is connected to the left power negative line 4027 of the male 401, the upper end of the second power terminal pin 4065 is connected to the power positive line 4021 of the male 401, and the right first power terminal is connected. The upper end of the 4069 pin is connected to the right negative power line 4029 of the male 401 to charge the electronic device. When the female head 403 is reversed, since the pin headers 4033 are symmetrically disposed, the left first power supply terminal pin 4061 is connected to the right power supply negative line 4029 of the male 401, and the upper end of the second power supply terminal pin 4065 is The power supply line 4021 of the male head 401 is connected, and the right first power supply terminal pin 4069 is connected to the left power supply negative line 4027 of the male 401, so that the electronic device can also be charged. It is also realized that the electronic device can be charged when the female head 403 is reversed.
因此,左电源负线4027所连接的管脚4041和右电源负线4029所连接的管脚4041相对于电源正线4021所连接的管脚4041对称设置。左第一电源端排针4061所连接的触点4031和右第一电源端4069排针所连接的触点4031相对于第二电源端排针4065所连接的触点4031对称设置,并与电源正线4021,左电源负线4027和右电源负线4029所连接的管脚4041相对应。Therefore, the pin 4041 to which the left power supply negative line 4027 is connected and the pin 4041 to which the right power supply negative line 4029 is connected are symmetrically disposed with respect to the pin 4041 to which the power supply positive line 4021 is connected. The contact 4031 connected to the left first power terminal pin 4061 and the contact 4031 connected to the right first power terminal 4069 are symmetrically arranged with respect to the contact 4031 connected to the second power terminal pin 4065, and the power supply The positive line 4021, the left power supply negative line 4027 and the right power supply negative line 4029 are connected to the pin 4041.
从第一到第四实施例我们可以得到这样的提示,当公头的管脚和母头的排针数量相等,且为对称的单排结构时,只需要公头管脚形成至少一个信号正向组和至少一个信号反向组,信号正向组和信号反向组互为中心对称,且信号正向组和信号反向组至少包括一个V+信号和一个V-信号;母头排针选取管脚的其中一个信号正向组或者其中一个信号反向组进行信号和位置匹配设置,这样就可保证无论母头正面与公头在磁性吸附下导通连接,还是母头翻转180°反面与公头导通连接都可以使得公头V+、V-与母头的V+、V-对应导通连接,形成电源信号传递通路实现充电功能。From the first to fourth embodiments, we can obtain the suggestion that when the number of pins of the male and female pins are equal and the symmetrical single row structure, only the male pin needs to form at least one signal positive. To the group and the at least one signal reversal group, the signal forward group and the signal reversal group are centrally symmetric with each other, and the signal forward group and the signal reversal group include at least one V+ signal and one V-signal; the female pin header is selected One of the signal forward sets or one of the signal reverse sets performs signal and position matching settings, thus ensuring that either the front side of the female head and the male head are electrically connected under magnetic attraction, or the female head is flipped 180° back. The male-conducting connection can make the male V+ and V- and the female V+ and V- correspondingly connected to each other, forming a power signal transmission path to realize the charging function.
请参阅图10a和图10b,第五实施例与第一实施例不同的是公头11磁吸部113上的管脚1131的布设。公头11的磁吸部113的背向插接部111的一面形成第一磁吸面1137,第一磁吸面1137与母头13磁性吸附配合,使公头11和母头13电性导通。管脚1131为单排设置在第一磁吸面1137上半部分距离水平方向中心线L处(此处的L可为从中心线到
磁吸部113上表面的任意距离),管脚1131的个数可为一个或多个,且管脚1131裸露于第一磁吸面1137,用于和母头13相配合电性导通。第一绝缘部1135包裹在管脚1131的四周使得管脚1131彼此之间绝缘,磁吸片1133为铁磁性导电材料,环绕设置在第一绝缘部1135四周。Referring to Figures 10a and 10b, the fifth embodiment differs from the first embodiment in the arrangement of the pins 1131 on the magnetic portion 113 of the male head 11. A side of the magnetic portion 113 of the male head 11 facing away from the insertion portion 111 forms a first magnetic surface 1137, and the first magnetic surface 1137 is magnetically attracted to the female head 13 to electrically guide the male head 11 and the female head 13 through. The pin 1131 is arranged in a single row at the upper half of the first magnetic surface 1137 from the horizontal center line L (where L can be from the center line to
The distance of the upper surface of the magnetic attraction portion 113, the number of the pins 1131 may be one or more, and the pin 1131 is exposed on the first magnetic surface 1137 for electrically conducting with the female head 13. The first insulating portion 1135 is wrapped around the pin 1131 so that the pins 1131 are insulated from each other, and the magnetic sheet 1133 is a ferromagnetic conductive material, which is disposed around the first insulating portion 1135.
管脚1131包括第一V+管脚1141,第一D+管脚1143,第一D-管脚1145,第一V-管脚1140,其中第一V+管脚1141传递V+信号,第一D+管脚1143传递D+信号,第一D-管脚1145传递D-信号,第一V-管脚1147传递V-信号。管脚131在磁吸部113上的排布从左往右依次是第一D+管脚1143,第一D-管脚1145,第一V+管脚1141,第一D-管脚1145和第一V-管脚1147。相应的信号管脚1311可以通过设置在插接部内的相应引脚与电子设备的接口内相应信号线导通连接,实现信号传输。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, wherein the first V+ pin 1141 transmits a V+ signal, and the first D+ pin 1143 passes the D+ signal, the first D-pin 1145 delivers the D-signal, and the first V-pin 1147 delivers the V-signal. The arrangement of the pins 131 on the magnetic attraction portion 113 is, from left to right, a first D+ pin 1143, a first D-pin 1145, a first V+ pin 1141, a first D-pin 1145, and a first V-pin 1147. The corresponding signal pin 1311 can be connected to the corresponding signal line in the interface of the electronic device through the corresponding pin disposed in the plug portion to realize signal transmission.
请参阅图10c和10d,母头13包括排针131,母头磁铁133,第二绝缘部135和凹槽137。母头13为矩形状,其上端设置一凹槽137,该凹槽137形状、尺寸对应于公头11的磁吸部113,磁吸部113刚好收容于该凹槽137内,与凹槽137底面面接触,母头磁铁133为永久磁铁或电磁铁,设置于凹槽137底面,且环绕设置于第二绝缘部135周围,母头磁铁133的前端面与凹槽137底部相平齐,使得凹槽137底部形成一第二磁吸面139,且第二磁吸面139和第一磁吸面1137的形状大小形同,在公头11和母头13磁性吸附结合下,公头11的第一磁吸面1137和母头13的第二磁吸面139磁性面吸附,使得公头11和母头13结合更为牢固,电性连接更为稳定。Referring to Figures 10c and 10d, the female head 13 includes a pin header 131, a female magnet 133, a second insulating portion 135 and a recess 137. The female head 13 has a rectangular shape, and a groove 137 is formed at an upper end thereof. The groove 137 has a shape and a size corresponding to the magnetic portion 113 of the male head 11. The magnetic attraction portion 113 is received in the groove 137 and the groove 137. The bottom surface of the female magnet 133 is a permanent magnet or an electromagnet. The female magnet 133 is disposed on the bottom surface of the recess 137 and is disposed around the second insulating portion 135. The front end surface of the female magnet 133 is flush with the bottom of the recess 137. A second magnetic absorbing surface 139 is formed at the bottom of the groove 137, and the shape of the second magnetic absorbing surface 139 and the first magnetic absorbing surface 1137 is the same in size. Under the magnetic attraction of the male head 11 and the female head 13, the male head 11 The first magnetic surface 1137 and the second magnetic surface 139 of the female head 13 are magnetically adsorbed, so that the male head 11 and the female head 13 are more firmly bonded, and the electrical connection is more stable.
在第二磁吸面139上设置有排针131,排针131是水平方向上平行设置的两排,第一排设置于第二磁吸面139上半部分距离水平方向中心线L处,第二排设置在第二磁吸面139下半部分距离水平方向中心线L处。第二绝缘部135呈矩形状包裹在排针131四周,使得每个排针131彼此之间绝缘,排针131前端高出第二绝缘部135前端面,并裸露在第二绝缘部135的前端面,使得母头13和公头11的电性连接性能更为牢靠,信号传输的稳定性更好。排针131优选为pogo-pin针,使得排针131具有耐冲击使用寿命长,低阻抗电信号传输稳定,同时节约安装空间等特点,便于公头11的小型化。The second magnetic absorbing surface 139 is provided with a pin header 131 which is two rows arranged in parallel in the horizontal direction, and the first row is disposed on the upper half of the second magnetic absorbing surface 139 from the horizontal center line L, The second row is disposed at a lower half of the second magnetic attraction surface 139 from the horizontal center line L. The second insulating portion 135 is wrapped around the pin 131 in a rectangular shape so that each of the pins 131 is insulated from each other, and the front end of the pin 131 is raised above the front end surface of the second insulating portion 135 and exposed at the front end of the second insulating portion 135. The surface makes the electrical connection performance of the female head 13 and the male head 11 more reliable, and the stability of signal transmission is better. The pin header 131 is preferably a pogo-pin needle, so that the pin header 131 has a long impact life, a low-impedance electrical signal transmission is stable, and the installation space is saved, thereby facilitating miniaturization of the male head 11.
排针131包括一个第一D+排针1313,两个第一D-排针1315,一个第一V-排针1317,一个第一V+排针1311,一个第二D+排针1312,一个第二V-排针1316,两个第二D-排针1314和一个第二V+排针1310。排针131第一排的排布顺序从左往右依次是第一D+排针1313,第一D-排针1315,第一V+排针1311,第一D-排针1315和第一V-排针1317。第二排与第一排互为中心对称设置,从左往右依次是第二V-排针1316,第二D-排针1314,第二V+排针1310,第二D-排针1314和第二D+排针1312。The pin header 131 includes a first D+ pin 1313, two first D-pins 1315, a first V-row pin 1317, a first V+ pin 1311, a second D+ pin 1312, and a second V-pin 1316, two second D-pins 1314 and one second V+ pin 1310. The arrangement order of the first row of the pins 131 is from the left to the right, the first D+ pin 1313, the first D-pin 1315, the first V+ pin 1311, the first D-pin 1315 and the first V-. Pin header 1317. The second row and the first row are symmetrically arranged centrally with each other, and from left to right are a second V-pin 1316, a second D-pin 1314, a second V+ pin 1310, a second D-pin 1314 and The second D+ pin 1312.
请参阅图10e和10f,正向结合时,当公头11与母头13靠近,公头11的磁吸部113会与母头磁铁133在磁性作用下结合,则磁吸部113刚好收容到母头13的凹槽137中,使得公头11的第一磁吸面1137和母头13的第二磁吸面139在磁性吸附下结合,从而使公头11的第一D+管脚1143和母头13的第一D+排针1313导通连接,公头11的第一D-管脚1145和母头13的第一D-排针1315导通连接,公头11的第一V+管脚1141和母头13的第一V+排针1311导通连接,公头11的第一V+管脚1141和母头13的第一V+排针1311导通连接,公头11的第一V-管脚1147和母头13的第一V-排针1317导通连接。即公头11的第一D+管脚1143,第一D-管脚1145,第一V+管脚1141,第一D-管脚1145,第一V-管脚1147和母头13的第一D+排针1313,第一D-排针1315,第一V+排针1311,第一D-排针1315,第一V-排针1317一一对应并导通连接。即公头11的D-信号、D+信号、V-信号、V+信号分别与母头13的D-信号、D+信号、V-信号、V+信号一一对应形成通路,这样公头11和母头13就形成了电源信号通路和数据信号通路,可以实现充电和数据传输的功能。Referring to Figures 10e and 10f, when the male head 11 is close to the female head 13 in the forward direction, the magnetic portion 113 of the male head 11 is magnetically coupled to the female magnet 133, and the magnetic attraction portion 113 is just received. In the groove 137 of the female head 13, the first magnetic surface 1137 of the male head 11 and the second magnetic surface 139 of the female head 13 are combined under magnetic attraction, so that the first D+ pin 1143 of the male head 11 and The first D+ pin 1313 of the female head 13 is electrically connected, and the first D-pin 1145 of the male head 11 and the first D-pin 1315 of the female head 13 are electrically connected, and the first V+ pin of the male head 11 is connected. 1141 is electrically connected to the first V+ pin 1311 of the female head 13. The first V+ pin 1141 of the male head 11 and the first V+ pin 1311 of the female head 13 are electrically connected, and the first V-tube of the male head 11 is connected. The foot 1147 is electrically connected to the first V-row pin 1317 of the female head 13. That is, the first D+ pin 1143 of the male head 11, the first D-pin 1145, the first V+ pin 1141, the first D-pin 1145, the first V-pin 1147 and the first D+ of the female 13 The pin 1313, the first D-pin 1315, the first V+ pin 1311, the first D-pin 1315, and the first V-pin 1317 are in one-to-one correspondence and electrically connected. That is, the D-signal, the D+ signal, the V-signal, and the V+ signal of the male head 11 respectively form a path corresponding to the D-signal, the D+ signal, the V-signal, and the V+ signal of the female head 13, so that the male 11 and the female head are formed. 13 forms a power signal path and a data signal path, which can realize the functions of charging and data transmission.
