|Publication number||CN101997327 A|
|Application number||CN 201010577265|
|Publication date||30 Mar 2011|
|Filing date||7 Dec 2010|
|Priority date||7 Dec 2010|
|Publication number||201010577265.X, CN 101997327 A, CN 101997327A, CN 201010577265, CN-A-101997327, CN101997327 A, CN101997327A, CN201010577265, CN201010577265.X|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (8), Referenced by (1), Classifications (2), Legal Events (3)|
|External Links: SIPO, Espacenet|
便携式智能锂电池充电器 Portable Intelligent Battery Charger
技术领域 Technical Field
 本发明涉及智能锂电池充电识别技术领域，尤其涉及一种方便携带的智能锂电池充电器。  The present invention relates to a rechargeable lithium battery intelligent recognition technology, particularly to a portable smart lithium battery charger.
 目前市面上销售的智能充电器一般均是利用单个CPU实施智能充放电控制的，其功能较为简单，若对同时在位的单一电池或多块电池进行充电时，现有的充电器只具备单一充电或同时充电的功能，不具备自动识别功能，不能对充电电池作主从之分，从而先对主机电池进行充电，后对从机进行充电，这样，在便携式充电器受外壳尺寸精致的要求下，从电气的输出功率及转换效率则受到极大的限制。  Currently on the market are generally smart charger using a single CPU implementation of intelligent charging and discharging control, its function is simple, if the reign of simultaneous single or multi-cell batteries charged, the existing charger have only a single charge or at the same time charging function, do not have automatic recognition, decide not to charge the battery from the points, so that the host cell to be charged, after charging from the machine, so that the portable charger by Shell Size Under delicate request, from the electrical power output and conversion efficiency is greatly hampered.
 本发明的目的在于，提供一种便携式智能锂电池充电器，其具有主从电池识别的优先充电功能，无论在任何充电状况下，都优先充电打印机主电池，然后再充从电池，从而在一定程度上提高在同休积及同功率下单一充电和同时充电的充电效率。  The object of the present invention is to provide a portable intelligent lithium battery charger, which has identified the main priority from battery charging function, charging under any condition, are the main priority rechargeable printer battery, then charge the battery, thereby improving at the same off-plot and with a single charge and at the same time charging power of the charging efficiency to some extent.
 为实现上述目的，本发明提供一种便携式智能锂电池充电器，其包括：外壳、设于外壳内的电路模块、及与电路模块电性连接的数个通信接口，该电路模块内包括控制模块、 分别与控制模块电性连接的电池识别模块、及充电电路模块，该数个通信接口包括电源接口、打印机主电池接口、及从电池接口，该电源接口与控制模块电性连接，打印机主电池接口及从电池接口一端均与电池识别模块电性连接，另一端均与充电电路电性连接。  To achieve the above object, the present invention provides a portable intelligent lithium battery charger, comprising: a housing, the housing provided in the circuit module, and a plurality of communication interfaces with the circuit module electrically connected to the circuitry within the module includes a control module, respectively, and control the battery identification module module electrically connected, and the charging circuit module of the plurality of communication interfaces including power interface, the printer main battery interface, and from the battery connector, power connector which is electrically connected with the control module, printer main battery interface and are connected from one end of the battery and the battery identification module interfaces electrical resistance, and the other end are electrically connected to the charging circuit.
 所述外壳上设有一电池槽，从电池接口设于该电池槽内，一从电池放置于该电池槽内，通过该从电池接口与充电电路电性连接。  The housing provided with a battery slot, the interface is provided from the battery to the battery slot, one from the battery is placed in the battery compartment, the connection from the battery interface and charging circuitry electrically through.
 所述外壳上还设有一主机充电指示灯、及从机充电指示灯，该主机充电指示灯与打印机主电池接口电性连接，从机充电指示灯与从电池接口电性连接。  The housing also has a host charge indicator, charge indicator and the slave, the host printer main battery charge indicator and electrically connected to the interface, the slave charge indicator and electrical connection from the battery connector.
 所述充电电路包括主机充电电路、及从机充电电路，该主机充电电路、及从机充电电路均与控制模块电性连接，打印机主电池接口与主机充电电路电性连接，从电池接口与从机充电电路电性连接。  The charging circuit comprises a main body charging circuit, the charging circuit and from the machine, the main body charging circuit, the charging circuit and the slave are electrically connected to the control module, the interface with the printer main battery charging circuit electrically connected to the host, from the battery interface slave charging circuit electrically connected.
 所述电池识别模块内设有对打印机主电池接口、及从电池接口处进行检测的检测电路，该检测电路分别与打印机主电池接口、及从电池接口电性连接。  The battery identification module features a main battery to the printer port, and for detecting the interface from the battery detection circuit, the detection circuit, respectively, the main battery interfaces with the printer, and the electrical connection from the battery connector.
