WO2022037008A1 - Electronic device connection line - Google Patents

Electronic device connection line Download PDF

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Publication number
WO2022037008A1
WO2022037008A1 PCT/CN2021/072212 CN2021072212W WO2022037008A1 WO 2022037008 A1 WO2022037008 A1 WO 2022037008A1 CN 2021072212 W CN2021072212 W CN 2021072212W WO 2022037008 A1 WO2022037008 A1 WO 2022037008A1
Authority
WO
WIPO (PCT)
Prior art keywords
connector
connection
circuit board
main circuit
electronic device
Prior art date
Application number
PCT/CN2021/072212
Other languages
French (fr)
Chinese (zh)
Inventor
张旭东
Original Assignee
张旭东
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 张旭东 filed Critical 张旭东
Priority to CN202180056318.XA priority Critical patent/CN116171514A/en
Publication of WO2022037008A1 publication Critical patent/WO2022037008A1/en

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Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R13/00Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
    • H01R13/66Structural association with built-in electrical component
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R31/00Coupling parts supported only by co-operation with counterpart
    • H01R31/06Intermediate parts for linking two coupling parts, e.g. adapter
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02JCIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
    • H02J7/00Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries

Definitions

  • the present invention relates to the field of electronic technology, and more particularly, to a connecting wire for electronic equipment.
  • a mobile power supply appears.
  • the data cable can be used to connect the mobile power supply. Charge your smartphone.
  • the mobile power supply is often bulky and inconvenient to carry, and the user needs to charge the mobile power supply in advance and carry an additional device that is similar to the mobile device.
  • a matching charging cable can only be used.
  • the technical problem to be solved by the present invention is to provide an electronic device connecting wire for the above-mentioned problems of mobile power supply and environmental protection.
  • the technical solution of the present invention to solve the above technical problems is to provide an electronic equipment connecting line, which includes a first connector, a second connector, a main circuit board, a plurality of rigid connection segments and a plurality of flexible connection segments, wherein a plurality of the Rigid connection segments are spaced between the first connector and the second connector in a straight line manner, and adjacent rigid connection segments are respectively connected through the flexible connection segments;
  • the main circuit board includes a charging and discharging circuit
  • at least two of the rigid connection sections include battery cells
  • the battery cells in the rigid connection sections are electrically connected to the main circuit board through first conductive cables, respectively
  • the first connector and/or the second connector are electrically connected to the main circuit board through a second conductive cable, and the first conductive cable and the second conductive cable respectively pass through at least part of the flexible connection segment.
  • the main circuit board is disposed in the first connector or the second connector; each of the rigid connection segments includes a battery unit;
  • the first connector or the second connector not provided with the main circuit board is electrically connected to the main circuit board through a second conductive cable.
  • the main circuit board is located in one of the rigid connection segments, and all other rigid connection segments except the rigid connection segment including the main circuit board include battery cells;
  • the first connector and the second connector are respectively electrically connected to the main circuit board through second conductive cables.
  • the first connector, the second connector or any one of the rigid connection segments includes a power connection board, and the power connection board is electrically connected to the main circuit board;
  • At least some of the battery cells are electrically connected to the power supply connection board through the first conductive cable, and are electrically connected to the main circuit board through the power supply connection board.
  • each of the rigid connection segments includes a housing, and the battery cells are located within the housing;
  • Both ends of each of the flexible connecting segments are respectively provided with adhesive segments, and when the flexible connecting segments are connected with the rigid connecting segments, the adhesive segments are bonded and fixed to the housing through an adhesive; or , the two ends of each flexible connecting segment are respectively provided with snaps, and when the flexible connecting segment is connected with the rigid connecting segment, the snaps are fastened and fixed to the casing.
  • a battery adapter plate is included in the rigid connection section at least partially including the battery unit, and the battery unit is electrically connected to the first conductive cable through the battery adapter plate;
  • the first connector and/or the second connector are directly electrically connected to the main circuit board via the second conductive cable and at least part of the battery adapter board; or, the first connector and/or the second connector
  • the connector is electrically connected to the main circuit board directly through the second conductive cable.
  • connection segment is connected with a flexible connection segment along the length direction of the electronic device connection line to form an active connection segment
  • each of the active connection segments includes a third connector and a fourth connector, and the third connector and the fourth connector are respectively located at two ends in the length direction of the movable connecting segment;
  • One of the third connector and the fourth connector is a connector male head, and the other is a connector female head, and the adjacent movable connection segments are inserted through the connector male head and the connector female head. Electrically connected and fixed.
  • At least part of the two ends of the rigid connecting segment in the longitudinal direction are respectively provided with fifth connectors, and at least part of the two ends of the flexible connecting segment in the longitudinal direction are respectively provided with sixth connectors;
  • One of the fifth connector and the sixth connector is a connector male head, and the other is a connector female head, and the adjacent rigid connecting sections and flexible connecting sections are connected by the connector male head and the connector.
  • the female connector of the device is plugged and electrically connected and fixed.
  • the electronic device connection line further includes a protection circuit integrated into the main circuit board, the power supply connection board or an independent circuit board, and the electronic device connection line prevents the connection between the battery cells through the protection circuit.
  • a protection circuit integrated into the main circuit board, the power supply connection board or an independent circuit board, and the electronic device connection line prevents the connection between the battery cells through the protection circuit.
  • the lengths of the first wire segments connected to the main circuit board are the same for each of the battery cells to prevent the unbalanced electrical energy among the battery cells from causing reverse charging, jumping current or reverse current between the battery cells.
  • the electronic device connection line further includes a battery management circuit integrated into the main circuit board, the power supply connection board or an independent circuit board, and the electronic device connection line is connected to each battery unit through the battery management circuit. Perform charge-discharge balance control.
  • At least two of the first connector, the second connector and the plurality of rigid connection segments comprise magnetic material.
  • the electronic equipment connecting line of the present invention connects the first connector and the second connector through a rigid connecting section and a flexible connecting section, and a battery unit is arranged in the rigid connecting section, so that the electronic equipment connecting line can pass through the battery in the rigid connecting section.
  • the unit enables electrical energy storage and release to charge electronic devices without connecting a power bank or power adapter.
  • the battery segments are arranged in a straight line, it is convenient to expand the battery capacity and reduce the manufacturing cost.
  • FIG. 1 is a schematic diagram of an electronic device connecting line provided by a first embodiment of the present invention
  • Fig. 2 is the cross-sectional structure schematic diagram of the electronic equipment connecting line along the line A-A in Fig. 1;
  • Fig. 3 is the partial enlarged schematic diagram of B part of the electronic equipment connecting line in Fig. 2;
  • connection structure of a rigid connection segment and a flexible connection segment
  • FIG. 6 is a schematic diagram of an electronic device connection line provided by a second embodiment of the present invention.
  • FIG. 7 is a schematic diagram of an electronic device connection line provided by a third embodiment of the present invention.
  • FIG. 8 is a schematic diagram of an electronic device connecting line provided by a fourth embodiment of the present invention.
  • FIG. 9 is a schematic diagram of an electronic device connection line provided by a fifth embodiment of the present invention.
  • Figure 10 is a schematic diagram of a single active connection segment in the electronic device connection line of Figure 9;
  • FIG. 11 is a schematic diagram of an electronic device connection line provided by a sixth embodiment of the present invention.
  • FIG. 12 is a schematic diagram of an electronic device connection line provided by a seventh embodiment of the present invention.
  • the electronic device connecting line of the present invention can be used to connect electronic devices (such as smart phones) and power adapters to charge the electronic devices.
  • the electronic device connecting line includes a first connector, a second connector, a main circuit board, a plurality of rigid connection segments and a plurality of flexible connection segments, and the plurality of rigid connection segments are arranged at intervals between the first connector and the second connector in a straight line manner. Between the two connectors, and between the adjacent rigid connection segments, the flexible connection segments are respectively connected.
  • the above-mentioned rigid connecting segment refers to the part of the electronic device connecting line that cannot be bent or curled
  • the flexible connecting segment refers to the part that can be bent or curled on the electronic device connecting line.
  • the above-mentioned main circuit board includes a charging and discharging circuit
  • at least two rigid connection sections include battery cells
  • each battery cell can be composed of a single battery, and can also be composed of a plurality of single cells connected in series, in parallel or in series and parallel
  • the battery cells in all rigid connection sections are electrically connected to the main circuit board through first conductive cables, respectively, and the first connector and/or the second connector are electrically connected to the main circuit board through second conductive cables.
  • a conductive cable and a second conductive cable respectively pass through at least part of the flexible connecting section.
  • the battery cells in the rigid connection section can be connected in series, in parallel, or a combination of both, so as to meet the power supply requirements of electronic equipment.
  • a plurality of rigid connection segments are connected between the first connector and the second connector through the flexible connection segments, so that the electronic device connecting line can realize electric energy storage and release through the battery cells in the plurality of rigid connection segments, so that the connection movement is not required
  • the power source or the power adapter can charge the electronic device, or connect the power source to charge the electronic device connection cable while charging the electronic device.
  • each rigid connection segment is also arranged in the same linear direction, that is, the central axis or long side of the rigid connection segment is parallel to the length direction of the above-mentioned electronic equipment connection line, so that the electronic equipment is connected.
  • the diameter of the wire is not much different from that of an ordinary data wire or a power wire.
  • the electronic device connection wire can be curled and folded, which is convenient for storage and carrying.
  • FIG. 1-2 it is a schematic diagram of an electronic device connecting line provided by the first embodiment of the present invention.