请参阅图10g,反相结合,即把母头13翻转180°反向与公头11结合。这时公头11的管脚1131的排序不变。结合时,公头11的第一D+管脚1143,第一D-管脚1145,第一V+管脚1141,第一D-管脚1145,第一V-管脚1147分别和母头13的第二D+排针1312,第二D-排针1314,第二V+排针1310,第二D-排针1314、第二V-排针1316一一对应导通连接。使公头11的D-信号、D+信号、V-信号、V+信号分别与母头13的D-信号、D+信号、V-信号、V+信号一一对应形成通路,这样公头11和母头13就形成了电源信号通路和数据信号通路,可以实现充电和数据传输的功能。Referring to Fig. 10g, the reverse phase is combined, that is, the female head 13 is turned 180° in reverse to be combined with the male head 11. At this time, the order of the pins 1131 of the male head 11 does not change. When combined, the first D+ pin 1143 of the male head 11, the first D-pin 1145, the first V+ pin 1141, the first D-pin 1145, the first V-pin 1147 and the female 13 respectively 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 in one-to-one conductive connection. The D-signal, the D+ signal, the V-signal, and the V+ signal of the male head 11 are respectively formed in a one-to-one correspondence with the D-signal, the D+ signal, the V-signal, and the V+ signal of the female head 13, so that the male head 11 and the female head are formed. 13 forms a power signal path and a data signal path, which can realize the functions of charging and data transmission.
排针131的第一排形成一个信号正向组E,第二排形成信号反向组F,信号正向组E和信号反向组F互为中心对称设置。信号正向组E和信号反向组F都传递有至少有一个D-信号、一个D+信号、一个V-信号和一个V+信号。The first row of the pins 131 form a signal forward group E, the second row forms a signal reverse group F, and the signal forward group E and the signal reverse group F are symmetrically arranged with each other. Both the signal forward group E and the signal reverse group F are provided with at least one D-signal, one D+ signal, one V-signal and one V+ signal.
请参阅图11a和图11b,第六实施例与第五实施例不同的是公头21的管脚2131传递的信号改变,管脚2131从左往右依次是第一D+管脚2143,第一D-管脚2145,第一V+管脚2141,第一V-管脚2147,第一V-管脚2147。Referring to FIG. 11a and FIG. 11b, the sixth embodiment is different from the fifth embodiment in that the signal transmitted by the pin 2131 of the male head 21 is changed. The pin 2131 is the first D+ pin 2143 from left to right, first. D-pin 2145, first V+ pin 2141, first V-pin 2147, first V-pin 2147.
母头23上的排针231传递的信号也发生改变,排针231第一排从左往右依次为第一D+排针2313,第一V+排针2311,第一D-排针2315,第一V-排针2317,第一V-排针2317;第二排与第一排互为中心对称从左往右依次为第二V-排针2316,第二V-排针2316,第
二D-排针2314,第二V+排针2310、第二D+排针2312。The signal transmitted by the pin header 231 on the female head 23 also changes. The first row of the pin headers 231 is the first D+ pin header 2313 from the left to the right, the first V+ pin header 2311, and the first D-pin pin 2315, a V-row pin 2317, a first V-row pin 2317; the second row and the first row are center-symmetrical with each other from left to right, followed by a second V-row pin 2316, and a second V-row pin 2316,
Two D-pins 2314, a second V+ pin 2310, and a second D+ pin 2312.
请参阅图11c,公头21和母头23正向结合时公头21的第一D+管脚2143,第一D-管脚2145,第一V+管脚2141,第一V-管脚2147,第一V-管脚2147分别和母头23的第一D+排针2313,第一V+排针2311,第一D-排针2315,第一V-排针2317,第一V-排针2317一一对应导通连接,这样公头11和母头13就形成了电源信号通路和数据信号通路,可以实现充电和数据传输的功能。Referring to FIG. 11c, the first D+ pin 2143 of the male head 21 when the male head 21 and the female head 23 are positively coupled, the first D-pin 2145, the first V+ pin 2141, and the first V-pin 2147, The first V-pin 2147 and the first D+ pin 2313 of the female 23, the first V+ pin 2311, the first D-pin 2315, the first V-pin 2317, and the first V-pin 2317 One-to-one correspondence is connected, so that the male head 11 and the female head 13 form a power signal path and a data signal path, which can realize the functions of charging and data transmission.
请参阅图11d,保持公头21不变,母头23翻转180°后,与公头21磁性吸附导通连接,这时公头21的第一D+管脚2143,第一D-管脚2145,第一V+管脚2141,第一V-管脚2147,第一V-管脚2147分别和母头23的第二D+排针2312,第二V+排针2310,第二D-排针2314,第二V-排针2316、第二V-排针2316一一对应导通连接,这样公头21和母头23就形成了电源信号通路和数据信号通路,可以实现充电和数据传输的功能。Referring to FIG. 11d, the male head 21 is kept unchanged, and after the female head 23 is turned 180°, the male head 21 is magnetically conductively connected, and the first D+ pin 2143 of the male head 21 and the first D-pin 2145 are used. a first V+ pin 2141, a first V-pin 2147, a first V-pin 2147 and a second D+ pin 2312 of the female 23, a second V+ pin 2310, and a second D-pin 2314 The second V-pin 2316 and the second V-pin 2316 are connected in a one-to-one manner, so that the male 21 and the female 23 form a power signal path and a data signal path, which can realize the functions of charging and data transmission. .
与第五实施例类似,排针231的第一排形成一个信号正向组,第二排形成信号反向组,信号正向组和信号反向组互为中心对称设置。且信号正向组和信号反向组都传递有至少有一个D-信号、一个D+信号、一个V-信号和一个V+信号。Similar to the fifth embodiment, the first row of the pins 231 form a signal forward group, the second row forms a signal reverse group, and the signal forward group and the signal reverse group are symmetrically arranged with each other. And both the signal forward group and the signal reverse group are transmitted with at least one D-signal, one D+ signal, one V-signal and one V+ signal.
请参阅12a,12b和12c,第七实施例与第五实施例不同的是,公头31的管脚3131所在位置发生改变,管脚3131为单排,设置于第一磁吸面3137下半部距离水平方向中心线L处,管脚3131的顺序从左往右依次是第一D+管脚3143、第一D-管脚3145、第一V+管脚3141、第一D-管脚3145、第一V-管脚3147。Referring to 12a, 12b and 12c, the seventh embodiment is different from the fifth embodiment in that the position of the pin 3131 of the male head 31 is changed, and the pin 3131 is in a single row, and is disposed in the lower half of the first magnetic absorbing surface 3137. The distance from the horizontal direction center line L, the order of the pins 3131 from the left to the right is the first D+ pin 3143, the first D-pin 3145, the first V+ pin 3141, the first D-pin 3145, First V-pin 3147.
在公头31和母头33正向结合时,公头31的第一D+管脚3143、第一D-管脚3145、第一V+管脚3141、第一D-管脚3145、第一V-管脚3147分别和母头33的第二D+排针3312,第二D-排针3314,第二V+排针3310,第二D-排针3314和第二V-排针3316一一对应导通连接,这样公头31和母头33就形成了电源信号通路和数据信号通路,可以实现充电和数据传输的功能。When the male head 31 and the female head 33 are positively coupled, the first D+ pin 3143 of the male head 31, the first D-pin 3145, the first V+ pin 3141, the first D-pin 3145, and the first V - The pin 3147 is respectively corresponding to the second D+ pin 3312 of the female head 33, the second D- pin 3314, the second V+ pin 3310, the second D- pin 3314 and the second V- pin 3316. The connection is made such that the male 31 and the female 33 form a power signal path and a data signal path, and the functions of charging and data transmission can be realized.
保持公头31不变,母头33翻转180°后与公头31结合,此时公头31的第一D+管脚3143、第一D-管脚3145、第一V+管脚3141、第一D-管脚3145、第一V-管脚3147分别和Keeping the male head 31 unchanged, the female head 33 is flipped 180° and then combined with the male head 31. At this time, the first D+ pin 3143, the first D-pin 3145, and the first V+ pin 3141 of the male head 31 are first. D-pin 3145, first V-pin 3147 and
母头33的第一D+排针3313,第一V+排针3311,第一D-排针3315,第一V-排针3317,第一V-排针3317一一对应导通连接,这样公头31和母头33就形成了电源信号通路和数据信号通路,可以实现充电和数据传输的功能。The first D+ pin 3313 of the female head 33, the first V+ pin 3311, the first D-pin 3315, the first V-pin 3317, and the first V-pin 3317 are connected in a one-to-one manner. The head 31 and the female head 33 form a power signal path and a data signal path, and can perform functions of charging and data transmission.
与第五实施例类似,排针331的第一排形成一个信号正向组,第二排形成信号反向组,信号正向组和信号反向组互为中心对称设置。信号正向组和信号反向组都传递有至少有一个D-信号、一个D+信号、一个V-信号和一个V+信号。Similar to the fifth embodiment, the first row of the pin headers 331 form a signal forward group, the second row forms a signal reverse group, and the signal forward group and the signal reverse group are symmetrically arranged with each other. Both the signal forward group and the signal reverse group are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal.
从第前面的实施例我们可以得到这样的提示,当公头的管脚为一排,母头的排针是平行设置的两排,排针第一排设置在第二磁吸面上半部距离水平中心线L处,第二排设置在第二磁吸面下半部距离水平中心线L处,即排针的第一排和第二排与水平中心线的距离都相等。母头的排针形成至少一个信号正向组和至少一个组信号反向组,信号正向组和信号反向组互为中心对称设置。每个信号正向组和每个信号反向组至少传递有一个D-信号、一个D+信号、一个V-信号和一个V+信号,信号的具体布设位置不限定,公头管脚只需选排针其中任意一个信号正向组和/或任意一个信号反向组进行位置和信号的匹配设置,这样在公头和母头正向结合或者是母头翻转180°后与公头反向结合都可以形成电源信号通路和数据信号通路,可以实现充电和数据传输的功能。From the first embodiment, we can get the hint that when the pins of the male head are in a row, the pin headers of the female head are two rows arranged in parallel, and the first row of the pin headers is disposed on the second magnetic face half. From the horizontal center line L, the second row is disposed at a distance from the horizontal centerline L of the lower half of the second magnetic attraction surface, that is, the first row and the second row of the pin headers are equal to the horizontal centerline. The pin header of the female head forms at least one signal forward group and at least one group signal reverse group, and the signal forward group and the signal reverse group are symmetrically arranged with each other. Each signal forward group and each signal reverse group transmit at least one D-signal, one D+ signal, one V-signal and one V+ signal. The specific layout position of the signal is not limited, and the male pin only needs to be arranged. Any one of the signal forward group and/or any signal reverse group is used to match the position and signal, so that the male and female forwards are combined or the female is flipped 180° and then reversed with the male. The power signal path and the data signal path can be formed, and the functions of charging and data transmission can be realized.
请参阅图13a,第八实施例与第五实施例不同的是,公头41的管脚4131为平行设置的两排,第一排设置于第一磁吸面4137上半部距离水平中心线L处,第二排设置于第一磁吸面4137下半部距离水平中心线L处,第一排从左往右依次是第一D+管脚4143,第一D-管脚4145,第一V+管脚4141,第一D-管脚4145和第一V-管脚4147,第二排布设和第一排互为中心对称结构,从左往右依次是第二V-管脚4146,第二D-管脚4144,第二V+管脚4140,第二D-管脚4144,第二D+管脚4142。Referring to FIG. 13a, the eighth embodiment is different from the fifth embodiment in that the pins 4131 of the male head 41 are two rows arranged in parallel, and the first row is disposed on the upper center of the first magnetic attraction surface 4137 from the horizontal center line. L, the second row is disposed at a lower horizontal center line L of the first magnetic attraction surface 4137, and the first row is a first D+ pin 4143 from the left to the right, and the first D-pin 4145 is first. V+ pin 4141, first D-pin 4145 and first V-pin 4147, the second row arrangement and the first row are centrally symmetric with each other, and from left to right is a second V-pin 4146, Two D-pins 4144, a second V+ pin 4140, a second D-pin 4144, and a second D+ pin 4142.
请参阅图13b,母头43的排针431按照公头41的管脚4131进行位置和信号匹配设置,管脚4131的第一排设置于第二磁吸面439上半部距离水平中心线L处,第二排设置于第二磁吸面439下半部距离水平中心线L处。第一排从左往右依次是第一D+排针4313,第一D-排针4315,第一V+排针4311,第一D-排针4315和第一V-排针4317。排针431的第二排布设与第一排互为中心对称设置,从左往右依次是第二V-排针4316,第二D-排针4314,第二V+排针4310,第二D-排针4314和第二D+排针4312。Referring to FIG. 13b, the pin 431 of the female head 43 is positionally and signal-matched according to the pin 4131 of the male head 41. The first row of the pin 4131 is disposed on the upper half of the second magnetic absorbing surface 439 from the horizontal center line L. The second row is disposed at a lower half of the second magnetic attraction surface 439 from the horizontal center line L. The first row from left to right is a first D+ pin 4313, a first D-row pin 4315, a first V+ pin 4311, a first D-pin 4315 and a first V-row pin 4317. The second row of the pin 431 is arranged symmetrically with respect to the first row, and from left to right is a second V-pin 4316, a second D-pin 4314, a second V+ pin 4310, a second D - pin 4314 and second D+ pin 4312.