 所述控制模块为一微控制器。  The control module is a microcontroller.
 本发明的有益效果：本发明所提供的便携式智能锂电池充电器，其尤其针对IT行业便携式为打印机而设计，具有主从电池识别的优先充电功能，无论在任何充电状况下，都优先充电打印机主电池，然后再充从电池，从而解决了单一电池或多块电池同时在位时，充电器只具备单一充电或同时充电的现状，大大提高了便携式智能锂电池充电器在同休积同功率下的充电效率，增进了便携式产品对备用电池的利用效率。  the beneficial effects of the present invention: a portable smart lithium battery charger provided by the present invention, it is particularly a portable printer for the IT industry and design, with the main priority from the battery identification charging function, regardless of any charge status, are Priority rechargeable printer main battery, then charge the battery to solve the single or multi-cell batteries simultaneously reign, the charger only with the status of a single charge or charged simultaneously, greatly improving the portable intelligent lithium battery charger with Hugh product with the charging efficiency of the power under portable products to enhance the utilization efficiency of the backup battery.
 为了能更进一步了解本发明的特征以及技术内容，请参阅以下有关本发明的详细说明与附图，然而附图仅提供参考与说明用，并非用来对本发明加以限制。  In order to better understand the characteristics and technical contents of the present invention, please refer to the following detailed description of the present invention is related with the accompanying drawings, but only with reference to the accompanying drawings and the description provided by, not intended to limit the present invention. 附图说明 Brief Description
 下面结合附图，通过对本发明的具体实施方式详细描述，将使本发明的技术方案及其他有益效果显而易见。  below in conjunction with the accompanying drawings, the present invention will be described in detail by specific embodiments, the present invention will enable technology and other beneficial effect is obvious.
 附图中，  In the drawings,
 图1为本发明中便携式智能锂电池充电器一具体实施例的结构示意图；  FIG. 1 of the present invention the portable intelligent lithium battery charger schematic illustration of the structure of a specific embodiment;
 图2为本发明中便携式智能锂电池充电器一具体实施例的模块结构示意图。  FIG. 2 is a schematic of the portable intelligent lithium battery charger module structure diagram illustrating a specific implementation.
具体实施方式 DETAILED DESCRIPTION
 为更进一步阐述本发明所采取的技术手段及其效果，以下结合本发明的优选实施例及其附图进行详细描述。  To further illustrate the present invention taken in techniques and their effects, the following in connection with preferred embodiments of the present invention and the accompanying drawings in detail.
 如图1、2所示，本发明提供一种便携式智能锂电池充电器，其包括：外壳10、设于外壳10内的电路模块、及与电路模块电性连接的数个通信接口，所述电路模块内包括控制模块22、分别与控制模块22电性连接的电池识别模块24、及充电电路模块，该数个通信接口包括电源接口32、打印机主电池接口34、及从电池接口36，该电源接口32与控制模块22 电性连接，打印机主电池接口34、及从电池接口36 —端均与电池识别模块24电性连接，另一端均与充电电路电性连接。  As shown in Figure 1, the present invention provides a portable intelligent lithium battery charger, comprising: a housing 10, provided in the circuit module 10 within the housing, and a plurality of communication interfaces with the circuit module electrically connected , the control module 22 of the circuit module, the battery module identification control module 22 respectively 24 is electrically connected, and a charging circuit module, the plurality of communication interfaces include a power interface 32, printer interface 34 of the main battery, and the battery interface comprises 36, the power supply interface 32 is connected to the electrical control module 22, a printer interface 34 of the main battery, and the battery interface 36 - end are connected to the battery identification module 24 electrically, and the other end are electrically connected to the charging circuit.
 其中，所述外壳10上设有一电池槽12，从电池接口36设于该电池槽12内，一从电池放置于该电池槽12内，通过该从电池接口36与充电电路电性连接。  wherein the housing is provided with a battery 10 slot 12, 36 is provided from the battery connector to the battery slot 12, one from the battery placed in the battery slot 12, through the interface 36 from the battery charging circuit electrically connection. 所述电源接口32、及打印机主电池接口34可以设于外壳10的任意位置处。 The power supply interface 32, and the printer's main battery interface 34 may be provided at any position of the housing 10. 在该具体实施例中，电源接口32设于外壳10的左侧面上，打印机主电池接口34设于外壳10的右侧面上。 In this particular embodiment, the power interface 32 provided on the left side of the housing 10 of the printer main battery interface 34 is provided on the right surface of the housing 10. 所述该外壳10上还设有一主机充电指示灯14、及从机充电指示灯16，该主机充电指示灯14与打印机主电池接口34电性连接，从机充电指示灯16与从电池接口36电性连接。 Said the housing 10 also has a host charge indicator 14, and 16 from the machine charge indicator, charge indicator 14 is connected to the host printer main battery interface 34 electrically from the machine 16 and the battery charge indicator interface 36 electrically connected. 该主机充电指示灯14、 及从机充电指示灯16可以对打印机主电池及从电池进对应行充电指示，当打印机主电池及从电池不在位时，则主机充电指示灯14、及从机充电指示灯16不亮灯。 The host charge indicator 14, and a slave can charge indicator 16 Printer main battery and charging indicator into the corresponding row from the battery, the main battery and the battery when the printer is not in place from, the host charging indicator 14, and the slave Charge indicator 16 is not illuminated.