  • the electronic device connection line of this embodiment includes a first connector 11, a second connector 12, a plurality of rigid connection segments 13 and a plurality of flexible connection segments 14, and the plurality of rigid connection segments 13 and the plurality of flexible connection segments 14 are arranged in a straight line
  • the strips are arranged (along the length of the rigid connecting segments 13 ) and are connected between the first connectors 11 and the second connectors 12 at intervals, and between the adjacent rigid connecting segments 13 , the first connectors 11 and the adjacent
  • the rigid connection segments 13 and the second connector 12 and the adjacent rigid connection segments 13 are respectively connected by flexible connection segments 14, thereby forming a linear structure similar to the existing data line.
  • the rigid connection segment 13 and other rigid connection segments 13 are connected in sequence through the flexible connection segment 14 in the direction of the length of the rigid connection segment 13, and the first connector 11 or the second connection 12 and the adjacent rigid connection segment 12 are respectively or partially connected. It is integrated or rigidly connected to form a linear structure similar to the existing data line.
  • the above-mentioned first connector 11 is used to connect electronic devices such as smart phones, for example, the first connector 11 may be a Micro USB interface connector, Mini USB interface connector, Type-C interface connector, Lightning interface connector, etc.
  • the second connector 12 is used to connect a power adapter, a personal computer, a mobile power supply, and the like.
  • the second connector 12 can be a standard USB or Type-C interface connector.
  • the first connector 11 or the second connector 12 is provided with a main circuit board, and the main circuit board includes a charging and discharging circuit.
  • the main circuit board may also include other circuits, such as filter circuits. , signal amplifier circuit, etc.
  • at least two rigid connection segments 13 of the plurality of rigid connection segments 13 include battery cells 132 , and all battery cells 132 are electrically connected to the main circuit board through the first conductive cables 142 respectively. connect.
  • the first connector 11 and the second connector 12 are also electrically connected to the main circuit board respectively.
  • the second connector can directly connect its conductive contacts Soldered with the main circuit board, the first connector 11 is electrically connected to the main circuit board through the second conductive cable 143 .
  • the first conductive cable 142 and the second conductive cable 143 may be wrapped together by an insulating sheath 141, or the first conductive cable 142 and the second conductive cable 143 may also be covered by glue They are bonded together to avoid loosening of the corresponding connection points on the first conductive cable 142 and the second conductive cable 143 due to entanglement.
  • each rigid connection section 13 including a battery unit 132 further includes a battery adapter plate 131 , and the two electrodes of the battery unit 132 in the rigid connection section 13 They are respectively electrically connected to the battery adapter plate 131 (for example, soldered to the battery adapter plate 131 through wires), and the first conductive cable 142 connected to the main circuit board 15 is also welded to the battery adapter plate 131 , so that the battery cells 132 can be connected to the battery adapter plate 131 . It is electrically connected to the main circuit board 15 via the battery adapter board 131 and the first conductive cable.
  • the two electrodes of the battery unit 132 can also be directly electrically connected to the main circuit board 15 through the first conductive cable 142 .
  • the second conductive cable 143 for electrically connecting the main circuit board and the first connector 11 can also be connected to the main circuit board via at least part of the battery adapter board 131 respectively. It is electrically connected to the first connector 11 , as shown in FIG. 7 .
  • the second conductive cable 143 can also be directly electrically connected to the main circuit board 15 and the first connector 11 , as shown in FIG. 6 .
  • the charging and discharging circuit on the main circuit board 15 passes through a plurality of The battery pack composed of the battery unit 132 supplies power, and the charging and discharging circuit boosts the voltage output by the battery pack and outputs a charging current to the smartphone, that is, the smartphone is charged through the battery unit 132; when the second connector 12 is connected to the power adapter, the mobile phone
  • the charging and discharging circuit of the main circuit board 15 is powered by the power adapter, mobile power supply or personal computer connected to the second connector 12, and the voltage is converted through the charging and discharging circuit.
  • the charging current is output to the battery pack composed of a plurality of battery units 132, that is, the battery unit 132 is charged by the power adapter, mobile power supply or personal computer connected by the second connector 12; when the first connector 11 is connected to the smartphone ( or other electronic equipment), and when the second connector 12 is connected to a power adapter, a mobile power source or a personal computer, the charging and discharging circuit of the main circuit board 15 is powered by the power adapter, mobile power source or personal computer connected to the second connector 12,
  • the distributed current is monitored and managed by the charging and discharging circuit, so as to output the charging current to the smart phone and the battery pack composed of a plurality of battery cells 132 simultaneously, that is, to charge the smart phone and the battery cells 132 at the same time.
  • the above-mentioned electronic equipment connecting line is connected to the first connector 11, the second connector 12 and the plurality of rigid connecting sections 13 through the flexible connecting section 14, so that the electronic equipment connecting line can realize electric energy storage, so that there is no need to connect a mobile power supply or a power adapter You can charge electronic devices.
  • the plurality of rigid connection segments 13 and the flexible connection segments 14 are arranged in a straight line, and the adjacent rigid connection segments 13 are connected by the flexible connection segments 14, the entire electronic device connection line can be bent or folded, which is convenient for storage. .
  • a magnetic ring 135 can also be added to at least part of the rigid connection section 13 of the above-mentioned electronic equipment connection line (in order to reduce the wire diameter of the electronic equipment connection line, the battery adapter plate 131 in each rigid connection section 13 , the battery unit 132 and the magnetic ring 135 can be arranged along the length direction of the electronic device connection line), and the first conductive cable 142 and the second conductive cable 143 drawn from the flexible connection section 14 pass through the magnetic ring 135 and the battery transfer
  • the board 131 is electrically connected, so that the clutter can be filtered through the magnetic ring 135 and the current quality can be improved.
  • each battery segment 13 may include a plurality of magnetic rings 135 , for example, the magnetic rings 135 are respectively provided at the head end and the tail end of the battery segment.
  • the above-mentioned magnetic ring 135 can also be replaced by blocks of magnetic material, and at least two of the first connector 11 , the second connector 12 and the plurality of rigid connecting segments 13 include blocks of magnetic material, such as two or Each rigid connection segment 13 includes a magnetic material block, so that the electronic device connecting wire can be folded and stored through the magnetic attraction cooperation between the magnetically attracted material blocks.
  • the above-mentioned electronic device connection line may further include a third conductive cable (not shown in the figure), when the first connector 11 is connected to a smartphone (or other electronic device), and the second connector 12 is connected to a personal
  • the electronic device connecting line can also realize data transmission between the smart phone and the personal computer through the third conductive cable.
  • the magnetic ring 135 can reduce the error rate of the data line during data transmission.
  • each rigid connecting segment 13 includes a casing 134 , and the battery unit 132 is located in the casing 134 , and the casing 134 can have a certain strength, thereby reducing the size of the battery The unit 132 is subjected to an external force.
  • each flexible connection segment 14 There are clips 141 respectively, the clips 141 are fixed with the first conductive cable 142 and the second conductive cable 143 passing through the flexible connecting section 14, and when the flexible connecting section 14 is connected with the rigid connecting section 13, the clipping 141 is snap-fastened to the housing 134, through this structure, the axial pulling force of the first conductive cable 142 and the second conductive cable 143 can be reduced, and the tension of the first conductive cable 142 and the second conductive cable 143 Electrical connection points (such as soldering points) loose.
  • the above-mentioned buckles 141 can be replaced by adhesive segments, that is, both ends of each flexible connection segment 14 have adhesive segments respectively, and when the flexible connection segment 14 is connected to the rigid connection segment 13 , the bonding segment is fixed to the exterior or interior of the housing 134 by adhesive bonding.
  • the outer shell 134 can be formed by a tubular casing, or formed by snapping together an upper casing and a lower casing.
  • the battery adapter plate 131 , the battery unit 132 (and the magnetic ring) are all located in the cavity formed by the snapping of the upper shell and the lower shell.
  • the above-mentioned electronic device connecting wire further includes an insulating wrapping layer, and the insulating wrapping layer wraps the rigid connection section 13 and the rigid connection section 13 between the first connector 11 and the second connector 12 .
  • the flexible connecting section 14 makes the electronic equipment connecting wires have the same thickness, which increases the overall strength of the electronic equipment connecting wires while improving product consistency.
  • each rigid connection segment 13 of the electronic device connection line is connected with a flexible connection segment 14 along the length direction of the electronic device connection line to form an active connection segment.
  • An articulating segment includes a third connector 136 and a fourth connector 144, and the third connector 136 and the fourth connector 144 are respectively located at two ends in the length direction of the articulating segment.
  • One of the above-mentioned third connector and 136 fourth connector 144 is a male connector, and the other is a female connector.
  • the third connector 136 is a female connector
  • the fourth connector is a male connector.
  • the adjacent movable connection segments are electrically connected and fixed by plugging the connector male head and the connector female head.
  • the battery cells 132 of each movable connection section and the battery cells 132 of other movable connection sections are connected in parallel to the main circuit board through the first conductive cable 142 and the battery adapter board 131 .
  • part of the rigid connection segment 13 and the flexible connection segment 14 may also form an active connection segment, while other parts are connected by means of the corresponding embodiments in FIGS. 1-7 .
  • the free expansion of the movable connection section can be realized, that is, the free expansion of the electric capacity of the connecting line of the electronic equipment can be realized.
  • the user can carry a corresponding number of battery assemblies according to the length of going out.
  • the first connector 11 can be integrated with a flexible connecting section 14, and the free section of the flexible connecting section 14 is a connector male, so that the first connector 11 can be plugged with the movable connecting section fixed.