请参阅图13c,公头41和母头43正向结合时,公头41的第一D+管脚4143,第一D-管脚4145,第一V+管脚4141,第一D-管脚4145,第一V-管脚4147,第二V-管脚4146,第二D-管脚4144,第二V+管脚4140,第二D-管脚4144,第二D+管脚4142分别和母头43的第一D+排针4313,第一D-排针4315,第一V+排针4311,第一D-排针4315,第一V-排针4317,第二V-排针4316,第二D-排针4314,第二V+排针4310,第二D-排针4314,第二D+排针4312一一对应导通连接,这样公头41和母头43就形成了电源信号通路和数
据信号通路,可以实现充电和数据传输的功能。Referring to FIG. 13c, when the male head 41 and the female head 43 are positively coupled, the first D+ pin 4143 of the male head 41, the first D-pin 4145, the first V+ pin 4141, and the first D-pin 4145 , first V-pin 4147, second V-pin 4146, second D-pin 4144, second V+ pin 4140, second D-pin 4144, second D+ pin 4142 and female respectively The first D+ pin 4313 of the 43th, the first D-pin 4315, the first V+ pin 4311, the first D-pin 4315, the first V-pin 4317, the second V-pin 4316, the second D-pin 4314, second V+ pin 4310, second D-pin 4314, and second D+ pin 4312 are connected in a one-to-one manner, so that male 41 and female 43 form a power signal path and number
According to the signal path, the functions of charging and data transmission can be realized.
请参阅图13d,母头43翻转180°再与公头41结合时,公头41的第一D+管脚4143,第一D-管脚4145,第一V+管脚4141,第一D-管脚4145,第一V-管脚4147,第二V-管脚4146,第二D-管脚4144,第二V+管脚4140,第二D-管脚4144,第二D+管脚4142分别和母头43第二D+排针4312,第二D-排针4314,第二V+排针4310,第二D-排针4314,第二V-排针4316,第一V-排针4317,第一D-排针4315,第一V+排针4311,第一D-排针4315,第一D+排针4313一一对应导通连接,这样公头41和母头43就形成了电源信号通路和数据信号通路,可以实现充电和数据传输的功能。Referring to FIG. 13d, when the female head 43 is flipped 180° and then combined with the male head 41, the first D+ pin 4143 of the male head 41, the first D-pin 4145, the first V+ pin 4141, and the first D-tube Foot 4145, first V-pin 4147, second V-pin 4146, second D-pin 4144, second V+ pin 4140, second D-pin 4144, second D+ pin 4142 and Female 43 second D+ pin 4312, second D-pin 4314, second V+ pin 4310, second D-pin 4314, second V-pin 4316, first V-pin 4317, A D-pin 4315, a first V+ pin 4311, a first D-pin 4315, and a first D+ pin 4313 are electrically connected in a one-to-one manner, so that the male 41 and the female 43 form a power signal path and The data signal path enables the functions of charging and data transmission.
管脚4131的第一排和第二排形成至少一个信号正向组G和至少一个信号反向组H,信号正向组G和信号反向组H互为中心对称设置。信号正向组G和信号反向组H都传递有至少有一个D-信号、一个D+信号、一个V-信号和一个V+信号。The first row and the second row of the 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 symmetrically disposed with each other. Both the signal forward group G and the signal reverse group H are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal.
请参阅图14a,14b和14c,第九实施例与第八实施例不同的地方在于母头53的排针531的每排的数量发生改变。排针531在母头53上的排布整体呈“W”型,排针531第一排从左往右依次是第一D+排针5313,第一V+排针5311,第一V-排针5317,第二排从左往右依次是第二D-排针5314,第二D-排针5314。Referring to Figures 14a, 14b and 14c, the ninth embodiment differs from the eighth embodiment in that the number of each row of the pin headers 531 of the female head 53 is changed. The arrangement of the pin 531 on the female head 53 is entirely "W" type, and the first row of the pin 531 is from the left to the right, which is the first D+ pin 5313, the first V+ pin 5311, and the first V- pin. 5317, the second row from left to right is a second D-row pin 5314, and a second D-row pin 5314.
保持公头51和第八实施例一致,公头51和母头53正向结合时公头51的第一D+管脚5143,第一V+管脚5141,第一V-管脚5147,第二D-管脚5144,第二D-管脚5144和母头53的第一D+排针5313,第一V+排针5311,第一V-排针5317,第二D-排针5314,第二D-排针5314一一对应导通连接,这样公头51和母头53就形成了电源信号通路和数据信号通路,可以实现充电和数据传输的功能。Keeping the male 51 in accordance with the eighth embodiment, the first D+ pin 5143 of the male 51 when the male 51 and the female 53 are positively coupled, the first V+ pin 5141, the first V-pin 5147, the second D-pin 5144, second D-pin 5144 and first D+ pin 5313 of female 53, first V+ pin 5311, first V-pin 5317, second D-pin 5314, second The D-pins 5314 are connected to each other in a one-to-one manner, so that the male 51 and the female 53 form a power signal path and a data signal path, and the functions of charging and data transmission can be realized.
保持公头51不变,母头43翻转180°与公头51相结合,此时,公头51的第一D-管脚5145,第一D-管脚5145,第二V-管脚5146,第二V+管脚5140,第二D+管脚5142和母头53的第二D-排针5314,第二D-排针5314,第一V-排针5317,第一V+排针5311,第一D+排针5313一一对用导通连接,这样公头51和母头53就形成了电源信号通路和数据信号通路,可以实现充电和数据传输的功能。Keeping the male 51 unchanged, the female head 43 is flipped 180° and combined with the male 51. At this time, the first D-pin 5145 of the male 51, the first D-pin 5145, and the second V-pin 5146 a second V+ pin 5140, a second D+ pin 5142 and a second D-pin 5314 of the female head 53, a second D-pin 5314, a first V-pin 5317, a first V+ pin 5311, The first D+ pin 5313 is connected in a conductive manner, so that the male 51 and the female 53 form a power signal path and a data signal path, and the functions of charging and data transmission can be realized.
与第八实施例类似,管脚5131的第一排和第二排形成至少一个信号正向组J和至少一个信号反向组K,信号正向组J和信号反向组K互为中心对称设置。信号正向组J和信号反向组K都传递有至少有一个D-信号、一个D+信号、一个V-信号和一个V+信号。Similar to the eighth embodiment, the first row and the second row of the pin 5131 form at least one signal forward group J and at least one signal reverse group K, and the signal forward group J and the signal reverse group K are symmetric with each other. Settings. Both the signal forward group J and the signal reverse group K are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal.
请参阅图15a,15b和15c,第十实施例与第九实施例不同的地方在于母头63的排针631的每排的数量改变,排针631的第一排与第二排整体呈异形结构,第一排信号从左往右依次是第一D+排针6313,第一D-排针6315,第一V-排针6317,第二排排针631只有一个为第二V+排针6310。Referring to Figures 15a, 15b and 15c, the tenth embodiment differs from the ninth embodiment in that the number of each row of the pins 631 of the female head 63 is changed, and the first row and the second row of the pin headers 631 are integrally shaped. Structure, the first row of signals from left to right is the first D+ pin 6131, the first D-row pin 6315, the first V-row pin 6317, and the second row pin 631 only one is the second V+ pin 6310 .
保持公头61与第九实施例一致,在公头61和母头63正向结合时,公头61的第一D+管脚6143,第一D-管脚6145,第一V-管脚6147,第二V+管脚6140分别和母头63的第一D+排针6313,第一D-排针6315,第一V-排针6317,第二V+排针6310一一对应导通连接,这样公头61和母头63就形成了电源信号通路和数据信号通路,可以实现充电和数据传输的功能。The holding male 61 is identical to the ninth embodiment. When the male 61 and the female 63 are positively coupled, the first D+ pin 6143 of the male 61, the first D-pin 6145, and the first V-pin 6147 The second V+ pin 6140 is respectively electrically connected to the first D+ pin 6313 of the female 63, the first D-pin 6315, the first V-pin 6317, and the second V+ pin 6310. The male 61 and the female 63 form a power signal path and a data signal path, and can perform functions of charging and data transmission.
保持公头61不变,母头63翻转180°与公头61结合,此时公头61的第一V+管脚6141,第二V-管脚6146,第二D-管脚6144,第二D+管脚6142和母头63的第二V+排针6310,第一V-排针6317,第二D-排针6315,第二D+排针6313一一对应导通连接,这样公头61和母头63就形成了电源信号通路和数据信号通路,可以实现充电和数据传输的功能。Keeping the male head 61 unchanged, the female head 63 is flipped 180° to be combined with the male head 61. At this time, the first V+ pin 6141 of the male head 61, the second V-pin 6146, the second D-pin 6144, and the second The D+ pin 6142 and the second V+ pin 6310 of the female 63, the first V-row pin 6317, the second D- pin 6315, and the second D+ pin 6313 are connected in a one-to-one correspondence, such that the male 61 and The female head 63 forms a power signal path and a data signal path, and can perform functions of charging and data transmission.
与第八实施例类似,管脚6131的第一排和第二排形成至少一个信号正向组和至少一个信号反向组,信号正向组和信号反向组互为中心对称设置。信号正向组和信号反向组都传递有至少有一个D-信号、一个D+信号、一个V-信号和一个V+信号。Similar to the eighth embodiment, the first row and the second row of the pin 6131 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 arranged with each other. Both the signal forward group and the signal reverse group are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal.
根据第八到第十个实施例我们可以得到这样的提示,当公头管脚和母头排针都为平行设置的两排结构,公头管脚的第一排设置于第一磁吸面上半部距离水平中心线L处,第二排设置于第一磁吸面下半部距离水平中心线L处,即管脚第一排和第二排与水平中心线的距离都相等,且公头管脚形成至少一个正向信号组和至少一个反向信号组,正向信号组和反向信号组互为中心对称,每个正向信号组和每个反向信号组至少有一个D-信号、一个D+信号、一个V-信号和一个V+信号,信号的具体布设位置不限定。母头排针至少选取公头管脚的至少一个正向信号组和/或至少一个反向信号组,进行信号和位置对应匹配设置,即可保证无论公头和母头正向结合或是母头翻转180°反向与公头结合都可以形成了电源信号通路和数据信号通路,可以实现充电和数据传输的功能。According to the eighth to tenth embodiments, we can obtain a prompt that when the male pin and the female pin are both arranged in parallel, the first row of the male pins is disposed on the first magnetic face. The upper half is at a distance from the horizontal center line L, and the second row is disposed at a distance from the horizontal centerline L of the lower half of the first magnetic attraction surface, that is, the distance between the first row and the second row of the pins and the horizontal center line are equal, and The male pin forms at least one forward signal group and at least one reverse signal group, and the forward signal group and the reverse signal group are centrally symmetric with each other, and each forward signal group and each reverse signal group have at least one D - Signal, a D+ signal, a V-signal and a V+ signal, the specific arrangement position of the signal is not limited. The female pin header selects at least one forward signal group and/or at least one reverse signal group of the male pin to perform signal and position corresponding matching setting, thereby ensuring positive integration of the male and female heads or the female The head flip 180° reverse combined with the male head can form a power signal path and a data signal path, which can realize the functions of charging and data transmission.
请参阅图16a和16b,第十一实施例与第十实施例不同的地方在于母头73的排针731为一排,其设置于母头73的第二磁吸面上半部距离水平中心线L处,排针731从左往右依次是第一D+排针7313,第一D-排针7315,第一V+排针7311,第一D-排针7315,第一V-排针7317。Referring to FIGS. 16a and 16b, the eleventh embodiment differs from the tenth embodiment in that the pin headers 731 of the female head 73 are in a row which is disposed on the second magnetic surface of the female head 73 at a horizontal center. At line L, the pin 731 is, from left to right, a first D+ pin 7131, a first D-pin 7315, a first V+ pin 7311, a first D-pin 7315, and a first V-row 7317. .
保持公头71与第十实施例一致,公头71和母头73正向结合时,公头71的第一D+管脚7143,第一D-管脚7145,第一V+管脚7141,第一D-管脚7145,第一V-管脚7147
与母头73的第一D+排针7313,第一D-排针7315,第一V+排针7311,第一D-排针7315,第一V-排针7317一一对应,导通连接,这样公头71和母头73就形成了电源信号通路和数据信号通路,可以实现充电和数据传输的功能。The holding male 71 is identical to the tenth embodiment. When the male 71 and the female 73 are positively coupled, the first D+ pin 7143 of the male 71, the first D-pin 7145, and the first V+ pin 7141, One D-pin 7145, first V-pin 7147
The first D+ pin 7731, the first D-pin 7315, the first V+ pin 7311, the first D-pin 7315, and the first V-pin 7317 are in one-to-one correspondence with the female head 73, and are electrically connected. Thus, the male 71 and the female 73 form a power signal path and a data signal path, and the functions of charging and data transmission can be realized.
请参阅图16c,母头73翻转180°与公头71结合,这时公头71的第二V-管脚7146,第二D-管脚7144,第二V+管脚7140,第二D-管脚7144,第二D+管脚7142与母头73的第一V-排针7317,第二D-排针7315,第二V+排针7311,第二D-排针7315,第二D+排针7313一一对应,导通连接,这样公头71和母头73就形成了电源信号通路和数据信号通路,可以实现充电和数据传输的功能。Referring to Figure 16c, the female head 73 is flipped 180° in combination with the male 71. At this time, the second V-pin 7146 of the male 71, the second D-pin 7144, the second V+-pin 7140, and the second D- Pin 7144, second D+ pin 7142 and first V-pin 7317 of female 73, second D-pin 7315, second V+ pin 7311, second D-pin 7315, second D+ row The pins 7313 are in one-to-one correspondence, and are connected in a conductive manner, so that the male 71 and the female 73 form a power signal path and a data signal path, and the functions of charging and data transmission can be realized.