 特别地，作为本发明的一种优选实施例，所述控制模块22可以为一微控制器，电池识别模块24内设有对打印机主电池接口34、及从电池接口36处进行检测的检测电路(未图示），该检测电路分别与打印机主电池接口34、及从电池接口36电性连接，以对打印机主电池、及从电池是否在位进行检测识别。  In particular, as a preferred embodiment of the present invention, the control module 22 may be a micro-controller, battery identification module 24 features a main battery to the printer interface 34, and detects the interface from the battery 36 The detection circuit (not shown), the detection circuit, respectively, and connected to the printer interface 34 primary battery from the battery interface 36 electrically to the main battery to the printer, and the batteries are in place to detect identification. 进一步地，所述充电电路可以包括主机充电电路26、及从机充电电路28，该主机充电电路26、及从机充电电路28均与控制模块22电性连接，打印机主电池接口34与主机充电电路26电性连接，从电池接口36与从机充电电路28 电性连接。 Further, the charging circuit may comprise 26, and the charging circuit unit 28, 26, and 28 are slave charging circuit is connected electrically with the control module 22, the printer interface 34 and the main battery main body charging the main body charging circuit main body charging circuit circuit 26 is electrically connected with the slave 36 is electrically connected to the charging circuit 28 from the battery connector.
 本发明的便携式智能锂电池充电器工作时，通过一电源线插入电源接口32内，将该便携式智能锂电池充电器与交流市电电性连接；将一从电池装入外壳10上的电池槽12 内，通过打印机主电池接口34电性连接一打印机。  The present invention is a portable smart lithium battery charger operates, through a power cord into the power connector 32, the portable intelligent lithium battery charger and AC mains connection; the one built into the case from the battery 10 12 inside the battery compartment, connect a printer via the printer interface 34 electrically main battery. 在任何充电状况下，只要电池识别模块24内的检测电路检测到打印机主电池在位时，则该便携式智能锂电池充电器都将优先为打印机进行充电，即先充电打印机主电池，然后再充从电池。 In any charging status, as long as the battery identification module 24 within the detection circuit detects the printer when the main battery in place, the portable intelligent lithium battery charger for charging will give priority to the printer, the printer first charge the main battery, then charge from the battery. 当对从电池充电时，只要检测电路检测到打印机主电池在位，则电池识别模块24会自动识别，并通过控制模块22转换给打 As for when the battery charge, as long as the detection circuit detects the printer main battery in place, the battery identification module 24 will automatically recognize and control module 22 by conversion to fight
4印机主电池进行充电，直至打印机主电池充饱后再继续给从电池进行充电。 4 printer main battery is charged until the printer main battery is fully charged before you continue to be charged from the battery.
 综上所述，本发明所提供的便携式智能锂电池充电器，其尤其针对IT行业便携式为打印机而设计，具有主从电池识别的优先充电功能，无论在任何充电状况下，都优先充电打印机主电池，然后再充从电池，从而解决了单一电池或多块电池同时在位时，充电器只具备单一充电或同时充电的现状，大大提高了便携式智能锂电池充电器在同休积同功率下的充电效率，增进了便携式产品对备用电池的利用效率。  The portable intelligent lithium battery charger above, the present invention provides, in particular, for its IT industry for the printer and portable design, with the main priority from the battery identification charging function, under any charging status, are a priority Charging printer main battery and then charge the battery to solve the single or multi-cell batteries simultaneously reign, the charger only with the status of a single charge or charged simultaneously, greatly improving the portable intelligent lithium battery charger in the same off-plot with charging efficiency of the power under portable products to enhance the utilization efficiency of the backup battery.
 以上所述，对于本领域的普通技术人员来说，可以根据本发明的技术方案和技术构思作出其他各种相应的改变和变形，而所有这些改变和变形都应属于本发明后附的权利要求的保护范围。  described above, those of ordinary skill in the art that may be made various other changes and modifications in accordance with the appropriate technical solutions and the technical concept of the present invention, and all such changes and modifications should belong to the present invention attached The scope of the claims.
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|30 Mar 2011||C06||Publication|
|18 May 2011||C10||Request of examination as to substance|
|6 Nov 2013||C12||Rejection of an application for a patent|