  • the second connector 12 may be integrated with a flexible connecting segment 14 .
  • fifth connectors 137 can also be provided at the two ends in the length direction of each rigid connecting segment 13 of the electronic device connecting line, respectively, and the two ends in the length direction of each flexible connecting segment 14 are respectively
  • a sixth connector 145 is provided.
  • One of the fifth connector 137 and the sixth connector 145 is a connector male, the other is a connector female, and the adjacent rigid connecting sections 13 and flexible connecting sections 14 pass through the connector male and The female connector of the connector is plugged and electrically connected and fixed.
  • part of the rigid connection segment 13 and part of the flexible connection segment 14 can also be flexibly connected through the fifth connector 137 and the sixth connector 145 , while other parts can be connected by means of the corresponding embodiments in FIGS. 1-7 . connected.
  • the electronic device connection line includes a first connector 21 , a second connector 22 , a main circuit board 25 , a plurality of rigid The connecting section 23 and the plurality of flexible connecting sections 24, wherein the main circuit board 25 is disposed on one of the rigid connecting sections 23, and the other rigid connecting sections 23 respectively include battery cells.
  • a plurality of rigid connection segments 23 and a plurality of flexible connection segments 24 are connected in sequence between the first connector 21 and the second connector 22 in a linear arrangement (along the length direction of the rigid connection segment 23 ), and adjacent The rigid connection segments 23, the first connector 21 and the adjacent rigid connection segments 23, and the second connector 22 and the adjacent rigid connection segments 23 are respectively connected by flexible connection segments 24, thereby forming a There is a linear structure similar to the data line.
  • the main circuit board 25 can be arranged in the center of the length direction of the connecting wire of the electronic device.
  • the main circuit board 25 can also be arranged in a rigid connection section 23 closest to the first connector 21 , or in a rigid connection section 23 closest to the second connector 22 .
  • the above-mentioned electronic device connection line may further include a power supply connection board, and the power supply connection board 26 and the main circuit board 25 may be arranged in the same rigid connection section 23, and all rigid connection sections including battery cells.
  • the batteries in 23 are respectively electrically connected to the power connection board 26 through the first conductive cable, and are electrically connected to the main circuit board 25 via the power connection board 26 .
  • the power connection board 26 can be parallel to the main circuit board 25, and the surfaces of the power connection board 26 and the main circuit board 25 can be respectively provided with plug terminals perpendicular to the surface, and the power connection board 26 and the main circuit board 25 are simultaneously electrically connected and mechanically fixed through plug-in terminals.
  • the above-mentioned power connection plate 26 can also be arranged in the first connector 21, the second connector 22 or any other rigid connection section 23, for example, in the same rigid connection section as the battery unit, or in a rigid connection section alone.
  • the above-mentioned electronic equipment connection line may further include a protection circuit integrated into the main circuit board 25, the power supply connection board 26, the battery adapter board or an independent circuit board, and the electronic equipment connection line can prevent the electric energy between the battery cells through the protection circuit. Current reverse charging, jumping or reverse current caused by unbalance.
  • the protection circuit itself belongs to the conventional technology in the art, and will not be repeated here.
  • the lengths of the first wire segments for connecting each battery unit can also be substantially the same, so as to prevent current reverse charging, jumping or reverse current caused by the imbalance of electric energy among the battery units.
  • the above-mentioned electronic equipment connection line may further include a battery management circuit integrated into the main circuit board, the power supply connection board or an independent circuit board, and the electronic equipment connection line performs charge and discharge balance control of each battery unit through the battery management circuit.
  • the battery management circuit itself belongs to the conventional technology in the art, and will not be repeated here.

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  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Charge And Discharge Circuits For Batteries Or The Like (AREA)
  • Battery Mounting, Suspending (AREA)

Abstract

The present invention provides an electronic device connection line, comprising a first connector, a second connector, a main circuit board, a plurality of rigid connection sections, and a plurality of flexible connection sections. The plurality of rigid connection sections is arranged, between the first connector and the second connector, at intervals in a straight line; the main circuit board comprises a charge/discharge circuit; at least two of the rigid connection sections comprise battery units, and the battery units in the rigid connection sections are respectively electrically connected to the main circuit board by means of a first conductive cable; the first connector and/or the second connector is electrically connected to the main circuit board by means of a second conductive cable; and the first conductive cable and the second conductive cable respectively pass through at least some of the flexible connection sections. The electronic device connection line of the present invention can be bent and folded, and charges an electronic device without connecting to a mobile power source or a power adapter.

Description

电子设备连接线Electronic equipment cable 技术领域technical field
本发明涉及电子技术领域,更具体地说,涉及一种电子设备连接线。The present invention relates to the field of electronic technology, and more particularly, to a connecting wire for electronic equipment.
背景技术Background technique
智能手机、平板电脑等电子设备已成为人们生活必不可少的组成部分。并且,随着电子技术的迅速发展,电子设备更新日益加快,逐渐趋向功能全面、体积小、质量轻、触摸式操作等方向发展,这使得这些电子设备的电池容量往往非常有限,例如人们常用的蓝牙耳机、智能手机等。Electronic devices such as smartphones and tablet computers have become an indispensable part of people's lives. In addition, with the rapid development of electronic technology, the update of electronic equipment is accelerating, and it gradually develops in the direction of comprehensive functions, small size, light weight, and touch operation, which makes the battery capacity of these electronic equipment often very limited. Bluetooth headsets, smartphones, etc.
为了环保节能,减少充电宝使用,同时解决用户在户外时,智能手机电池电量用尽而又急需使用智能手机的情况,出现了移动电源,在智能手机电量不足时,可使用数据线连接移动电源为智能手机充电。然而,在实际生活中,移动电源虽然能够在电子设备电量不足时为其充电,但移动电源的体积往往较大,不便携带,而且用户需要事先为移动电源进行充电并另外携带一条和移动设备相匹配的充电连接线才能使用。In order to protect the environment and save energy, reduce the use of power bank, and solve the situation that the battery of the smartphone is exhausted and the smartphone is urgently needed when the user is outdoors, a mobile power supply appears. When the power of the smartphone is insufficient, the data cable can be used to connect the mobile power supply. Charge your smartphone. However, in real life, although the mobile power supply can be charged when the power of the electronic device is insufficient, the mobile power supply is often bulky and inconvenient to carry, and the user needs to charge the mobile power supply in advance and carry an additional device that is similar to the mobile device. A matching charging cable can only be used.
技术问题technical problem
本发明解决的技术问题在于,针对上述移动电源及环境保护的问题,提供一种电子设备连接线。The technical problem to be solved by the present invention is to provide an electronic device connecting wire for the above-mentioned problems of mobile power supply and environmental protection.
技术解决方案technical solutions
本发明解决上述技术问题的技术方案是,提供一种电子设备连接线,包括第一连接器、第二连接器、主电路板、多个刚性连接段和多个柔性连接段,多个所述刚性连接段按直线条方式间隔排列于所述第一连接器和第二连接器之间,且相邻的刚性连接段之间分别通过所述柔性连接段相连;The technical solution of the present invention to solve the above technical problems is to provide an electronic equipment connecting line, which includes a first connector, a second connector, a main circuit board, a plurality of rigid connection segments and a plurality of flexible connection segments, wherein a plurality of the Rigid connection segments are spaced between the first connector and the second connector in a straight line manner, and adjacent rigid connection segments are respectively connected through the flexible connection segments;
所述主电路板包括充放电电路,至少两个所述刚性连接段包含有电池单元,且所述刚性连接段内的电池单元分别通过第一导电线缆与所述主电路板电性连接,所述第一连接器和/或第二连接器通过第二导电线缆与所述主电路板电性连接,所述第一导电线缆和第二导电线缆分别穿过至少部分所述柔性连接段。The main circuit board includes a charging and discharging circuit, at least two of the rigid connection sections include battery cells, and the battery cells in the rigid connection sections are electrically connected to the main circuit board through first conductive cables, respectively, The first connector and/or the second connector are electrically connected to the main circuit board through a second conductive cable, and the first conductive cable and the second conductive cable respectively pass through at least part of the flexible connection segment.
优选地,所述主电路板设置于所述第一连接器或第二连接器内;每一所述刚性连接段包括电池单元;Preferably, the main circuit board is disposed in the first connector or the second connector; each of the rigid connection segments includes a battery unit;
未设置所述主电路板的第一连接器或第二连接器通过第二导电线缆与所述主电路板电性连接。The first connector or the second connector not provided with the main circuit board is electrically connected to the main circuit board through a second conductive cable.
优选地,所述主电路板位于其中一个刚性连接段内,除了包含有主电路板的刚性连接段的其他所有刚性连接段包括有电池单元;Preferably, the main circuit board is located in one of the rigid connection segments, and all other rigid connection segments except the rigid connection segment including the main circuit board include battery cells;
所述第一连接器和第二连接器分别通过第二导电线缆与所述主电路板电性连接。The first connector and the second connector are respectively electrically connected to the main circuit board through second conductive cables.
优选地,所述第一连接器、第二连接器或任一所述刚性连接段包含有电源连接板,且所述电源连接板与所述主电路板电性连接;Preferably, the first connector, the second connector or any one of the rigid connection segments includes a power connection board, and the power connection board is electrically connected to the main circuit board;
至少部分所述电池单元通过所述第一导电线缆与所述电源连接板电性连接,并经由所述电源连接板与所述主电路板电性连接。At least some of the battery cells are electrically connected to the power supply connection board through the first conductive cable, and are electrically connected to the main circuit board through the power supply connection board.