与第八实施例类似,公头71的管脚7131的第一排和第二排形成至少一个信号正向组和至少一个信号反向组,信号正向组和信号反向组互为中心对称设置。信号正向组和信号反向组都传递有至少有一个D-信号、一个D+信号、一个V-信号和一个V+信号。Similar to the eighth embodiment, the first row and the second row of the pins 7131 of the male 71 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 centrally symmetric with each other. Settings. Both the signal forward group and the signal reverse group are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal.
同样,由第十一实施例以及前面实施例我们可以得到这样的提示,当公头的管脚排数为平行设置的两排,母头的排针设置为一排。公头的第一排管脚设置于第一磁吸面上半部距离水平中心线L处,第二排管脚设置于第一磁吸面下半部距离水平中心线L处,即管脚第一排和第二排与水平中心线的距离都相等。管脚的第一排和第二排形成至少一个信号正向组和至少一个信号反向组,信号正向组和信号反向组互为中心对称设置。信号正向组和信号反向组都传递有至少有一个D-信号、一个D+信号、一个V-信号和一个V+信号。母头排针只需选取公头管脚任意的信号正向组和/或信号反向组进行信号和位置对应匹配,便可以实现母头正向与公头结合,还是母头翻转180°与公头结合都可以形成了电源信号通路和数据信号通路,从而实现充电和数据传输的功能。Also, from the eleventh embodiment and the foregoing embodiment, we can obtain a prompt that when the number of the pin rows of the male head is two rows arranged in parallel, the pin headers of the female head are set in one row. The first row of pins of the male head is disposed on the first magnetic suction surface half from the horizontal center line L, and the second row of pins is disposed on the lower half of the first magnetic attraction surface from the horizontal center line L, that is, the pins The first row and the second row are equally spaced from the horizontal centerline. The first row and the second row of the pins 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 arranged with each other. Both the signal forward group and the signal reverse group are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal. The female pin header only needs to select any signal forward group and/or signal reverse group of the male pin to perform signal and position matching, so that the female forward and the male can be combined, or the female flip is 180°. The combination of the male head can form a power signal path and a data signal path, thereby realizing the functions of charging and data transmission.
请参阅图17a,第十二实施例与第五实施例不同的是公头81的管脚8131排数为平行设置的三排,第一排设置于公头81第一磁吸面8137上半部距离水平中心线L处,第二排设置于公头81第一磁吸面8137的水平中心线处,第三排设置于公头81第一磁吸面8137下半部距离水平中心线L处,第一排和第三排与水平中心线的距离都相等。管脚9131的第一排从左往右依次是第一D+管脚8143,第一D-管脚8145,第一V+管脚8141,第一D-管脚8145,第一V-管脚8147;第二排从左往右依次是第二V+管脚8140,第二D-管脚8144,第二D+管脚8142,第二D-管脚8144,第二V+管脚8140;第三排与第一排互为中心对称,从左往右依次是第三V-管脚8157,第三D-管脚8155,第三V+管脚8151,第三D-管脚8155,第三D+管脚8153。Referring to FIG. 17a, the twelfth embodiment differs from the fifth embodiment in that the number of rows of the pin 811 of the male head 81 is three rows arranged in parallel, and the first row is disposed on the first half of the first magnetic attraction surface 8137 of the male 81. The distance from the horizontal center line L, the second row is disposed at the horizontal center line of the first magnetic surface 8137 of the male 81, and the third row is disposed at the lower half of the first magnetic surface 8137 of the male 81 from the horizontal center line L. At the same time, the distance between the first row and the third row is equal to the horizontal centerline. The first row of pins 9131 is, from left to right, a first D+ pin 8143, a first D-pin 8145, a first V+ pin 8141, a first D-pin 8145, and a first V-pin 8147. The second row from left to right is the second V+ pin 8140, the second D-pin 8144, the second D+ pin 8142, the second D-pin 8144, the second V+ pin 8140; the third row Symmetrical with the first row, from left to right, third V-pin 8157, third D-pin 8155, third V+ pin 8151, third D-pin 8155, third D+ tube Foot 8153.
请参阅图17b,母头83的排针831为一排,其设置于母头83第二磁吸面839上半部端面距离水平中心线L处,排针831从左往右的依次是第一D+排针8313,第一D-排针8315,第一V+排针8311,第一D-排针8315,第一V-排针8317。Referring to FIG. 17b, the row of pins 831 of the female head 83 is a row, which is disposed on the upper end surface of the second magnetic surface 839 of the female head 83 from the horizontal center line L, and the row of pins 831 from left to right is the first A D+ pin 8131, a first D-pin 8315, a first V+ pin 8311, a first D-row pin 8315, and a first V-row pin 8317.
请参阅图17c,公头81和母头83正向结合时,公头81的第一D+管脚8143,第一D-管脚8145,第一V+管脚8141,第一D-管脚8145,第一V-管脚8147分别和母头83的第一D+排针8313,第一D-排针8315,第一V+排针8311,第一D-排针8315,第一V-排针8317一一对应导通连接,使得公头81和母头83形成电源信号通路和数据信号通路,从而可以实现充电和数据传输的功能。Referring to FIG. 17c, when the male 81 and the female 83 are positively coupled, the first D+ pin 8143 of the male 81, the first D-pin 8145, the first V+ pin 8141, and the first D-pin 8145 , the first V-pin 8147 and the first D+ pin 8831 of the female 83, the first D-pin 8315, the first V+ pin 8311, the first D-pin 8315, and the first V-pin The 8317-one is connected to the conduction, so that the male 81 and the female 83 form a power signal path and a data signal path, thereby realizing the functions of charging and data transmission.
请参阅图17d,母头83翻转180°后与公头81结合,此时公头的第三V-管脚8157,第三D-管脚8155,第三V+管脚8151,第三D-管脚8155,第三D+管脚8153分别和母头的第一V-排针8317,第一D-排针8315,第一V+排针8311,第一D-排针8315,第一D+排针8313一一对应导通连接。使得公头81和母头83形成电源信号通路和数据信号通路,从而可以实现充电和数据传输的功能。Referring to FIG. 17d, the female head 83 is flipped 180° and then combined with the male 81. At this time, the third V-pin 8157 of the male, the third D-pin 8155, the third V+ pin 8151, and the third D- Pin 8155, third D+ pin 8153 and first V-pin 8317 of the female, first D-pin 8315, first V+ pin 8311, first D-pin 8315, first D+ row The needles 8313 are one-to-one corresponding to the conductive connection. The male 81 and the female 83 are formed into a power signal path and a data signal path, so that charging and data transmission functions can be realized.
母头83的排针831为一排设置,母头83与公头81的正接或反接都与公头81的管脚8131第二排无关联,因此公头管脚8131可以为任意排序。The pin headers 831 of the female head 83 are arranged in a row, and the positive or negative connection of the female head 83 and the male head 81 is not associated with the second row of the pins 8131 of the male 81, so the male pins 8131 can be arbitrarily ordered.
公头81的管脚8131的第一排、第二排和第三排形成至少一个信号正向组M和至少一个信号反向组N,信号正向组M和信号反向组N互为中心对称设置。信号正向组M和信号反向组N都传递有至少有一个D-信号、一个D+信号、一个V-信号和一个V+信号。The first row, the second row, and the third row of the pin 8131 of the male 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 are centered with each other. Symmetrical settings. Both the signal forward group M and the signal reverse group N are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal.
请参阅图18a,第十三实施例与第十二施例不同的是,母头93的排针931为一排,其设置于第二磁吸面939下部端面距离水平中心线L处,排针931的排布从左往右依次是第一V-信号9317,第一D-信号9315,第-V+信号9311,第一D-信号9315,第一D+信号9313。Referring to FIG. 18a, the thirteenth embodiment is different from the twelfth embodiment in that the row of pins 931 of the female head 93 is a row disposed at a lower end surface of the second magnetic surface 939 from the horizontal center line L. The arrangement of the pins 931 from left to right is a first V-signal 9317, a first D-signal 9315, a -V+ signal 9311, a first D-signal 9315, and a first D+ signal 9313.
请参阅图18b,保持公头91与第十二实施例相同,在公头91和母头93正向结合时,公头91的第三V-管脚9157,第三D-管脚9155,第三V+管脚9151,第三D-管脚9155,第三D+管脚9153分别和母头93的第一V-信号9317,第一D-信号9315,第一V+信号9311,第一D-信号9315,第一D+信号9313一一对应导通连接,使得公头91和母头93形成电源信号通路和数据信号通路,从而可以实现充电和数据传输的功能。Referring to FIG. 18b, the holding male 91 is the same as the twelfth embodiment. When the male 91 and the female 93 are positively coupled, the third V-pin 9157 of the male 91, the third D-pin 9155, The third V+ pin 9151, the third D-pin 9155, the third D+ pin 9153 and the first V-signal 9317 of the female 93, the first D-signal 9315, the first V+ signal 9311, the first D - Signal 9315, the first D+ signal 9313 corresponds to the conduction connection one by one, so that the male 91 and the female 93 form a power signal path and a data signal path, thereby realizing the functions of charging and data transmission.
请参阅图18c,母头93翻转180°后与公头91结合,此时公头91的第一D+管脚9143,第一D-管脚9145,第一V+管脚9141,第一D-管脚9145,第一V-管脚9147,分别和母头的第一D+排针9313,第一D-排针9315,第一V+排针9311,第一D-排针9315,第一
V-排针9317一一对应导通连接,形成电源信号通路和数据信号通路,从而可以实现充电和数据传输的功能。Referring to FIG. 18c, the female head 93 is flipped 180° and then combined with the male head 91. At this time, the first D+ pin 9143 of the male head 91, the first D-pin 9145, the first V+ pin 9141, and the first D- Pin 9145, first V-pin 9147, and first D+ pin 9131 of the female, first D-pin 9315, first V+ pin 9311, first D-pin 9315, first
The V-pins 9317 are connected in turn to form a power signal path and a data signal path, thereby realizing the functions of charging and data transmission.
与第十二实施例类似,公头91的管脚9131的第一排、第二排和第三排形成至少一个信号正向组和至少一个信号反向组,信号正向组和信号反向组互为中心对称设置。信号正向组和信号反向组都传递有至少有一个D-信号、一个D+信号、一个V-信号和一个V+信号。Similar to the twelfth embodiment, the first row, the second row, and the third row of the pin 9131 of the male 91 form at least one signal forward group and at least one signal reverse group, the signal forward group and the signal reverse Groups are symmetrically centered on each other. Both the signal forward group and the signal reverse group are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal.
由第十二和十三实施例我们可以得出,当公头管脚为平行设置的三排结构,母头的排针为一排结构。公头管脚的第一排设置在第一磁吸面上半部距离水平中心线L处,第二排设置第一磁吸部水平中心线处,第三排设置在第一磁吸面下半部距离水平中心线L处,公头管脚与中心线的距离相等,公头的管脚的第一排、第二排和第三排形成至少一个信号正向组和至少一个信号反向组,信号正向组和信号反向组互为中心对称设置。信号正向组和信号反向组都传递有至少有一个D-信号、一个D+信号、一个V-信号和一个V+信号。信号的具体布设位置不限定,且第一排和第三排的管脚排布互为中心对称。母头排针以公头管脚的至少一个信号正向组和/或至少一个信号反向组进行信号和位置匹配即可保证母头正向与公头结合,或母头翻转180°在于公头结合都可以使得公头和母头形成电源信号通路和数据信号通路,从而可以实现充电和数据传输的功能。From the twelfth and thirteenth embodiments, we can conclude that when the male pins are three rows of structures arranged in parallel, the pin headers of the female head are in a row. The first row of the male pins is disposed at a distance from the horizontal center line L of the first magnetic surface, the second row is disposed at the horizontal center line of the first magnetic portion, and the third row is disposed under the first magnetic surface The half is at a horizontal center line L, the male pin is equidistant from the center line, and the first row, the second row, and the third row of the male pin form at least one signal forward group and at least one signal inversion The group, the signal forward group and the signal reverse group are symmetrically arranged with each other. Both the signal forward group and the signal reverse group are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal. The specific layout position of the signal is not limited, and the pin rows of the first row and the third row are symmetric with each other. The female pin header is matched with at least one signal positive group and/or at least one signal reverse group of the male pin to ensure that the female head is positively coupled with the male, or the female flip is 180°. The combination of the heads enables the male and female heads to form a power signal path and a data signal path, thereby enabling charging and data transmission functions.
请参阅图19a,第十四实施例与第十三实施例不同的是,母头24的排针241的排数,第一排设置于第二磁吸面249上半部距离水平中心线L处,第二排设置于第二磁吸面249的水平中心线处。排针241第一排从左到右的排布依次是第一D+排针2413,第一V+排针2411,第一V-排针2417;第二排从左到右依次是第二D-排针2414,第二D-排针2414,排针241的第一排和第二排呈“W”型。Referring to FIG. 19a, the fourteenth embodiment differs from the thirteenth embodiment in the number of rows of the pin headers 241 of the female head 24, and the first row is disposed on the upper half of the second magnetic attraction surface 249 from the horizontal center line L. The second row is disposed at a horizontal center line of the second magnetic attraction surface 249. The arrangement of the first row of the pins 241 from left to right is, in order, a first D+ pin 2413, a first V+ pin 2411, a first V-row pin 2417; and a second row from left to right is a second D- The pin header 2414, the second D-pin header 2414, and the first row and the second row of the pin header 241 are in a "W" shape.
请参阅图19b,保持公头22与十三实施例一致,正向结合时,公头22的第一D+管脚2243,第一V+管脚2241,第一V-管脚2247,第二D-管脚2244,第二D-管脚2244分别和母头24的第一D+排针2413,第一V+排针2411,第一V-排针2417,第二D-排针2414,第二D-排针2414分别一一对应导通连接,形成电源信号通路和数据信号通路,从而可以实现充电和数据传输的功能。Referring to FIG. 19b, the retaining male 22 is identical to the thirteenth embodiment. When positively coupled, the first D+ pin 2243 of the male 22, the first V+ pin 2241, the first V-pin 2247, the second D - pin 2244, second D-pin 2244 and first D+ pin 2413 of female 24, first V+ pin 2411, first V-pin 2417, second D-pin 2414, second The D-pins 2414 are respectively connected to the conduction connection one by one to form a power signal path and a data signal path, thereby realizing the functions of charging and data transmission.
请参阅图19c,母头24翻转180°与公头22反向结合时,公头22的第二D-管脚2244,第二D-管脚2244,第三V-管脚2257,第三V+管脚2251,第三D+管脚2253分别和母头24的第二D-排针2414,第二D-排针2414,第一V-排针2417,第二V+排针2411,第二D+排针2413一一对应导通连接,形成电源信号通路和数据信号通路,从而可以实现充电和数据传输的功能。Referring to FIG. 19c, when the female head 24 is flipped 180° and the male head 22 is reversely coupled, the second D-pin 2244 of the male head 22, the second D-pin 2244, the third V-pin 2257, and the third V+ pin 2251, third D+ pin 2253 and second D-pin 2414 of female 24, second D-pin 2414, first V-pin 2417, second V+ pin 2411, second The D+ pin 2413 is connected to the conduction connection to form a power signal path and a data signal path, thereby realizing the functions of charging and data transmission.
公头22的管脚2231的第一排、第二排和第三排形成至少一个信号正向组P和至少一个信号反向组Q,信号正向组P和信号反向组Q互为中心对称设置。信号正向组P和信号反向组Q都传递有至少有一个D-信号、一个D+信号、一个V-信号和一个V+信号。The first row, the second row, and the third row of the pins 2231 of the male 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 Q are centered with each other. Symmetrical settings. Both the signal forward group P and the signal reverse group Q are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal.
请参阅图20a,第十五实施例与第十四实施例不同的是,母头34的排针341每排的布设位置,排针341为两排,第一排设置于第二磁吸部349上半部分距离水平中心线L处,第二排设置于第二磁吸部349下半部距离水平中心线L处,且第二排和第一排呈“W”形。排针341的第一排信号布设从左往右依次是第一D+排针3413,第一V+排针3411,第一V-排针3417;第二排的信号布设从左往右依次是第二D-排针3414,第二D-排针3414。Referring to FIG. 20a, the fifteenth embodiment is different from the fourteenth embodiment in that the row of the pins 341 of the female head 34 is arranged in each row, the row of pins 341 are two rows, and the first row is disposed in the second magnetism. The upper half of 349 is at a distance from the horizontal center line L, the second row is disposed at a lower half of the second magnetic attraction portion 349 from the horizontal center line L, and the second row and the first row are in a "W" shape. The first row of signal arrangement of the pin 341 is from the left to the right, the first D+ pin 3413, the first V+ pin 3411, and the first V- pin 3417; the second row of signals is arranged from left to right. Two D-pins 3414, second D-pins 3414.
请参阅图20b,保持公头32与第十四实施例相同,在公头32与母头34正向结合时,公头32的第一D+管脚3243,第一V+管脚3241,第一V-管脚3247,第三D-管脚3255,第三D-管脚3255分别和母头34的第一D+排针3413,第一V+排针3411,第一V-排针3417,第二D-排针3414,第二D-排针3414一一对应导通连接,形成电源信号通路和数据信号通路,从而可以实现充电和数据传输的功能。Referring to FIG. 20b, the holding male 32 is the same as the fourteenth embodiment. When the male 32 is positively coupled with the female 34, the first D+ pin 3243 of the male 32, the first V+ pin 3241, first V-pin 3247, third D-pin 3255, third D-pin 3255 and first D+ pin 3413 of female 34, first V+ pin 3411, first V-pin 3417, The two D-pins 3414 and the second D-pins 3414 are connected in turn to form a power signal path and a data signal path, so that charging and data transmission functions can be realized.
请参阅图20c,母头34翻转180°后与公头32结合时,公头32的第一D-管脚3245,第一D-管脚3245,第三V-管脚3257,第三V+管脚3251,第三D+管脚3253分别与母头34的第二D-排针3414,第二D-排针3414,第一V-排针3417,第一V+排针3411,第一D+排针3413一一对应导通连接,形成电源信号通路和数据信号通路,从而可以实现充电和数据传输的功能。Referring to FIG. 20c, when the female head 34 is flipped 180° and combined with the male head 32, the first D-pin 3245 of the male head 32, the first D-pin 3245, the third V-pin 3257, and the third V+ Pin 3251, third D+ pin 3253 and second D-pin 3414 of female 34, second D-pin 3414, first V-pin 3417, first V+ pin 3411, first D+ The pin headers 3413 are connected to each other in a one-to-one manner to form a power signal path and a data signal path, thereby realizing the functions of charging and data transmission.
与第十四实施例类似,公头32的管脚3231的第一排、第二排和第三排形成至少一个信号正向组和至少一个信号反向组,信号正向组和信号反向组互为中心对称设置。信号正向组和信号反向组都传递有至少有一个D-信号、一个D+信号、一个V-信号和一个V+信号。Similar to the fourteenth embodiment, the first row, the second row, and the third row of the pins 3231 of the male head 32 form at least one signal forward group and at least one signal reverse group, the signal forward group and the signal reverse Groups are symmetrically centered on each other. Both the signal forward group and the signal reverse group are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal.
请参阅图21a,第十六实施例公头42的管脚4231为三排,与第十五实施例不同的是每排管脚4231的数量,第一排从左往右依次是第一D+管脚4243,第一V+管脚4241,第一V-管脚4247,第二排从左往右第二D-管脚4244,第二D-管脚4244,第三排与第一排互为中心对称,从左往右依次是第三V-管脚4257,第三V+管脚4251,第三D+管脚4253。
Referring to FIG. 21a, the pin 4231 of the male head 42 of the sixteenth embodiment has three rows. The difference from the fifteenth embodiment is the number of pins 4231 of each row. The first row is the first D+ from left to right. Pin 4243, first V+ pin 4241, first V-pin 4247, second row from left to right second D-pin 4244, second D-pin 4244, third row and first row Symmetrically centered, from left to right is a third V-pin 4257, a third V+ pin 4251, and a third D+ pin 4253.
请参阅图21b,母头44的排针441为平行的两排结构,第一排设置于第二磁吸部449的水平中心线处,第二排设置于第二磁吸部449下半部与水平中心线处距离L处,第一排从左到右依次是第一D-排针4415,第一D-排针4415,第二排从左往右依次是第二V-排针4416,第二V+排针4410,第二D+排针4412,排针第一排和第二排呈“M”形。Referring to FIG. 21b, the pin 441 of the female head 44 is a parallel two-row structure, the first row is disposed at the horizontal center line of the second magnetic attraction portion 449, and the second row is disposed at the lower half of the second magnetic attraction portion 449. At a distance L from the horizontal center line, the first row from left to right is a first D-row pin 4415, a first D-row pin 4415, and a second row from left to right is a second V-row pin 4416. The second V+ pin 4410, the second D+ pin 4412, and the first row and the second row of the pin are in an "M" shape.
请参阅图21c,公头42和母头44正向结合,公头42的第二排从左往右第二D-管脚4244,第二D-管脚4244,第三V-管脚4257,第三V+管脚4251,第三D+管脚4253分别和母头44的第一D-排针4415,第一D-排针4415,二V-排针4416,第二V+排针4410,第二D+排针4412一一对应导通连接,形成电源信号通路和数据信号通路,从而可以实现充电和数据传输的功能。Referring to FIG. 21c, the male 42 and the female 44 are positively coupled. The second row of the male 42 is from left to right, the second D-pin 4244, the second D-pin 4244, and the third V-pin 4257. a third V+ pin 4251, a third D+ pin 4253 and a first D-pin 4415 of the female 44, a first D-pin 4415, a second V-pin 4416, and a second V+ pin 4410, The second D+ pin 4412 is connected to the conduction connection one by one to form a power signal path and a data signal path, thereby realizing the functions of charging and data transmission.
请参阅图21d,母头44翻转180°与公头42结合时,公头42的第一D-管脚4243,第一V+管脚4241,第一V-管脚4247,第二D-管脚4244,第二D-管脚4244分别和母头44的第一D+管脚4212,第一V+管脚4210,第一V-管脚4216,第二D-管脚4215,第二D-管脚4215,分别和母头44的第二D+排针4412,第二V+排针4410,第二V-排针4416,第一D-排针4415,第一D-排针4415一一对应导通连接,形成电源信号通路和数据信号通路,从而可以实现充电和数据传输的功能。Referring to FIG. 21d, when the female head 44 is flipped 180° to be coupled with the male head 42, the first D-pin 4243 of the male head 42, the first V+ pin 4241, the first V-pin 4247, and the second D-tube. Foot 4244, second D-pin 4244 and first D+ pin 4212 of female 44, first V+ pin 4210, first V-pin 4216, second D-pin 4215, second D- The pin 4215 is respectively corresponding to the second D+ pin 4412 of the female head 44, the second V+ pin 4410, the second V- pin 4416, the first D-pin 4415, and the first D-pin 4415. The connection is made to form a power signal path and a data signal path, so that charging and data transmission functions can be realized.
与第十四实施例类似,公头42的管脚4231的第一排、第二排和第三排形成至少一个信号正向组和至少一个信号反向组,信号正向组和信号反向组互为中心对称设置。信号正向组和信号反向组都传递有至少有一个D-信号、一个D+信号、一个V-信号和一个V+信号。Similar to the fourteenth embodiment, the first row, the second row, and the third row of the pins 4231 of the male head 42 form at least one signal forward group and at least one signal reverse group, the signal forward group and the signal reverse Groups are symmetrically centered on each other. Both the signal forward group and the signal reverse group are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal.
请参阅图22a,第十七实施例公头52管脚5231为三排,与第十六实施例不同的是每排管脚5231的数量,第一排从左往右依次是第一D+管脚5243,第一D-管脚5245,第一D-管脚5245第一V-管脚5247;第一排为第二V+管脚5240;第三排与第一排互为中心对称,从左往右依次是第三V-管脚5257,第三D-管脚5255,第三D-管脚5255,第三D+管脚5253。Referring to FIG. 22a, the male head 52 pin 5231 of the seventeenth embodiment has three rows. The difference from the sixteenth embodiment is the number of pins 5231 of each row. The first row is the first D+ tube from left to right. Foot 5243, first D-pin 5245, first D-pin 5245 first V-pin 5247; first row is second V+ pin 5240; third row and first row are center-symmetric, from Left to right are the third V-pin 5257, the third D-pin 5255, the third D-pin 5255, and the third D+ pin 5253.
请参阅图22b,母头54的排针541为两排,与前一实施例不同的是,排针541的每排的数量,第一排为第一V+排针5411,第二排从左到右依次是第二V-排针5416,第二D-排针5414,第二D-排针5414,第二D+排针5412。Referring to FIG. 22b, the pin 541 of the female head 54 has two rows. Unlike the previous embodiment, the number of each row of the pin 541 is the first row of the first V+ pin 5111 and the second row from the left. To the right is a second V-pin 5416, a second D-pin 5414, a second D-pin 5414, and a second D+ pin 5412.
请参阅图22c,公头52与母头54正向结合时,公头52的第二V+管脚5240,第三V-管脚5257,第三D-管脚5255,第三D-管脚5255,第三D+管脚5253与母头54的第一V+排针5411,第二V-排针5416,第二D-排针5414,第二D-排针5414,第二D+排针5412一一对应导通连接,形成电源信号通路和数据信号通路,从而可以实现充电和数据传输的功能。Referring to FIG. 22c, when the male 52 is positively coupled to the female 54, the second V+ pin 5240 of the male 52, the third V-pin 5257, the third D-pin 5255, and the third D-pin. 5255, the third D+ pin 5253 and the first V+ pin 5141 of the female head 54, the second V- pin 5416, the second D- pin 5414, the second D- pin 5414, and the second D+ pin 5412 The one-to-one conduction connection forms a power signal path and a data signal path, thereby enabling charging and data transmission functions.
请参阅图22d,母头54翻转180°后与公头52反向结合,这时,公头52的第一D+管脚5241,第一D-管脚5245,第一D-管脚5245,第一V-管脚5247,第二V+管脚5240与母头54的第二D+排针5412,第二D-排针5414,第二D-排针5414,第二V-排针5416,第二V+排针5411一一对应导通连接,形成电源信号通路和数据信号通路,从而可以实现充电和数据传输的功能。Referring to FIG. 22d, the female head 54 is flipped 180° and then reversely coupled with the male head 52. At this time, the first D+ pin 5241 of the male head 52, the first D-pin 5245, and the first D-pin 5245, a first V-pin 5247, a second V+ pin 5240 and a second D+ pin 5412 of the female 54, a second D-pin 5414, a second D-pin 5414, a second V-pin 5416, The second V+ pin headers 5411 are electrically connected to each other to form a power signal path and a data signal path, so that charging and data transmission functions can be realized.
与第十四实施例类似,公头52的管脚5231的第一排、第二排和第三排形成至少一个信号正向组和至少一个信号反向组,信号正向组和信号反向组互为中心对称设置。信号正向组和信号反向组都传递有至少有一个D-信号、一个D+信号、一个V-信号和一个V+信号。Similar to the fourteenth embodiment, the first row, the second row, and the third row of the pins 5231 of the male head 52 form at least one signal forward group and at least one signal reverse group, the signal forward group and the signal reverse Groups are symmetrically centered on each other. Both the signal forward group and the signal reverse group are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal.