优选地,每一所述刚性连接段包括外壳,且所述电池单元位于所述外壳内;Preferably, each of the rigid connection segments includes a housing, and the battery cells are located within the housing;
每一所述柔性连接段的两端分别具有粘结段,且在所述柔性连接段与所述刚性连接段相连时,所述粘结段通过粘结剂粘合固定到所述外壳;或者,每一所述柔性连接段的两端分别具有卡扣,且在所述柔性连接段与所述刚性连接段相连时,所述卡扣卡接固定到所述外壳。Both ends of each of the flexible connecting segments are respectively provided with adhesive segments, and when the flexible connecting segments are connected with the rigid connecting segments, the adhesive segments are bonded and fixed to the housing through an adhesive; or , the two ends of each flexible connecting segment are respectively provided with snaps, and when the flexible connecting segment is connected with the rigid connecting segment, the snaps are fastened and fixed to the casing.
优选地,至少部分包含有电池单元的刚性连接段内包括电池转接板,且所述电池单元经由所述电池转接板与第一导电线缆电性连接;Preferably, a battery adapter plate is included in the rigid connection section at least partially including the battery unit, and the battery unit is electrically connected to the first conductive cable through the battery adapter plate;
所述第一连接器和/或第二连接器直接经由第二导电线缆以及至少部分电池转接板与所述主电路板电性连接;或者,所述第一连接器和/或第二连接器直接经由第二导电线缆与所述主电路板电性连接。The first connector and/or the second connector are directly electrically connected to the main circuit board via the second conductive cable and at least part of the battery adapter board; or, the first connector and/or the second connector The connector is electrically connected to the main circuit board directly through the second conductive cable.
优选地,至少部分所述刚性连接段与一个柔性连接段沿所述电子设备连接线的长度方向相连构成一个活动连接段,每一所述活动连接段包括第三连接器和第四连接器,且所述第三连接器和第四连接器分别位于所述活动连接段的长度方向的两个端部;Preferably, at least part of the rigid connection segment is connected with a flexible connection segment along the length direction of the electronic device connection line to form an active connection segment, and each of the active connection segments includes a third connector and a fourth connector, and the third connector and the fourth connector are respectively located at two ends in the length direction of the movable connecting segment;
所述第三连接器和第四连接器中的一个为连接器公头,另一个为连接器母头,且相邻的活动连接段之间通过所述连接器公头和连接器母头插接电性连接并固定。One of the third connector and the fourth connector is a connector male head, and the other is a connector female head, and the adjacent movable connection segments are inserted through the connector male head and the connector female head. Electrically connected and fixed.
优选地,至少部分所述刚性连接段的长度方向的两个端部分别设有第五连接器,至少部分所述柔性连接段的长度方向的两个端部分别设有第六连接器;Preferably, at least part of the two ends of the rigid connecting segment in the longitudinal direction are respectively provided with fifth connectors, and at least part of the two ends of the flexible connecting segment in the longitudinal direction are respectively provided with sixth connectors;
所述第五连接器和第六连接器中的一个为连接器公头,另一个为连接器母头,且相邻的刚性连接段和柔性连接段之间通过所述连接器公头和连接器母头插接电性连接并固定。One of the fifth connector and the sixth connector is a connector male head, and the other is a connector female head, and the adjacent rigid connecting sections and flexible connecting sections are connected by the connector male head and the connector. The female connector of the device is plugged and electrically connected and fixed.
优选地,所述电子设备连接线还包括集成到所述主电路板、电源连接板或一个独立的电路板的保护电路,且所述电子设备连接线通过所述保护电路阻止各电池单元间的电能不平衡造成的电池单元之间的电流反充、蹿流或倒流;或者,Preferably, the electronic device connection line further includes a protection circuit integrated into the main circuit board, the power supply connection board or an independent circuit board, and the electronic device connection line prevents the connection between the battery cells through the protection circuit. Current reverse charging, jumping or reverse current between battery cells caused by power imbalance; or,
各个所述电池单元通过使连接到所述主电路板的第一导线段的长度相同阻止各电池单元间的电能不平衡造成电池单元之间的反充、蹿流或倒流。The lengths of the first wire segments connected to the main circuit board are the same for each of the battery cells to prevent the unbalanced electrical energy among the battery cells from causing reverse charging, jumping current or reverse current between the battery cells.
优选地,所述电子设备连接线还包括集成到所述主电路板、电源连接板或一个独立的电路板的电池管理电路,且所述电子设备连接线通过所述电池管理电路对各个电池单元进行充放电均衡控制。Preferably, the electronic device connection line further includes a battery management circuit integrated into the main circuit board, the power supply connection board or an independent circuit board, and the electronic device connection line is connected to each battery unit through the battery management circuit. Perform charge-discharge balance control.
优选地,所述第一连接器、第二连接器及多个刚性连接段中的至少两个包括磁性材料。Preferably, at least two of the first connector, the second connector and the plurality of rigid connection segments comprise magnetic material.
有益效果beneficial effect
本发明的电子设备连接线,通过刚性连接段和柔性连接段连接第一连接器、第二连接器,并在刚性连接段内设置电池单元,使得电子设备连接线可通过刚性连接段内的电池单元实现电能储存和释放,从而无需连接移动电源或电源适配器即为电子设备充电。并且,由于电池段按直线排列方式设置,便于电池容量扩充,降低生产制造成本。The electronic equipment connecting line of the present invention connects the first connector and the second connector through a rigid connecting section and a flexible connecting section, and a battery unit is arranged in the rigid connecting section, so that the electronic equipment connecting line can pass through the battery in the rigid connecting section. The unit enables electrical energy storage and release to charge electronic devices without connecting a power bank or power adapter. Moreover, since the battery segments are arranged in a straight line, it is convenient to expand the battery capacity and reduce the manufacturing cost.
附图说明Description of drawings
图1是本发明第一实施例提供的电子设备连接线的示意图;1 is a schematic diagram of an electronic device connecting line provided by a first embodiment of the present invention;
图2是图1中电子设备连接线沿A-A线的剖面结构示意图;Fig. 2 is the cross-sectional structure schematic diagram of the electronic equipment connecting line along the line A-A in Fig. 1;
图3是图2中电子设备连接线的B部局部放大示意图;Fig. 3 is the partial enlarged schematic diagram of B part of the electronic equipment connecting line in Fig. 2;
图4是刚性连接段与柔性连接段连接结构的示意图;4 is a schematic diagram of the connection structure of the rigid connecting section and the flexible connecting section;
图5是刚性连接段与柔性连接段的另一连接结构的示意图;5 is a schematic diagram of another connection structure of a rigid connection segment and a flexible connection segment;
图6是本发明第二实施例提供的电子设备连接线的示意图;6 is a schematic diagram of an electronic device connection line provided by a second embodiment of the present invention;
图7是本发明第三实施例提供的电子设备连接线的示意图;7 is a schematic diagram of an electronic device connection line provided by a third embodiment of the present invention;
图8是本发明第四实施例提供的电子设备连接线的示意图;8 is a schematic diagram of an electronic device connecting line provided by a fourth embodiment of the present invention;
图9是本发明第五实施例提供的电子设备连接线的示意图;9 is a schematic diagram of an electronic device connection line provided by a fifth embodiment of the present invention;
图10是图9的电子设备连接线中单个活动连接段的示意图;Figure 10 is a schematic diagram of a single active connection segment in the electronic device connection line of Figure 9;
图11是本发明第六实施例提供的电子设备连接线的示意图;11 is a schematic diagram of an electronic device connection line provided by a sixth embodiment of the present invention;
图12是本发明第七实施例提供的电子设备连接线的示意图。FIG. 12 is a schematic diagram of an electronic device connection line provided by a seventh embodiment of the present invention.
本发明的实施方式Embodiments of the present invention
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。In order to make the objectives, technical solutions and advantages of the present invention clearer, the present invention will be further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are only used to explain the present invention, but not to limit the present invention.
本发明的电子设备连接线可用于连接电子设备(例如智能手机)及电源适配器,以对电子设备进行充电。该电子设备连接线包括第一连接器、第二连接器、主电路板、多个刚性连接段和多个柔性连接段,多个刚性连接段按直线条方式间隔排列于第一连接器和第二连接器之间,且相邻的刚性连接段之间、分别通过柔性连接段相连。上述刚性连接段是指电子设备连接线上不可弯折或卷曲的部分,柔性连接段则指电子设备连接线上可弯折或卷曲的部分。The electronic device connecting line of the present invention can be used to connect electronic devices (such as smart phones) and power adapters to charge the electronic devices. The electronic device connecting line includes a first connector, a second connector, a main circuit board, a plurality of rigid connection segments and a plurality of flexible connection segments, and the plurality of rigid connection segments are arranged at intervals between the first connector and the second connector in a straight line manner. Between the two connectors, and between the adjacent rigid connection segments, the flexible connection segments are respectively connected. The above-mentioned rigid connecting segment refers to the part of the electronic device connecting line that cannot be bent or curled, and the flexible connecting segment refers to the part that can be bent or curled on the electronic device connecting line.