结合第十四到第十七实施例我们可以得到这样的提示,当公头管脚为平行设置的三排,母头排针为平行设置的两排,公头管脚的第一排设置于第一磁吸面上半部距离水平中心线L处,第二排设置在第一次磁吸面水平中心处,第三排设置在第一磁吸面下半部距离水平中心线L处,管脚的第一排和第三排互为中心对称,第二排为水平对称,In combination with the fourteenth to seventeenth embodiments, we can obtain such a prompt that when the male pins are arranged in three rows in parallel, the female pin headers are arranged in two rows in parallel, and the first row of the male pins is disposed on The first magnetic surface half is at a horizontal center line L, the second row is disposed at a horizontal center of the first magnetic surface, and the third row is disposed at a horizontal center line L of the lower half of the first magnetic surface. The first row and the third row of the pins are symmetrical with each other, and the second row is horizontally symmetrical.
公头的管脚的第一排、第二排和第三排形成至少一个信号正向组和至少一个信号反向组,信号正向组和信号反向组互为中心对称设置。信号正向组和信号反向组都传递有至少有一个D-信号、一个D+信号、一个V-信号和一个V+信号。信号的具体布设位置不限定,母头的排针选取公头管脚至少一个信号正向组和/或信号反向组进行信号和位置的对应匹配设置,这样就可以保证母头与公头正向结合或者母头翻转180°再与公头反向结合都可以形成电源信号通路和数据信号通路,从而实现充电和数据传输的功能。The first row, the second row, and the third row of the pins of the male 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 disposed with each other. Both the signal forward group and the signal reverse group are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal. The specific layout position of the signal is not limited, and the pin header of the female head selects at least one signal forward group and/or the signal reverse group of the male pin to perform corresponding matching setting of the signal and the position, so that the female and the male are ensured. The power signal path and the data signal path can be formed by flipping the combination or the female head by 180° and then reversely combining with the male to realize the functions of charging and data transmission.
请参照图23a,第十八实施例保持公头62与第十二实施例一致,公头62的管脚6231第一排从左往右依次是第一D+管脚6243,第一D-管脚6245,第一V+管脚6241,第一D-管脚6245,第一V-管脚6247;第二排从左往右依次是第二V+管脚6240,第二D-管脚6244,第二D+管脚6242,第二D-管脚6244,第二V+管脚6240;第三排与第一排互为中心对称,从左往右依次是第三V-管脚6257,第三D-管脚6255,第三V+管脚6251,第三D-管脚6255,第三D+管脚6253。Referring to FIG. 23a, in the eighteenth embodiment, the retaining male 62 is identical to the twelfth embodiment. The first row of the legs 6231 of the male 62 is, in order from left to right, the first D+ pin 6243, the first D-tube. Foot 6245, first V+ pin 6241, first D-pin 6245, first V-pin 6247; second row from left to right is second V+ pin 6240, second D-pin 6244, a second D+ pin 6242, a second D-pin 6244, and a second V+ pin 6240; the third row and the first row are symmetric with each other, and from left to right, the third V-pin 6257, the third D-pin 6255, third V+ pin 6251, third D-pin 6255, third D+ pin 6253.
请参照图23b,母头64的排针641为平行设置的三排,第一排设置于第二磁吸部649
上半部与水平中心线距离为L处,第二排设置于第二磁吸部649上的水平中心线处,第三排设置于第二磁吸部649下半部与水平中心线距离为L处。排针641第一排从左到右依次是第一D+排针6413,第一D-排针6415,第一V+排针6411,第一D-排针6415,第一D-排针6417;第二排从左到右第二V+排针6410,第二D-排针6414,第二D+排针6412,第二D-排针6414,第二V+排针6410;第三排与第一排互为中心对称,从左到右依次是第三V-排针6427,第三D-排针6425,第三V+排针6421,第三D-排针6425,第三D+排针6423。Referring to FIG. 23b, the pin headers 641 of the female head 64 are three rows arranged in parallel, and the first row is disposed on the second magnetic attraction portion 649.
The upper half is at a distance L from the horizontal center line, the second row is disposed at a horizontal center line on the second magnetic attraction portion 649, and the third row is disposed at a lower half of the second magnetic attraction portion 649 from the horizontal center line. L. The first row of pin headers 641 from left to right is a first D + pin header 6413, a first D-row pin 6415, a first V + pin header 6411, a first D-row pin 6415, a first D-row pin 6417; The second row from left to right, the second V+ pin 6410, the second D-pin 6414, the second D+ pin 6412, the second D-pin 6414, the second V+ pin 6410; the third row and the first The rows are symmetric with respect to each other, and from left to right are a third V-row pin 6427, a third D-pin 6425, a third V+ pin 6421, a third D-pin 6425, and a third D+ pin 6423.
公头62与母头64正相结合时,公头62的第一D+管脚6243,第一D-管脚6245,第一V+管脚6241,第一D-管脚6245,第一V-管脚6247,第二V+管脚6240,第二D-管脚6244,第二D+管脚6242,第二D-管脚6244,第二V+管脚6240,第三V-管脚6257,第三D-管脚6255,第三V+管脚6251,第三D-管脚6255,第三D+管脚6253分别和母头64的第一D+排针6413,第一D-排针6415,第一V+排针6411,第一D-排针6415,第一D-排针6417,第二V+排针6410,第二D-排针6414,第二D+排针6412,第二D-排针6414,第二V+排针6410,第三V-排针6427,第三D-排针6425,第三V+排针6421,第三D-排针6425,第三D+排针6423一一对应导通连接,形成电源信号通路和数据信号通路,从而可以实现充电和数据传输的功能。When the male 62 is combined with the female 64, the first D+ pin 6243 of the male 62, the first D-pin 6245, the first V+ pin 6241, the first D-pin 6245, the first V- Pin 6247, second V+ pin 6240, second D-pin 6244, second D+ pin 6242, second D-pin 6244, second V+ pin 6240, third V-pin 6257, Three D-pins 6255, third V+ pins 6251, third D-pins 6255, third D+ pins 6253 and first D+ pins 6413 of the female 64, first D-pins 6415, a V+ 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, and a second D-pin 6414, the second V+ pin 6410, the third V- pin 6427, the third D- pin 6425, the third V+ pin 6421, the third D- pin 6425, and the third D+ pin 6423 one-to-one guide Through the connection, the power signal path and the data signal path are formed, thereby realizing the functions of charging and data transmission.
母头64翻转180°再与公头62相结合时,公头62的第一D+管脚6243,第一D-管脚6245,第一V+管脚6241,第一D-管脚6245,第一V-管脚6247,第二V+管脚6240,第二D-管脚6244,第二D+管脚6242,第二D-管脚6244,第二V+管脚6240,第三V-管脚6257,第三D-管脚6255,第三V+管脚6251,第三D-管脚6255,第三D+管脚6253分别和母头64的第三D+排针6423,第三D-排针6425,第三V+排针6421,第三D-排针6425,第三V-排针6427,第二V+排针6410,第二D-排针6414,第二D+排针6412,第二D-排针6414,第二V+排针6410,第一V-排针6417,第一D-排针6415,第一V+排针6411,第一D-排针6415,第一D+排针6413一一对应导通连接,形成电源信号通路和数据信号通路,从而可以实现充电和数据传输的功能。When the female head 64 is flipped 180° and then combined with the male 62, the first D+ pin 6243 of the male head 62, the first D-pin 6245, the first V+ pin 6241, and the first D-pin 6245, A V-pin 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, and a third V-pin 6257, third D-pin 6255, third V+ pin 6251, third D-pin 6255, third D+ pin 6253 and third D+ pin 6423 of the female 64, respectively, third D-pin 6425, third V+ pin header 6421, third D-pin pin 6425, third V-pin pin 6427, second V+ pin header 6410, second D-pin pin 6414, second D+ pin header 6412, second D - pin header 6414, second V+ pin header 6410, first V-pin header 6417, first D-pin header 6415, first V+ pin header 6411, first D-pin header 6415, first D+ pin header 6413 A corresponding conduction connection forms a power signal path and a data signal path, thereby enabling charging and data transmission functions.
公头62的管脚6231的第一排、第二排和第三排形成至少一个信号正向组和至少一个信号反向组,信号正向组和信号反向组互为中心对称设置。信号正向组和信号反向组都传递有至少有一个D-信号、一个D+信号、一个V-信号和一个V+信号。The first row, the second row, and the third row of the pins 6231 of the male 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 are symmetrically disposed with each other. Both the signal forward group and the signal reverse group are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal.
请参阅图24a,第十九实施例与第十八实施例不同的是母头74的每排的排针741的数量,第一排是第一V+排针7413,第二排从左往右依次是第二D-排针7414,第二D-排针7414,第三排从左往右依次是第三V-排针7427,第三D+排针7423。排针741整体呈“V”形。Referring to Fig. 24a, the nineteenth embodiment differs from the eighteenth embodiment in the number of pins 741 of each row of the female head 74. The first row is the first V+ pin 7431, and the second row is from left to right. In turn, it is a second D-row pin 7414, a second D-row pin 7414, and a third row from left to right is a third V-row pin 7427, and a third D+ pin 7423. The pin header 741 has a "V" shape as a whole.
请参阅图24b,公头72的结构保持与第十二实施例一致,公头72与母头74正向结合时,公头72的的第一V+管脚7241,第二D-管脚7244,第二D-管脚7244,第三V-管脚7257,第三D+管脚7253与母头74的第一V+排针7241,第二D-排针7244,第二D-排针7244,第三V-排针7257,第三D+排针7253一一对应导通连接,形成电源信号通路和数据信号通路,从而可以实现充电和数据传输的功能。Referring to FIG. 24b, the structure of the male head 72 is maintained in accordance with the twelfth embodiment. When the male head 72 and the female head 74 are positively coupled, the first V+ pin 7241 of the male head 72 and the second D-pin 7244 , a second D-pin 7244, a third V-pin 7257, a third D+ pin 7253 and a first V+ pin 7241 of the female 74, a second D-pin 7244, and a second D-pin 7244 The third V-pin 7257 and the third D+ pin 7253 are connected in a one-to-one manner to form a power signal path and a data signal path, thereby realizing the functions of charging and data transmission.
请参阅图24c,母头74翻转180°后与公头72反向结合,公头72的第一D+管脚7243,第一V-管脚7247,第二D-管脚7244,第二D-管脚7244,第三V+管脚7241与母头84的第三D+排针7423,第三V-排针7427,第二D-排针7414,第二D-排针7414,第一V+排针7413一一对应导通连接,形成电源信号通路和数据信号通路,从而可以实现充电和数据传输的功能。Referring to FIG. 24c, the female head 74 is reversely coupled with the male head 72 after being turned 180°, the first D+ pin 7243 of the male head 72, the first V-pin 7247, the second D-pin 7244, and the second D. - pin 7244, third V+ pin 7241 and third D+ pin 7423 of female 84, third V-pin 7427, second D-pin 7414, second D-pin 7414, first V+ The pin headers 7413 are connected to each other in a one-to-one manner to form a power signal path and a data signal path, thereby realizing the functions of charging and data transmission.
公头72的管脚7231的第一排、第二排和第三排形成至少一个信号正向组X和至少一个信号反向组Y,信号正向组X和信号反向组Y互为中心对称设置。信号正向组X和信号反向组Y都传递有至少有一个D-信号、一个D+信号、一个V-信号和一个V+信号。The first row, the second row, and the third row of the pin 7231 of the male head 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 are centered with each other. Symmetrical settings. Both the signal forward group X and the signal reverse group Y are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal.
请参阅图25a,第二十实施例与第十九实施例不同的是母头84的排针841每排的数量不同,第一排从左到右依次是第一D+排针8413,第一V-排针8417;第二排为第二V+排针8410;第三排从左到右依次是第三D-排针8425,第三D-排针8425。排针841整体呈“W”形。Referring to FIG. 25a, the twentieth embodiment is different from the nineteenth embodiment in that the number of rows of pins 841 of the female head 84 is different. The first row is the first D+ pin 8131 from left to right, first. The V-row pin 8417; the second row is the second V+ pin 8410; the third row is the third D-pin 8425 and the third D-pin 8225 from left to right. The pin header 841 has a "W" shape as a whole.
请参阅图25b,保持公头82与第十七实施例一致,公头82与母头84正向结合时,公头82的第一D+排针8413,第一V-排针8417,第二V+排针8410,第三D-排针8425,第三D-排针8425与母头84的第一D+排针8413,第一V-排针8417,第二V+排针8410,第三D-排针8425,第三D-排针8425,一一对应导通连接,形成电源信号通路和数据信号通路,从而可以实现充电和数据传输的功能。Referring to FIG. 25b, the holding male head 82 is identical to the seventeenth embodiment. When the male head 82 and the female head 84 are positively coupled, the first D+ pin header 8413 of the male head 82, the first V-aligning pin 8417, and the second V+ pin 8410, third D-pin 8225, third D-pin 8245 and first D+ pin 8413 of female 84, first V-pin 8417, second V+ pin 8410, third D - The pin header 8425 and the third D-pin pin 8425 are connected to each other to form a power signal path and a data signal path, thereby realizing the functions of charging and data transmission.
请参阅图25c,母头84翻转180°与公头82结合时,公头82的第一D-管脚8245,第一D-管脚8245,第二V+管脚8240,第三V-管脚8257,第三D+管脚8253分别与母头84的第三D-排针8425,第三D-排针8425,第二V+排针8410,第一V-排针8417,第一D+排针8413一一对应导通连接,形成电源信号通路和数据信号通路,从而可以实现充电和数据传输的功能。Referring to FIG. 25c, when the female head 84 is flipped 180° and combined with the male head 82, the first D-pin 8245 of the male head 82, the first D-pin 8245, the second V+ pin 8240, and the third V-tube The foot 8257, the third D+ pin 8253 and the third D-pin 8425 of the female 84, the third D-pin 8225, the second V+ pin 8410, the first V-pin 8417, the first D+ row The needles 8413 are connected to each other in a one-to-one manner to form a power signal path and a data signal path, thereby realizing the functions of charging and data transmission.
与第十九实施例类似,公头82的管脚8231的第一排、第二排和第三排形成至少一
个信号正向组X和至少一个信号反向组Y,信号正向组X和信号反向组Y互为中心对称设置。信号正向组X和信号反向组Y都传递有至少有一个D-信号、一个D+信号、一个V-信号和一个V+信号。Similar to the nineteenth embodiment, the first row, the second row, and the third row of the pins 8231 of the male head 82 form at least one
The signal forward group X and the at least one signal reverse group Y, the signal forward group X and the signal reverse group Y are symmetrically arranged with each other. Both the signal forward group X and the signal reverse group Y are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal.
结合第十八实施例到第二十实施例,我们可以得到这样的提示,当公头管脚排数为平行设置的三排结构,母头排针排数也为三排,公头的管脚第一排设置于第一磁吸面上半部与水平中心线距离L处,第二排设置于第一磁吸面水平中心线处,第三排设置于第一磁吸面下半部与水平中心线距离L处。管脚的第一排和第三排互为中心对称,第二排为水平对称,三排管脚形成至少一组信号正向组和信号反向组,信号正向组X和信号反向组Y互为中心对称设置。信号正向组X和信号反向组Y都传递有至少有一个D-信号、一个D+信号、一个V-信号和一个V+信号。信号的具体布设位置不限定,母头排针选取公头管脚至少一个信号正向组和/或一个信号反向组的信号和位置对应匹配设置,即可以保证母头正向与公头结合,或者母头翻转180°反向与公头结合都可以形成电源信号通路和数据信号通路,从而可以实现充电和数据传输的功能。In combination with the eighteenth embodiment to the twentieth embodiment, we can obtain a prompt that when the number of male pins is three rows in parallel, the number of rows of female pins is also three rows, and the tube of the male head The first row of the foot is disposed at a distance L between the first magnetic surface half and the horizontal center line, the second row is disposed at a horizontal center line of the first magnetic surface, and the third row is disposed at a lower half of the first magnetic surface Distance L from the horizontal centerline. The first row and the third row of the pin are center-symmetric with each other, the second row is horizontally symmetrical, and the three rows of pins form at least one set of signal forward group and signal reverse group, signal forward group X and signal reverse group Y is symmetrically set to each other. Both the signal forward group X and the signal reverse group Y are transmitted with at least one D-signal, one D+ signal, one V-signal, and one V+ signal. The specific arrangement position of the signal is not limited, and the female pin header selects at least one signal forward group and/or one signal reverse group signal and position corresponding matching setting of the male pin, that is, the female head can be combined with the male head. , or the female flipped 180° reverse combined with the male can form the power signal path and the data signal path, so that the functions of charging and data transmission can be realized.
同理我们也可以得到这样的提示,公头管脚为四排、五排、六排,甚至更多排时,只需要公头的管脚形成至少一个信号正向组和一个信号反向组,信号正向组和信号反向组互为中心对称,每一个信号正向组和每一个信号反向组都传递有至少有一个D-信号、一个D+信号、一个V-信号和一个V+信号。信号的具体布设位置不限定,母头排针选取公头管脚至少一个信号正向组和/或一个信号反向组的信号和位置对应匹配设置,即可以保证母头正向与公头结合,或者母头翻转180°反向与公头结合都可以形成电源信号通路和数据信号通路,从而可以实现充电和数据传输的功能。In the same way, we can also get the hint that when the male pins are four rows, five rows, six rows, or even more rows, only the male pins need to form at least one signal forward group and one signal reverse group. The signal forward group and the signal reverse group are centrally symmetric with each other, and each signal forward group and each signal reverse group are transmitted with at least one D-signal, one D+ signal, one V-signal and one V+ signal. . The specific arrangement position of the signal is not limited, and the female pin header selects at least one signal forward group and/or one signal reverse group signal and position corresponding matching setting of the male pin, that is, the female head can be combined with the male head. , or the female flipped 180° reverse combined with the male can form the power signal path and the data signal path, so that the functions of charging and data transmission can be realized.
由第一实施例到第二十实施例我们得到提示,母头排针为一排、两排、三排或多排时,只要母头排针形成至少一个信号正向组和一个信号反向组,信号正向组和信号反向组互为中心对称,每一个信号正向组和每一个信号反向组都传递有至少有一个D-信号、一个D+信号、一个V-信号和一个V+信号。信号的具体布设位置不限定,公头管脚选取母头排针至少一个信号正向组和/或一个信号反向组的信号和位置对应匹配设置,即可以保证母头正向与公头结合,或者母头翻转180°反向与公头结合都可以形成电源信号通路和数据信号通路,从而可以实现充电和数据传输的功能,公头亦然。From the first embodiment to the twentieth embodiment, we are prompted that when the female pin headers are in one row, two rows, three rows or multiple rows, as long as the female pin headers form at least one signal forward group and one signal inversion The group, the signal forward group and the signal reverse group are centrally symmetric with each other, and each signal forward group and each signal reverse group are transmitted with at least one D-signal, one D+ signal, one V-signal and one V+. signal. The specific layout position of the signal is not limited, and the male pin selects at least one signal forward group and/or one signal reverse group corresponding to the matching setting of the female pin header, that is, the female head can be combined with the male head. , or the female flipped 180° reverse combined with the male can form the power signal path and the data signal path, so that the function of charging and data transmission can be realized, and the male is also the same.
与现有技术相比,本发明一种新型连接器组件10具有以下的有益效果。Compared with the prior art, a novel connector assembly 10 of the present invention has the following beneficial effects.
1、本发明一种新型连接器组件通过将公头11和母头13进行分体设置,公头11的管脚1131或母头13的排针131为对称结构,使得母头13正向与公头11结合时可以形成电源通路实现充电功能,且母头13翻转180°与公头11反向结合时也可以形成电源通路实现充电功能。1. A novel connector assembly according to the present invention, wherein the male head 11 and the female head 13 are separately disposed, and the pin 1131 of the male head 11 or the pin header 131 of the female head 13 has a symmetrical structure, so that the female head 13 is positively coupled with When the male head 11 is combined, a power supply path can be formed to realize the charging function, and when the female head 13 is turned 180° and the male head 11 is reversely coupled, the power supply path can be formed to realize the charging function.
2、公头11的管脚1131为一排、两排或多排,且形成至少两个互为中心对称的信号正向组和信号反向组,每一个信号正向组至少传递有一个V+信号、一个V-信号、一个D+信号、一个D-信号,母头排针131选取一个信号正向组和/或信号反向组进行信号和位置匹配,使得公头11与母头13正向结合或者母头翻转180度反向与公头11结合都可以形成电源信号通路和数据信号通路,从而可以实现充电和数据传输的功能;母头排针131为一排、两排或多排,且形成至少两个互为中心对称的信号正向组和信号反向组,每一个信号正向组至少传递有一个V+信号、一个V-信号、一个D+信号、一个D-信号,公头11管脚1131选取一个信号正向组和/或信号反向组进行信号和位置匹配,使得公头11与母头13正向结合或者母头翻转180度反向与公头11结合都可以形成电源信号通路和数据信号通路,从而可以实现充电和数据传输的功能。2. The pin 1131 of the male head 11 is one row, two rows or multiple rows, and forms at least two signal positive group and signal reverse group which are symmetric with each other, and each signal positive group transmits at least one V+. The signal, a V-signal, a D+ signal, and a D-signal, the female pin header 131 selects a signal forward group and/or a signal reverse group for signal and position matching, so that the male 11 and the female 13 are forward. The combination of the female head flipping 180 degrees and the male head 11 can form a power signal path and a data signal path, thereby realizing the functions of charging and data transmission; the female pin headers 131 are one row, two rows or multiple rows, And forming at least two mutually positive signal positive group and signal reverse group, each signal forward group transmitting at least one V+ signal, one V-signal, one D+ signal, one D-signal, male 11 The pin 1131 selects a signal forward group and/or a signal reverse group for signal and position matching, so that the male head 11 and the female head 13 are positively coupled or the female head is reversed by 180 degrees and the male head 11 is combined with the male head 11 to form a power source. Signal path and data signal path, thereby Capable of charging and data transfer.
3、采用公头11和母头13分体设计的形式,公头11插入电子设备20的接口201当中,母头13上设有母头磁铁135,在磁力作用下公头11和母头13实现电性导通,方便公头11和母头13的连接和分离,不必多次将公头11从电子设备20的接口201中多次拔除,损伤接口201从而影响电子设备20的使用寿命;排针131的前端高出第二绝缘部137前端面,并裸露在第二绝缘部137的前端面,使得母头13和公头11的电性连接性能更为牢靠,信号传输的稳定性更好。3. In the form of a split design of the male head 11 and the female head 13, the male head 11 is inserted into the interface 201 of the electronic device 20, and the female head 13 is provided with a female magnet 135, and under the action of the magnetic force, the male head 11 and the female head 13 The electrical conduction is realized, and the connection and separation of the male head 11 and the female head 13 are facilitated. The male head 11 is not required to be removed from the interface 201 of the electronic device 20 multiple times, and the interface 201 is damaged to affect the service life of the electronic device 20; The front end of the pin header 131 is higher than the front end surface of the second insulating portion 137, and is exposed on the front end surface of the second insulating portion 137, so that the electrical connection performance of the female head 13 and the male head 11 is more reliable, and the stability of signal transmission is further improved. it is good.
4、排针131为pogo-pin针,其具有耐冲击使用寿命长,低阻抗电信号传输稳定,同时节约安装空间等特点,便于公头11的小型化。4. The pin header 131 is a pogo-pin needle, which has the advantages of long impact life, stable transmission of low-impedance electrical signals, and saving installation space, etc., and is convenient for miniaturization of the male head 11.
5、母头13上端设置一凹槽137,该凹槽137形状、尺寸对应于公头11的磁吸部113,磁吸部113刚好收容于该凹槽137内,使得公头11和母头13的面接触结合更为牢固,电性连接更为稳定。5. The upper end of the female head 13 is provided with a recess 137. The shape and size of the recess 137 correspond to the magnetic attraction portion 113 of the male head 11. The magnetic attraction portion 113 is just received in the recess 137, so that the male head 11 and the female head The surface contact of 13 is more firmly bonded and the electrical connection is more stable.
6、公头101的磁吸部1013设计为薄片式结构,该薄片式结构使公头101贴附于电子设备20端口,且使用者基本不会感受到其厚度,可以让使用者愿意将公头101长期贴附于电子设备20的端口处,其不影响用户携带使用电子设备20,并且可以对电子设备20进行充电和传输数据,甚至起到保护电子设备20端口的作用,如防潮、防灰、防水等。6. The magnetic attraction portion 1013 of the male head 101 is designed as a sheet-type structure. The thin-plate structure allows the male head 101 to be attached to the port of the electronic device 20, and the user does not substantially feel the thickness thereof, and the user is willing to let the user The head 101 is attached to the port of the electronic device 20 for a long time, which does not affect the user carrying the electronic device 20, and can charge and transmit data to the electronic device 20, and even protect the port of the electronic device 20, such as moisture and defense. Gray, waterproof, etc.
以上所述仅为本发明的较佳实施例而已,并不用以限制本发明,凡在本发明的原则之内所作的任何修改,等同替换和改进等均应包含本发明的保护范围之内。
The above is only the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalents, and improvements made within the principles of the present invention should be included in the scope of the present invention.
Claims (15)
- 一种新型连接器组件,其特征在于,包括:A novel connector assembly characterized by comprising:一公头,所述公头包括一插接部和一磁吸部,所述插接部插入电子设备接口内,所述磁吸部背向插接部的一端面为第一磁吸面;多个管脚裸露设置于所述的第一磁吸面;a male head, the male head includes a plug portion and a magnetic portion, the plug portion is inserted into the interface of the electronic device, and an end surface of the magnetic portion facing away from the plug portion is a first magnetic surface; a plurality of pins are barely disposed on the first magnetic surface;一母头,所述母头与所述公头分体设置,所述母头与所述公头对接的一端有一第二磁吸面,所述第一磁吸面与所述第二磁吸面相对应磁性吸附;a female head, the female head is disposed separately from the male head, and one end of the female head that is butted with the male head has a second magnetic absorbing surface, the first magnetic absorbing surface and the second magnetic absorbing surface The surface corresponds to magnetic adsorption;所述母头包括多个排针,所述排针与所述管脚对应连接传递信号;The female head includes a plurality of pin headers, and the pin headers are connected to the pins to transmit signals;所述管脚和/或所述排针形成至少一信号正向组和至少一信号反向组,且信号正向组和信号反向组互为中心对称。The pin and/or the pin header 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 centrally symmetric with each other.