上述主电路板包括充放电电路,至少两个刚性连接段包含有电池单元,每一电池单元可由单体电池构成,也可由多个串联、并联或串并联结合的多个单体电池构成,且所有刚性连接段内的电池单元分别通过第一导电线缆与主电路板电性连接,第一连接器和/或第二连接器通过第二导电线缆与主电路板电性连接,上述第一导电线缆和第二导电线缆分别穿过至少部分所述柔性连接段。具体地,刚性连接段内的电池单元可以通过串联、并联或两者相结合,从而满足电子设备供电需求。The above-mentioned main circuit board includes a charging and discharging circuit, at least two rigid connection sections include battery cells, each battery cell can be composed of a single battery, and can also be composed of a plurality of single cells connected in series, in parallel or in series and parallel, and The battery cells in all rigid connection sections are electrically connected to the main circuit board through first conductive cables, respectively, and the first connector and/or the second connector are electrically connected to the main circuit board through second conductive cables. A conductive cable and a second conductive cable respectively pass through at least part of the flexible connecting section. Specifically, the battery cells in the rigid connection section can be connected in series, in parallel, or a combination of both, so as to meet the power supply requirements of electronic equipment.
通过柔性连接段将多个刚性连接段连接在第一连接器和第二连接器之间,使得电子设备连接线可通过多个刚性连接段内的电池单元实现电能储存和释放,从而无需连接移动电源或电源适配器即可为电子设备充电,或连接电源,在给电子设备充电的同时给该电子设备连接线充电。A plurality of rigid connection segments are connected between the first connector and the second connector through the flexible connection segments, so that the electronic device connecting line can realize electric energy storage and release through the battery cells in the plurality of rigid connection segments, so that the connection movement is not required The power source or the power adapter can charge the electronic device, or connect the power source to charge the electronic device connection cable while charging the electronic device.
并且,多个刚性连接段按直线条排列时,每一刚性连接段也按同一直线方向设置,即刚性连接段的中心轴或长边平行于上述电子设备连接线的长度方向,使得电子设备连接线与普通数据线或电源线的直径相差不大,同时由于柔性连接段的存在,使得电子设备连接线可卷曲和折叠,便于收纳和携带。Moreover, when a plurality of rigid connection segments are arranged in a straight line, each rigid connection segment is also arranged in the same linear direction, that is, the central axis or long side of the rigid connection segment is parallel to the length direction of the above-mentioned electronic equipment connection line, so that the electronic equipment is connected. The diameter of the wire is not much different from that of an ordinary data wire or a power wire. At the same time, due to the existence of the flexible connection section, the electronic device connection wire can be curled and folded, which is convenient for storage and carrying.
如图1-2所示,是本发明第一实施例提供的电子设备连接线的示意图。本实施例的电子设备连接线包括第一连接器11、第二连接器12、多个刚性连接段13和多个柔性连接段14,多个刚性连接段13和多个柔性连接段14按直线条排列方式(沿刚性连接段13的长度方向)依次间隔连接在第一连接器11和第二连接器12之间,且相邻的刚性连接段13之间、第一连接器11和相邻的刚性连接段13之间、第二连接器12与相邻的刚性连接段13之间分别通过柔性连接段14连接,从而形成与现有数据线类似的直线条状结构。或刚性连接段13与其他的刚性连接段13通过柔性连接段14按刚性连接段13长度方法方向依次连接,第一连接器11或第二连接12与相邻的刚性连接段12分别或部分合为一体或刚性连接,从而形成与现有数据线类似的直线条状结构。As shown in FIG. 1-2 , it is a schematic diagram of an electronic device connecting line provided by the first embodiment of the present invention. The electronic device connection line of this embodiment includes a first connector 11, a second connector 12, a plurality of rigid connection segments 13 and a plurality of flexible connection segments 14, and the plurality of rigid connection segments 13 and the plurality of flexible connection segments 14 are arranged in a straight line The strips are arranged (along the length of the rigid connecting segments 13 ) and are connected between the first connectors 11 and the second connectors 12 at intervals, and between the adjacent rigid connecting segments 13 , the first connectors 11 and the adjacent The rigid connection segments 13 and the second connector 12 and the adjacent rigid connection segments 13 are respectively connected by flexible connection segments 14, thereby forming a linear structure similar to the existing data line. Or the rigid connection segment 13 and other rigid connection segments 13 are connected in sequence through the flexible connection segment 14 in the direction of the length of the rigid connection segment 13, and the first connector 11 or the second connection 12 and the adjacent rigid connection segment 12 are respectively or partially connected. It is integrated or rigidly connected to form a linear structure similar to the existing data line.
具体地,上述第一连接器11用于连接智能手机等电子设备,例如,该第一连接器11可以为Micro USB接口连接器、Mini USB接口连接器、Type-C接口连接器、Lightning接口连接器等。第二连接器12用于连接电源适配器、个人电脑、移动电源等,例如,该第二连接器12可以为标准USB或Type-C接口连接器等。Specifically, the above-mentioned first connector 11 is used to connect electronic devices such as smart phones, for example, the first connector 11 may be a Micro USB interface connector, Mini USB interface connector, Type-C interface connector, Lightning interface connector, etc. The second connector 12 is used to connect a power adapter, a personal computer, a mobile power supply, and the like. For example, the second connector 12 can be a standard USB or Type-C interface connector.
在本实施例中,上述第一连接器11或第二连接器12内设有主电路板,该主电路板包括充放电电路,当然,该主电路板上还可包括其他电路,例如滤波电路、信号放大电路等。同时,结合图2-5所示,上述多个刚性连接段13中的至少两个刚性连接段13包括电池单元132,且所有电池单元132分别通过第一导电线缆142与主电路板电性连接。相应地,第一连接器11和第二连接器12也分别与主电路板电性连接,具体地,当主电路板位于第二连接器12时,该第二连接器可直接将其导电触片与主电路板焊接在一起,第一连接器11则通过第二导电线缆143与主电路板电性连接。并且,在各个柔性连接段处,第一导电线缆142和第二导电线缆143可通过一个绝缘皮141包裹在一起,或者第一导电线缆142和第二导电线缆143也可通过胶水粘接在一起,以避免因缠绕而导致第一导电线缆142和第二导电线缆143上对应连接点松脱。In this embodiment, the first connector 11 or the second connector 12 is provided with a main circuit board, and the main circuit board includes a charging and discharging circuit. Of course, the main circuit board may also include other circuits, such as filter circuits. , signal amplifier circuit, etc. Meanwhile, with reference to FIGS. 2-5 , at least two rigid connection segments 13 of the plurality of rigid connection segments 13 include battery cells 132 , and all battery cells 132 are electrically connected to the main circuit board through the first conductive cables 142 respectively. connect. Correspondingly, the first connector 11 and the second connector 12 are also electrically connected to the main circuit board respectively. Specifically, when the main circuit board is located at the second connector 12, the second connector can directly connect its conductive contacts Soldered with the main circuit board, the first connector 11 is electrically connected to the main circuit board through the second conductive cable 143 . Moreover, at each flexible connection section, the first conductive cable 142 and the second conductive cable 143 may be wrapped together by an insulating sheath 141, or the first conductive cable 142 and the second conductive cable 143 may also be covered by glue They are bonded together to avoid loosening of the corresponding connection points on the first conductive cable 142 and the second conductive cable 143 due to entanglement.
结合图4-7所示,在本发明的一个实施例中,每一包含有电池单元132的刚性连接段13还包括电池转接板131,该刚性连接段13内电池单元132的两个电极分别与电池转接板131电性连接(例如通过导线焊接到电池转接板131),且连接主电路板15的第一导电线缆142也焊接到电池转接板131,从而电池单元132可经由电池转接板131与第一导电线缆与主电路板15电性连接。当然,在实际应用中,电池单元132的两个电极也可直接通过第一导电线缆142与主电路板15电性连接。4-7 , in one embodiment of the present invention, each rigid connection section 13 including a battery unit 132 further includes a battery adapter plate 131 , and the two electrodes of the battery unit 132 in the rigid connection section 13 They are respectively electrically connected to the battery adapter plate 131 (for example, soldered to the battery adapter plate 131 through wires), and the first conductive cable 142 connected to the main circuit board 15 is also welded to the battery adapter plate 131 , so that the battery cells 132 can be connected to the battery adapter plate 131 . It is electrically connected to the main circuit board 15 via the battery adapter board 131 and the first conductive cable. Of course, in practical applications, the two electrodes of the battery unit 132 can also be directly electrically connected to the main circuit board 15 through the first conductive cable 142 .
类似地,用于电性连接主电路板与第一连接器11(当主电路板位于第二连接器12时)第二导电线缆143也可经由至少部分电池转接板131分别与主电路板和第一连接器11电性连接,如图7所示。当然,在实际应用中,第二导电线缆143也可直接与主电路板15及第一连接器11电性连接,如图6所示。Similarly, the second conductive cable 143 for electrically connecting the main circuit board and the first connector 11 (when the main circuit board is located at the second connector 12 ) can also be connected to the main circuit board via at least part of the battery adapter board 131 respectively. It is electrically connected to the first connector 11 , as shown in FIG. 7 . Of course, in practical applications, the second conductive cable 143 can also be directly electrically connected to the main circuit board 15 and the first connector 11 , as shown in FIG. 6 .