- 如权利要求1所述的新型连接器组件,其特征在于,所述磁吸部包括:The novel connector assembly of claim 1 wherein said magnetic attraction portion comprises:第一绝缘部,所述第一绝缘部设置于第一磁吸面上,并绝缘隔离所述管脚;与a first insulating portion, the first insulating portion is disposed on the first magnetic absorbing surface, and isolating the pin; and磁吸片,所述磁吸片环绕于所述第一绝缘部,所述磁吸片为磁铁或被磁性吸附的铁磁性材料。a magnetic sheet, the magnetic sheet surrounds the first insulating portion, and the magnetic sheet is a magnet or a magnetically adsorbed ferromagnetic material.
- 如权利要求1所述的新型连接器组件,其特征在于:所述磁吸部为一薄片结构,磁吸部的厚度为0.3毫米至2毫米,且所述磁吸部的宽度大于所述插接部的宽度。A novel connector assembly according to claim 1, wherein said magnetic attraction portion has a sheet structure, said magnetic portion has a thickness of 0.3 mm to 2 mm, and said magnetic attraction portion has a width larger than said insertion portion. The width of the joint.
- 如权利要求1所述的新型连接器组件,其特征在于:所述母头与公头对接的一端设置一凹槽,所述凹槽的底面为第二磁吸面,所述磁吸部对应收容于所述凹槽内,所述排针裸露凸出于所述第二磁吸面,所述母头进一步包括一第二绝缘部,所述的第二绝缘部绝缘隔离所述排针。The novel connector assembly according to claim 1, wherein a groove is formed at one end of the female head and the male end, and a bottom surface of the groove is a second magnetic surface, and the magnetic portion corresponds to The socket is exposed in the recess, the pin is exposed to protrude from the second magnetic surface, the female further includes a second insulating portion, and the second insulating portion is insulated to isolate the pin.
- 如权利要求4所述的新型连接器组件,其特征在于:所述凹槽内第二磁吸面的下部设置有至少一母头磁铁,所述母头磁铁磁性吸附所述磁吸部。The novel connector assembly according to claim 4, wherein a lower portion of the second magnetic attraction surface in the recess is provided with at least one female magnet, and the female magnet magnetically attracts the magnetic attraction portion.
- 如权利要求1所述的新型连接器组件,其特征在于:所述多个管脚呈单排相隔设置于第一磁吸面上,且所述管脚传输的不同信号以一中心轴对称设置,所述多个排针对应所述管脚进行信号和位置匹配。The novel connector assembly of claim 1 wherein said plurality of pins are disposed in a single row spaced apart from each other on said first magnetically absorbing surface, and wherein said signals transmitted by said pins are symmetrically disposed about a central axis The plurality of rows are signaled and position matched for the pins.
- 如权利要求6所述的新型连接器组件,其特征在于:所述插接部内设置多个引脚,该多个引脚与电子设备接口内的信号相匹配,所述多个引脚传输的不同信号在插入电子设备接口内的一端非对称设置,该多个引脚在插接部内部交错的连接到第一磁吸面上的多个管脚。The novel connector assembly of claim 6 wherein a plurality of pins are disposed within the plug portion, the plurality of pins being matched to signals within an interface of the electronic device, the plurality of pins being transferred The different signals are asymmetrically disposed at one end of the interface inserted into the electronic device, the plurality of pins being staggered inside the plug portion to a plurality of pins on the first magnetic absorbing surface.
- 如权利要求6所述的新型连接器组件,其特征在于:所述插接部内设置多个引脚,该多个引脚与电子设备接口内的信号相匹配,所述多个引脚传输的不同信号在插入电子设备接口内的一端对称设置,该多个引脚在插接部内部平行的连接到第一磁吸面上的多个管脚。The novel connector assembly of claim 6 wherein a plurality of pins are disposed within the plug portion, the plurality of pins being matched to signals within an interface of the electronic device, the plurality of pins being transferred Different signals are symmetrically disposed at one end of the interface inserted into the electronic device, the plurality of pins being connected in parallel to the plurality of pins on the first magnetic surface inside the plug portion.
- 如权利要求1所述的新型连接器组件,其特征在于:所述多个管脚分两排平行排列于第一磁吸面上,且每一排距离第一磁吸面的水平中心线的尺寸相同,第一排管脚构成信号正向组,第二排管脚构成信号反向组;A novel connector assembly according to claim 1 wherein said plurality of pins are arranged in two rows in parallel on the first magnetic absorbing surface, and each row is spaced from a horizontal centerline of the first magnetic absorbing surface. The same size, the first row of pins constitutes a signal positive group, and the second row of pins constitutes a signal reverse group;母头包括单排相隔设置的一排排针,该单排排列的每一个排针均与任一排管脚的信号匹配连接。The female head includes a row of pins arranged in a single row, and each of the rows of pins arranged in a row is matched with the signal of any row of pins.
- 如权利要求9所述的新型连接器组件,其特征在于:该每一排管脚传输的不同信号以一中心轴对称设置,所述管脚传输的信号包括V+信号,V-信号,D+信号,D-信号。The novel connector assembly according to claim 9, wherein the different signals transmitted by each of the rows of pins are symmetrically arranged with a central axis, and the signals transmitted by the pins include a V+ signal, a V-signal, and a D+ signal. , D-signal.
- 如权利要求1所述的新型连接器组件,其特征在于:所述多个排针分两排平行排列于第二磁吸面上,且每一排距离第二磁吸面的水平中 心线的尺寸相同,第一排排针构成信号正向组,第二排排针构成信号反向组;A novel connector assembly according to claim 1 wherein said plurality of rows of pins are arranged in parallel in two rows on the second magnetically absorbing surface, and each row is in the horizontal direction of the second magnetically absorbing surface The size of the heart line is the same, the first row of pins constitutes a signal positive group, and the second row of pins constitutes a signal reverse group;公头包括单排相隔设置的一排管脚,该单排排列的每一个管脚均与任一排排针的信号匹配连接。The male head includes a row of pins arranged in a single row, and each of the pins arranged in the single row is matched with the signal of any of the rows of pins.
- 如权利要求1所述的新型连接器组件,其特征在于:所述多个管脚分至少两排平行排列于第一磁吸面上,且其中至少有两排距离第一磁吸面的水平中心线的尺寸相同;A novel connector assembly according to claim 1 wherein said plurality of pins are arranged in parallel at least two rows on said first magnetic absorbing surface, and wherein at least two of said rows are at a level from said first magnetic absorbing surface The centerline is the same size;管脚的信号正向组可由至少两排中的任一排构成,或由至少两排中任一排的部分管脚与其他排的部分管脚共同构成;The signal forward group of the pin may be composed of any one of at least two rows, or a part of the pins of any one of the at least two rows and a part of the pins of the other row;母头包括以至少一排排列设置的多个可以分别与管脚的信号正向组和管脚的信号反向组信号匹配连接的排针。The female head includes a plurality of pin headers arranged in at least one row and which can be respectively mated with the signal reverse group signals of the signal forward group and the pin of the pin.
- 如权利要求12所述的新型连接器组件,其特征在于:管脚的信号正向组至少包括传输V+信号,V-信号,D+信号,D-信号的管脚;管脚的信号反向组也至少包括传输V+信号,V-信号,D+信号,D-信号的管脚。A novel connector assembly according to claim 12, wherein the positive signal set of the pin comprises at least a pin for transmitting a V+ signal, a V-signal, a D+ signal, and a D-signal; and a signal reverse group of the pin. It also includes at least pins for transmitting V+ signals, V-signals, D+ signals, and D-signals.
- 如权利要求1所述的新型连接器组件,其特征在于:所述多个排针分至少两排平行排列于第二磁吸面上,且其中至少有两排距离第二磁吸面的水平中心线的尺寸相同;A novel connector assembly according to claim 1 wherein said plurality of pins are arranged in parallel at least two rows on said second magnetic face, and wherein at least two of said rows are at a level from said second magnetic face The centerline is the same size;排针的信号正向组可由至少两排中的任一排构成,或由至少两排中任一排的部分排针与其他排的部分排针共同构成;The positive signal group of the pin header may be constituted by any one of at least two rows, or may be composed of a partial pin header of any one of the at least two rows and a partial pin header of the other row;公头包括以至少一排排列设置的多个可以分别与排针的信号正向组和排针的信号正向组信号匹配连接的管脚。The male head includes a plurality of pins arranged in at least one row and which are respectively matched with the signal positive group signals of the signal positive group and the pin header of the pin header.
- 如权利要求14所述的新型连接器组件,其特征在于:排针的信号正向组至少包括传输V+信号,V-信号,D+信号,D-信号的排针;排针的信号反向组也至少包括传输V+信号,V-信号,D+信号,D-信号的排针。 The novel connector assembly according to claim 14, wherein the positive signal group of the pin header includes at least a pin header for transmitting a V+ signal, a V-signal, a D+ signal, and a D-signal; and a signal reverse group for the pin header It also includes at least a pin header for transmitting a V+ signal, a V-signal, a D+ signal, and a D-signal.
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KR2020177000066U KR20180001043U (en) | 2015-03-14 | 2016-02-23 | Connector assembly |
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CN201520170004.4 | 2015-03-14 | ||
CN201520589002.9 | 2015-07-30 | ||
CN201520589002.9U CN204992024U8 (en) | 2015-03-14 | 2015-07-30 | A kind of new magnetic switching device |
CN201520586129.5U CN204835113U8 (en) | 2015-03-14 | 2015-07-30 | A kind of new attachment means |
CN201520586129.5 | 2015-07-30 | ||
CN201620107875.6U CN205509140U (en) | 2015-03-14 | 2016-02-02 | Novel connector component |
CN201620107875.6 | 2016-02-02 |
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108321606A (en) * | 2018-02-02 | 2018-07-24 | 深圳爱影科技有限公司 | A kind of electric connector and the shared electronic equipment using the electric connector |
CN110120618A (en) * | 2019-06-13 | 2019-08-13 | 桂林电子科技大学 | A kind of RS232 serial communication interface of multi-operation mode |
CN111130600A (en) * | 2018-11-01 | 2020-05-08 | 富鼎精密工业(郑州)有限公司 | Wireless communication interconnection system |
CN111140888A (en) * | 2020-03-04 | 2020-05-12 | 嵊州市浙江工业大学创新研究院 | Portable electric appliance replacement integrated stove |
CN112378297A (en) * | 2020-02-24 | 2021-02-19 | 谢正怀 | Electronic detonator leg wire device and application |
WO2021042206A1 (en) * | 2019-09-05 | 2021-03-11 | Exceltec Canada Inc. | Magnetic connector |
Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN202662941U (en) * | 2012-05-04 | 2013-01-09 | 王浩 | USB patch cord |
CN103928808A (en) * | 2013-01-11 | 2014-07-16 | 艺创有限公司 | External magnetic electric adapter |
CN103972703A (en) * | 2013-01-28 | 2014-08-06 | 富士康(昆山)电脑接插件有限公司 | Plug connector and manufacturing method thereof |
CN104348025A (en) * | 2013-08-08 | 2015-02-11 | 富士康(昆山)电脑接插件有限公司 | Electric connector combination |
CN204835113U (en) * | 2015-03-14 | 2015-12-02 | 袁庆秀 | Novel connection device |
CN204992024U (en) * | 2015-03-14 | 2016-01-20 | 袁庆秀 | Novel magnetism inhale switching device |
-
2016
- 2016-02-23 WO PCT/CN2016/074325 patent/WO2016145970A1/en active Application Filing
- 2016-02-23 KR KR2020177000066U patent/KR20180001043U/en not_active Application Discontinuation
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN202662941U (en) * | 2012-05-04 | 2013-01-09 | 王浩 | USB patch cord |
CN103928808A (en) * | 2013-01-11 | 2014-07-16 | 艺创有限公司 | External magnetic electric adapter |
CN103972703A (en) * | 2013-01-28 | 2014-08-06 | 富士康(昆山)电脑接插件有限公司 | Plug connector and manufacturing method thereof |
CN104348025A (en) * | 2013-08-08 | 2015-02-11 | 富士康(昆山)电脑接插件有限公司 | Electric connector combination |
CN204835113U (en) * | 2015-03-14 | 2015-12-02 | 袁庆秀 | Novel connection device |
CN204992024U (en) * | 2015-03-14 | 2016-01-20 | 袁庆秀 | Novel magnetism inhale switching device |
Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108321606A (en) * | 2018-02-02 | 2018-07-24 | 深圳爱影科技有限公司 | A kind of electric connector and the shared electronic equipment using the electric connector |
CN108321606B (en) * | 2018-02-02 | 2024-10-11 | 深圳爱影科技有限公司 | Electric connector and shared electronic equipment using same |
CN111130600A (en) * | 2018-11-01 | 2020-05-08 | 富鼎精密工业(郑州)有限公司 | Wireless communication interconnection system |
CN110120618A (en) * | 2019-06-13 | 2019-08-13 | 桂林电子科技大学 | A kind of RS232 serial communication interface of multi-operation mode |
CN110120618B (en) * | 2019-06-13 | 2024-01-02 | 桂林电子科技大学 | RS232 serial communication interface with multiple working modes |
WO2021042206A1 (en) * | 2019-09-05 | 2021-03-11 | Exceltec Canada Inc. | Magnetic connector |
CN112378297A (en) * | 2020-02-24 | 2021-02-19 | 谢正怀 | Electronic detonator leg wire device and application |
CN111140888A (en) * | 2020-03-04 | 2020-05-12 | 嵊州市浙江工业大学创新研究院 | Portable electric appliance replacement integrated stove |
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---|---|
KR20180001043U (en) | 2018-04-16 |
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