在上述电子设备连接线中,当第一连接器11连接到智能手机(或其他电子设备),且第二连接器12不连接任何设备时,主电路板15上的充放电电路通过由多个电池单元132组成的电池组供电,充放电电路将电池组输出的电压升压后向智能手机输出充电电流,即通过电池单元132为智能手机充电;当第二连接器12连接到电源适配器、移动电源或个人电脑,且第一连接器11不连接任何设备时,主电路板15的充放电电路通过第二连接器12连接的电源适配器、移动电源或个人电脑供电,通过充放电电路进行电压转换后向由多个电池单元132组成的电池组输出充电电流,即通过第二连接器12连接的电源适配器、移动电源或个人电脑为电池单元132充电;当第一连接器11连接到智能手机(或其他电子设备),且第二连接器12连接到电源适配器、移动电源或个人电脑时,主电路板15的充放电电路通过第二连接器12连接的电源适配器、移动电源或个人电脑供电,通过充放电电路监测并管理分配电流,从而同时向智能手机及由多个电池单元132组成的电池组输出充电电流,即同时为智能手机和电池单元132充电。In the above-mentioned electronic device connection line, when the first connector 11 is connected to a smartphone (or other electronic device), and the second connector 12 is not connected to any device, the charging and discharging circuit on the main circuit board 15 passes through a plurality of The battery pack composed of the battery unit 132 supplies power, and the charging and discharging circuit boosts the voltage output by the battery pack and outputs a charging current to the smartphone, that is, the smartphone is charged through the battery unit 132; when the second connector 12 is connected to the power adapter, the mobile phone When the first connector 11 is not connected to any device, the charging and discharging circuit of the main circuit board 15 is powered by the power adapter, mobile power supply or personal computer connected to the second connector 12, and the voltage is converted through the charging and discharging circuit. The charging current is output to the battery pack composed of a plurality of battery units 132, that is, the battery unit 132 is charged by the power adapter, mobile power supply or personal computer connected by the second connector 12; when the first connector 11 is connected to the smartphone ( or other electronic equipment), and when the second connector 12 is connected to a power adapter, a mobile power source or a personal computer, the charging and discharging circuit of the main circuit board 15 is powered by the power adapter, mobile power source or personal computer connected to the second connector 12, The distributed current is monitored and managed by the charging and discharging circuit, so as to output the charging current to the smart phone and the battery pack composed of a plurality of battery cells 132 simultaneously, that is, to charge the smart phone and the battery cells 132 at the same time.
上述电子设备连接线,通过柔性连接段14连接第一连接器11、第二连接器12及多个刚性连接段13,使得该电子设备连接线可实现电能储存,从而无需连接移动电源或电源适配器即可为电子设备充电。并且,由于多个刚性连接段13和柔性连接段14按直线方式排列,且相邻刚性连接段13之间通过柔性连接段14相连,因此该电子设备连接线整体可弯折或折叠,便于收纳。The above-mentioned electronic equipment connecting line is connected to the first connector 11, the second connector 12 and the plurality of rigid connecting sections 13 through the flexible connecting section 14, so that the electronic equipment connecting line can realize electric energy storage, so that there is no need to connect a mobile power supply or a power adapter You can charge electronic devices. In addition, since the plurality of rigid connection segments 13 and the flexible connection segments 14 are arranged in a straight line, and the adjacent rigid connection segments 13 are connected by the flexible connection segments 14, the entire electronic device connection line can be bent or folded, which is convenient for storage. .
结合图3所示,还可在上述电子设备连接线的至少部分刚性连接段13增加磁环135(为减小电子设备连接线的线径,每一刚性连接段13内的电池转接板131、电池单元132及磁环135可沿电子设备连接线的长度方向设置),且由柔性连接段14引出的第一导电线缆142、第二导电线缆143穿过磁环135与电池转接板131电性连接,从而可通过磁环135滤除杂波,提高电流质量。上述磁环135还可与相邻刚性连接段135内的磁环或磁性部件相磁吸配合,实现电子设备连接线的折叠收纳。在实际应用中,每一电池段13可包括多个磁环135,例如在电池段的首端和尾端分别设置磁环135。With reference to FIG. 3 , a magnetic ring 135 can also be added to at least part of the rigid connection section 13 of the above-mentioned electronic equipment connection line (in order to reduce the wire diameter of the electronic equipment connection line, the battery adapter plate 131 in each rigid connection section 13 , the battery unit 132 and the magnetic ring 135 can be arranged along the length direction of the electronic device connection line), and the first conductive cable 142 and the second conductive cable 143 drawn from the flexible connection section 14 pass through the magnetic ring 135 and the battery transfer The board 131 is electrically connected, so that the clutter can be filtered through the magnetic ring 135 and the current quality can be improved. The above-mentioned magnetic ring 135 can also be magnetically cooperated with the magnetic ring or the magnetic component in the adjacent rigid connecting section 135, so as to realize the folding and storage of the connecting wire of the electronic device. In practical applications, each battery segment 13 may include a plurality of magnetic rings 135 , for example, the magnetic rings 135 are respectively provided at the head end and the tail end of the battery segment.
在实际应用中,上述磁环135也可采用磁性材料块代替,且第一连接器11、第二连接器12及多个刚性连接段13中的至少两个包括磁性材料块,例如两个或每一个刚性连接段13包括磁性材料块,从而可通过磁吸材料块之间的磁吸配合实现电子设备连接线的折叠收纳。In practical applications, the above-mentioned magnetic ring 135 can also be replaced by blocks of magnetic material, and at least two of the first connector 11 , the second connector 12 and the plurality of rigid connecting segments 13 include blocks of magnetic material, such as two or Each rigid connection segment 13 includes a magnetic material block, so that the electronic device connecting wire can be folded and stored through the magnetic attraction cooperation between the magnetically attracted material blocks.
此外,上述电子设备连接线内还可包括第三导电线缆(图中未使出),当第一连接器11连接到智能手机(或其他电子设备),且第二连接器12连接到个人电脑时,电子设备连接线还可通过第三导电线缆实现智能手机与个人电脑之间的数据传输。并且,通过磁环135可降低数据线在传输数据时的错误率。In addition, the above-mentioned electronic device connection line may further include a third conductive cable (not shown in the figure), when the first connector 11 is connected to a smartphone (or other electronic device), and the second connector 12 is connected to a personal When using a computer, the electronic device connecting line can also realize data transmission between the smart phone and the personal computer through the third conductive cable. In addition, the magnetic ring 135 can reduce the error rate of the data line during data transmission.
结合图3所示,在本发明实施例的一个电子设备连接线中,每一刚性连接段13包括外壳134,且电池单元132位于外壳134内,该外壳134可具有一定强度,从而减小电池单元132所受外力。With reference to FIG. 3 , in an electronic device connecting cable according to an embodiment of the present invention, each rigid connecting segment 13 includes a casing 134 , and the battery unit 132 is located in the casing 134 , and the casing 134 can have a certain strength, thereby reducing the size of the battery The unit 132 is subjected to an external force.
为提高刚性连接段13与柔性连接段14之间(以及柔性连接段14与第一连接器11、柔性连接段14与第二连接器12)的连接强度,每一柔性连接段14的两端分别具有卡扣141,该卡扣141与穿过柔性连接段14的第一导电线缆142、第二导电线缆143相固定,且在柔性连接段14与刚性连接段13相连时,卡扣141卡接固定到外壳134,通过该结构,可降低第一导电线缆142、第二导电线缆143所受的轴向拉扯力,避免第一导电线缆142、第二导电线缆143的电性连接点(例如焊接位置)松脱。In order to improve the connection strength between the rigid connection segment 13 and the flexible connection segment 14 (as well as the flexible connection segment 14 and the first connector 11 , the flexible connection segment 14 and the second connector 12 ), the two ends of each flexible connection segment 14 There are clips 141 respectively, the clips 141 are fixed with the first conductive cable 142 and the second conductive cable 143 passing through the flexible connecting section 14, and when the flexible connecting section 14 is connected with the rigid connecting section 13, the clipping 141 is snap-fastened to the housing 134, through this structure, the axial pulling force of the first conductive cable 142 and the second conductive cable 143 can be reduced, and the tension of the first conductive cable 142 and the second conductive cable 143 Electrical connection points (such as soldering points) loose.
在本发明的另一实施例中,上述卡扣141可通过粘接段代替,即每一柔性连接段14的两端分别具有粘结段,且在柔性连接段14与刚性连接段13相连时,粘结段通过粘结剂粘合固定到外壳134的外部或内部。In another embodiment of the present invention, the above-mentioned buckles 141 can be replaced by adhesive segments, that is, both ends of each flexible connection segment 14 have adhesive segments respectively, and when the flexible connection segment 14 is connected to the rigid connection segment 13 , the bonding segment is fixed to the exterior or interior of the housing 134 by adhesive bonding.
具体地,在每一刚性连接段13内,外壳134可由管状壳体构成,或由上壳和下壳扣合而成。当外壳134由上壳和下壳扣合而成时,电池转接板131、电池单元132(以及磁环)均位于上壳和下壳扣合形成的腔体内。Specifically, in each rigid connection section 13, the outer shell 134 can be formed by a tubular casing, or formed by snapping together an upper casing and a lower casing. When the outer shell 134 is formed by snapping the upper shell and the lower shell, the battery adapter plate 131 , the battery unit 132 (and the magnetic ring) are all located in the cavity formed by the snapping of the upper shell and the lower shell.
结合图8所示,在本发明的第二实施中,上述电子设备连接线还包括绝缘包裹层,且绝缘包裹层包裹第一连接器11和第二连接器12之间的刚性连接段13和柔性连接段14,从而使得电子设备连接线具有相同的粗细,在提高产品一致性的同时,增加电子设备连接线的整体强度。As shown in FIG. 8 , in the second implementation of the present invention, the above-mentioned electronic device connecting wire further includes an insulating wrapping layer, and the insulating wrapping layer wraps the rigid connection section 13 and the rigid connection section 13 between the first connector 11 and the second connector 12 . The flexible connecting section 14 makes the electronic equipment connecting wires have the same thickness, which increases the overall strength of the electronic equipment connecting wires while improving product consistency.
结合图9-10所示,在本发明的另一实施中,电子设备连接线的每一刚性连接段13与一个柔性连接段14沿电子设备连接线的长度方向相连构成一个活动连接段,每一活动连接段包括第三连接器136和第四连接器144,且第三连接器136和第四连接器144分别位于活动连接段的长度方向的两个端部。上述第三连接器和136第四连接器144中的一个为连接器公头,另一个为连接器母头,例如第三连接器136为连接器母头,第四连接器为连接器公头,且相邻的活动连接段之间通过连接器公头和连接器母头插接电性连接并固定。相应地,各个活动连接段的电池单元132与其他活动连接段的电池单元132通过第一导电线缆142及电池转接板131并联连接到主电路板。9-10, in another implementation of the present invention, each rigid connection segment 13 of the electronic device connection line is connected with a flexible connection segment 14 along the length direction of the electronic device connection line to form an active connection segment. An articulating segment includes a third connector 136 and a fourth connector 144, and the third connector 136 and the fourth connector 144 are respectively located at two ends in the length direction of the articulating segment. One of the above-mentioned third connector and 136 fourth connector 144 is a male connector, and the other is a female connector. For example, the third connector 136 is a female connector, and the fourth connector is a male connector. , and the adjacent movable connection segments are electrically connected and fixed by plugging the connector male head and the connector female head. Correspondingly, the battery cells 132 of each movable connection section and the battery cells 132 of other movable connection sections are connected in parallel to the main circuit board through the first conductive cable 142 and the battery adapter board 131 .
当然,在实际应用中,也可部分刚性连接段13与柔性连接段14组成活动连接段,而其他部分则通过如图1-7对应实施例的方式相连接。Of course, in practical applications, part of the rigid connection segment 13 and the flexible connection segment 14 may also form an active connection segment, while other parts are connected by means of the corresponding embodiments in FIGS. 1-7 .
通过该方式,可实现活动连接段的随意扩充,即实现电子设备连接线的电容量自由扩充。使用者可根据外出时间的长短携带对应数量的电池组件。In this way, the free expansion of the movable connection section can be realized, that is, the free expansion of the electric capacity of the connecting line of the electronic equipment can be realized. The user can carry a corresponding number of battery assemblies according to the length of going out.
在本实施例中,第一连接器11可与一个柔性连接段14集成一体,且该柔性连接段14的自由段为连接器公头,从而该第一连接器11可与活动连接段插接固定。类似地,第二连接器12可与一个柔性连接段14集成一体。In this embodiment, the first connector 11 can be integrated with a flexible connecting section 14, and the free section of the flexible connecting section 14 is a connector male, so that the first connector 11 can be plugged with the movable connecting section fixed. Similarly, the second connector 12 may be integrated with a flexible connecting segment 14 .
结合图11,还可在电子设备连接线的每一刚性连接段13的长度方向的两个端部分别设有第五连接器137,每一柔性连接段14的长度方向的两个端部分别设有第六连接器145。上述第五连接器137和第六连接器145中的一个为连接器公头,另一个为连接器母头,且相邻的刚性连接段13和柔性连接段14之间通过连接器公头和连接器母头插接电性连接并固定。With reference to FIG. 11 , fifth connectors 137 can also be provided at the two ends in the length direction of each rigid connecting segment 13 of the electronic device connecting line, respectively, and the two ends in the length direction of each flexible connecting segment 14 are respectively A sixth connector 145 is provided. One of the fifth connector 137 and the sixth connector 145 is a connector male, the other is a connector female, and the adjacent rigid connecting sections 13 and flexible connecting sections 14 pass through the connector male and The female connector of the connector is plugged and electrically connected and fixed.
当然,在实际应用中,也可部分刚性连接段13和部分柔性连接段14通过第五连接器137和第六连接器145活动连接,而其他部分则通过如图1-7对应实施例的方式相连接。Of course, in practical applications, part of the rigid connection segment 13 and part of the flexible connection segment 14 can also be flexibly connected through the fifth connector 137 and the sixth connector 145 , while other parts can be connected by means of the corresponding embodiments in FIGS. 1-7 . connected.
如图12所示,在本发明的另一实施中,与图1所示的实施例类似,电子设备连接线包括第一连接器21、第二连接器22、主电路板25、多个刚性连接段23和多个柔性连接段24,其中主电路板25设置于其中一个刚性连接段23,其他刚性连接段23则分别包括电池单元。多个刚性连接段23和多个柔性连接段24按直线条排列方式(沿刚性连接段23的长度方向)依次间隔连接在第一连接器21和第二连接器22之间,且相邻的刚性连接段23之间、第一连接器21和相邻的刚性连接段23之间、第二连接器22与相邻的刚性连接段23之间分别通过柔性连接段24连接,从而形成与现有数据线类似的直线条状结构。As shown in FIG. 12 , in another implementation of the present invention, similar to the embodiment shown in FIG. 1 , the electronic device connection line includes a first connector 21 , a second connector 22 , a main circuit board 25 , a plurality of rigid The connecting section 23 and the plurality of flexible connecting sections 24, wherein the main circuit board 25 is disposed on one of the rigid connecting sections 23, and the other rigid connecting sections 23 respectively include battery cells. A plurality of rigid connection segments 23 and a plurality of flexible connection segments 24 are connected in sequence between the first connector 21 and the second connector 22 in a linear arrangement (along the length direction of the rigid connection segment 23 ), and adjacent The rigid connection segments 23, the first connector 21 and the adjacent rigid connection segments 23, and the second connector 22 and the adjacent rigid connection segments 23 are respectively connected by flexible connection segments 24, thereby forming a There is a linear structure similar to the data line.
特别地,为尽量平衡各个电池单元电压,可将主电路板25设置于电子设备连接线的长度方向的中央。当然,在实际应用中,主电路板25也可设置于与第一连接器21最近的一个刚性连接段23内,或与第二连接器22最近的一个刚性连接段23内。In particular, in order to balance the voltage of each battery cell as much as possible, the main circuit board 25 can be arranged in the center of the length direction of the connecting wire of the electronic device. Of course, in practical applications, the main circuit board 25 can also be arranged in a rigid connection section 23 closest to the first connector 21 , or in a rigid connection section 23 closest to the second connector 22 .
在本发明的另一实施例中,上述电子设备连接线还可包括一个电源连接板,该电源连接板26可与主电路板25设置于同一刚性连接段23,所有包括电池单元的刚性连接段23内的电池分别通过第一导电线缆与电源连接板26电性连接,并经由电源连接板26与主电路板25电性连接。通过设置独立的电源连接板26,便于实现电池单元的连接和管理。In another embodiment of the present invention, the above-mentioned electronic device connection line may further include a power supply connection board, and the power supply connection board 26 and the main circuit board 25 may be arranged in the same rigid connection section 23, and all rigid connection sections including battery cells. The batteries in 23 are respectively electrically connected to the power connection board 26 through the first conductive cable, and are electrically connected to the main circuit board 25 via the power connection board 26 . By setting an independent power connection board 26, it is convenient to realize the connection and management of the battery units.
具体地,在刚性连接段23内,电源连接板26可与主电路板25相平行,并且可在电源连接板26和主电路板25表面分别设置垂直于表面的插接端子,且电源连接板26和主电路板25之间通过插接端子同时实现电性连接和机械固定。Specifically, in the rigid connection section 23, the power connection board 26 can be parallel to the main circuit board 25, and the surfaces of the power connection board 26 and the main circuit board 25 can be respectively provided with plug terminals perpendicular to the surface, and the power connection board 26 and the main circuit board 25 are simultaneously electrically connected and mechanically fixed through plug-in terminals.
此外,上述电源连接板26还可设置在第一连接器21、第二连接器22或任一其他刚性连接段23内,例如与电池单元位于同一刚性连接段,或单独位于一个刚性连接段。In addition, the above-mentioned power connection plate 26 can also be arranged in the first connector 21, the second connector 22 or any other rigid connection section 23, for example, in the same rigid connection section as the battery unit, or in a rigid connection section alone.
上述电子设备连接线还可包括集成到主电路板25、电源连接板26、电池转接板或一个独立的电路板的保护电路,且电子设备连接线通过该保护电路阻止各电池单元间的电能不平衡造成的电流反充、蹿流或倒流。保护电路本身属于本领域的常规技术,在此不再赘述。The above-mentioned electronic equipment connection line may further include a protection circuit integrated into the main circuit board 25, the power supply connection board 26, the battery adapter board or an independent circuit board, and the electronic equipment connection line can prevent the electric energy between the battery cells through the protection circuit. Current reverse charging, jumping or reverse current caused by unbalance. The protection circuit itself belongs to the conventional technology in the art, and will not be repeated here.
在实际应用中,也可通过使用于连接各个电池单元的第一导线段的长度基本相同,从而阻止各电池单元间的电能不平衡造成的电流反充、蹿流或倒流。In practical applications, the lengths of the first wire segments for connecting each battery unit can also be substantially the same, so as to prevent current reverse charging, jumping or reverse current caused by the imbalance of electric energy among the battery units.
上述电子设备连接线还可包括集成到主电路板、电源连接板或一个独立的电路板的电池管理电路,且电子设备连接线通过该电池管理电路对各个电池单元进行充放电均衡控制。电池管理电路本身属于本领域的常规技术,在此不再赘述。The above-mentioned electronic equipment connection line may further include a battery management circuit integrated into the main circuit board, the power supply connection board or an independent circuit board, and the electronic equipment connection line performs charge and discharge balance control of each battery unit through the battery management circuit. The battery management circuit itself belongs to the conventional technology in the art, and will not be repeated here.
以上所述,仅为本发明较佳的具体实施方式,但本发明的保护范围并不局限于此,任何熟悉本技术领域的技术人员在本发明揭露的技术范围内,可轻易想到的变化或替换,都应涵盖在本发明的保护范围之内。因此,本发明的保护范围应该以权利要求的保护范围为准。The above description is only a preferred embodiment of the present invention, but the protection scope of the present invention is not limited to this. Substitutions should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention should be subject to the protection scope of the claims.

Claims (11)

  1. 一种电子设备连接线,其特征在于,包括第一连接器、第二连接器、主电路板、多个刚性连接段和多个柔性连接段,多个所述刚性连接段按直线条方式间隔排列于所述第一连接器和第二连接器之间,且相邻的刚性连接段之间分别通过所述柔性连接段相连; An electronic device connecting line, characterized in that it includes a first connector, a second connector, a main circuit board, a plurality of rigid connection segments and a plurality of flexible connection segments, and a plurality of the rigid connection segments are spaced in a straight line manner are arranged between the first connector and the second connector, and the adjacent rigid connecting segments are respectively connected through the flexible connecting segments;
    所述主电路板包括充放电电路,至少两个所述刚性连接段包含有电池单元,且所述刚性连接段内的电池单元分别通过第一导电线缆与所述主电路板电性连接,所述第一连接器和/或第二连接器通过第二导电线缆与所述主电路板电性连接,所述第一导电线缆和第二导电线缆分别穿过至少部分所述柔性连接段。The main circuit board includes a charging and discharging circuit, at least two of the rigid connection sections include battery cells, and the battery cells in the rigid connection sections are electrically connected to the main circuit board through first conductive cables, respectively, The first connector and/or the second connector are electrically connected to the main circuit board through a second conductive cable, and the first conductive cable and the second conductive cable respectively pass through at least part of the flexible connection segment.
  2. 根据权利要求1所述的电子设备连接线,其特征在于,所述主电路板设置于所述第一连接器或第二连接器内;每一所述刚性连接段包括电池单元; The electronic device connection cable according to claim 1, wherein the main circuit board is disposed in the first connector or the second connector; each of the rigid connection segments includes a battery unit;
    未设置所述主电路板的第一连接器或第二连接器通过第二导电线缆与所述主电路板电性连接。The first connector or the second connector not provided with the main circuit board is electrically connected to the main circuit board through a second conductive cable.
  3. 根据权利要求1所述的电子设备连接线,其特征在于,所述主电路板位于其中一个刚性连接段内,除了包含有主电路板的刚性连接段的其他所有刚性连接段包括有电池单元; The electronic device connection cable according to claim 1, wherein the main circuit board is located in one of the rigid connection segments, and all other rigid connection segments except the rigid connection segment including the main circuit board include battery cells;
    所述第一连接器和第二连接器分别通过第二导电线缆与所述主电路板电性连接。The first connector and the second connector are respectively electrically connected to the main circuit board through second conductive cables.
  4. 根据权利要求2或3所述的电子设备连接线,其特征在于,所述第一连接器、第二连接器或任一所述刚性连接段包含有电源连接板,且所述电源连接板与所述主电路板电性连接; The electronic device connection cable according to claim 2 or 3, wherein the first connector, the second connector or any one of the rigid connection segments includes a power connection board, and the power connection board is connected to the main circuit board is electrically connected;
    至少部分所述电池单元通过所述第一导电线缆与所述电源连接板电性连接,并经由所述电源连接板与所述主电路板电性连接。At least some of the battery cells are electrically connected to the power supply connection board through the first conductive cable, and are electrically connected to the main circuit board through the power supply connection board.
  5. 根据权利要求1所述的电子设备连接线,其特征在于,每一所述刚性连接段包括外壳,且所述电池单元位于所述外壳内; The electronic device connection cable according to claim 1, wherein each of the rigid connection segments comprises a casing, and the battery unit is located in the casing;
    每一所述柔性连接段的两端分别具有粘结段,且在所述柔性连接段与所述刚性连接段相连时,所述粘结段通过粘结剂粘合固定到所述外壳;或者,每一所述柔性连接段的两端分别具有卡扣,且在所述柔性连接段与所述刚性连接段相连时,所述卡扣卡接固定到所述外壳。Both ends of each of the flexible connecting segments are respectively provided with adhesive segments, and when the flexible connecting segments are connected with the rigid connecting segments, the adhesive segments are bonded and fixed to the housing through an adhesive; or , the two ends of each flexible connecting segment are respectively provided with snaps, and when the flexible connecting segment is connected with the rigid connecting segment, the snaps are fastened and fixed to the casing.
  6. 根据权利要求1所述的电子设备连接线,其特征在于,至少部分包含有电池单元的刚性连接段内包括电池转接板,且所述电池单元经由所述电池转接板与第一导电线缆电性连接; The connecting wire for electronic equipment according to claim 1, wherein a battery adapter plate is included in the rigid connecting section at least partially including the battery unit, and the battery unit is connected to the first conductive wire via the battery adapter plate cable connection;
    所述第一连接器和/或第二连接器直接经由第二导电线缆以及至少部分电池转接板与所述主电路板电性连接;或者,所述第一连接器和/或第二连接器直接经由第二导电线缆与所述主电路板电性连接。The first connector and/or the second connector are directly electrically connected to the main circuit board via the second conductive cable and at least part of the battery adapter board; or, the first connector and/or the second connector The connector is electrically connected to the main circuit board directly through the second conductive cable.
  7. 根据权利要求1所述的电子设备连接线,其特征在于,至少部分所述刚性连接段与一个柔性连接段沿所述电子设备连接线的长度方向相连构成一个活动连接段,每一所述活动连接段包括第三连接器和第四连接器,且所述第三连接器和第四连接器分别位于所述活动连接段的长度方向的两个端部; The electronic device connecting line according to claim 1, wherein at least part of the rigid connecting section and a flexible connecting section are connected along the length direction of the electronic device connecting line to form an active connecting section, and each movable connecting section is The connecting segment includes a third connector and a fourth connector, and the third connector and the fourth connector are respectively located at two ends of the length direction of the movable connecting segment;
    所述第三连接器和第四连接器中的一个为连接器公头,另一个为连接器母头,且相邻的活动连接段之间通过所述连接器公头和连接器母头插接电性连接并固定。One of the third connector and the fourth connector is a connector male head, and the other is a connector female head, and the adjacent movable connection segments are inserted through the connector male head and the connector female head. Electrically connected and fixed.
  8. 根据权利要求1所述的电子设备连接线,其特征在于,至少部分所述刚性连接段的长度方向的两个端部分别设有第五连接器,至少部分所述柔性连接段的长度方向的两个端部分别设有第六连接器; The electronic device connection cable according to claim 1, wherein at least part of the two ends of the rigid connecting segment in the longitudinal direction are respectively provided with fifth connectors, and at least part of the flexible connecting segment has a lengthwise direction The two ends are respectively provided with sixth connectors;
    所述第五连接器和第六连接器中的一个为连接器公头,另一个为连接器母头,且相邻的刚性连接段和柔性连接段之间通过所述连接器公头和连接器母头插接电性连接并固定。One of the fifth connector and the sixth connector is a connector male head, and the other is a connector female head, and the adjacent rigid connecting sections and flexible connecting sections are connected by the connector male head and the connector. The female connector of the device is plugged and electrically connected and fixed.
  9. 根据权利要求4所述的电子设备连接线,其特征在于,所述电子设备连接线还包括集成到所述主电路板、电源连接板或一个独立的电路板的保护电路,且所述电子设备连接线通过所述保护电路阻止各电池单元间的电能不平衡造成的电池单元之间的电流反充、蹿流或倒流;或者, The electronic device connection line according to claim 4, wherein the electronic device connection line further comprises a protection circuit integrated into the main circuit board, the power connection board or an independent circuit board, and the electronic device The connecting wire prevents reverse charging, jumping or reverse current between the battery cells caused by the power imbalance between the battery cells through the protection circuit; or,
    各个所述电池单元通过使连接到所述主电路板的第一导线段的长度相同阻止各电池单元间的电能不平衡造成电池单元之间的反充、蹿流或倒流。The lengths of the first wire segments connected to the main circuit board are the same for each of the battery cells to prevent the unbalanced electrical energy among the battery cells from causing reverse charging, jumping current or reverse current between the battery cells.
  10. 根据权利要求4所述的电子设备连接线,其特征在于,所述电子设备连接线还包括集成到所述主电路板、电源连接板或一个独立的电路板的电池管理电路,且所述电子设备连接线通过所述电池管理电路对各个电池单元进行充放电均衡控制。 The electronic device connection line according to claim 4, wherein the electronic device connection line further comprises a battery management circuit integrated into the main circuit board, the power connection board or an independent circuit board, and the electronic device The device connecting line performs charge and discharge equalization control on each battery unit through the battery management circuit.
  11. 根据权利要求1所述的电子设备连接线,其特征在于,所述第一连接器、第二连接器及多个刚性连接段中的至少两个包括磁性材料。 The electronic device connection cable of claim 1, wherein at least two of the first connector, the second connector, and the plurality of rigid connection segments comprise magnetic materials.
PCT/CN2021/072212 2020-08-21 2021-01-15 Electronic device connection line WO2022037008A1 (en)

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