CN102185352A - Field energy charging system - Google Patents

Field energy charging system Download PDF

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Publication number
CN102185352A
CN102185352A CN2011101186377A CN201110118637A CN102185352A CN 102185352 A CN102185352 A CN 102185352A CN 2011101186377 A CN2011101186377 A CN 2011101186377A CN 201110118637 A CN201110118637 A CN 201110118637A CN 102185352 A CN102185352 A CN 102185352A
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China
Prior art keywords
charging
cabinet
charger
charging system
charge
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CN2011101186377A
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Chinese (zh)
Inventor
何衍雄
张景新
邓先泉
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深圳市五洲龙汽车有限公司
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Priority to CN2011101186377A priority Critical patent/CN102185352A/en
Publication of CN102185352A publication Critical patent/CN102185352A/en

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Abstract

The invention relates to a field energy charging system comprising a charging cabinet, a charging machine, and an electric wire that is connected with the charging machine, wherein an electric wire placing layer used for containing the electric wire is arranged at the bottom of the charging cabinet; a charging machine layer used for containing the charging machine is arranged on top of the charging cabinet; and the charging cabinet comprises a charging machine bearing plate arranged on the charging machine layer. In the system, by adopting the form of the charging cabinet, the charging machine (can be more than one charging machine), the electric wire and other related charging equipment can be superposed, thus sufficiently utilizing space and saving soil cost.

Description

场能充电系统 Field energy charging system

【技术领域】 TECHNICAL FIELD

[0001] 本发明涉及充电设备领域,特别涉及一种场能充电系统。 [0001] The present invention relates to the field of charging apparatus, particularly to a field energy charging system. 【背景技术】 【Background technique】

[0002] 在国家提倡节能减排的背景下,我国的电动车事业发展非常快,这就要求建设许多充电站。 [0002] In the context of the country to promote energy conservation, development of the electric car is very fast, which requires the construction of many charging stations. 传统的充电站采用充电机通过充电电源线给被充电的用电设备(例如电动车) 充电。 A conventional charger using a charging station to be charged to the electric apparatus (e.g. an electric vehicle) charged by the charging power supply line. 这些电线包括充电主线、充电管理线和低压供电线等,需要占据较大的平面空间。 These wires include main charging, charging management and low voltage power supply lines and other lines need to occupy a large planar space. 且为了防止被雨淋湿需要搭建雨篷或车库,充电机的设置会受到极大的限制,场地不能充分利用,增加了充电站的土地成本。 In order to prevent the rain and the need to build a garage or awning, the charging machine is provided will be extremely limited use of space can not be sufficiently increased cost of land charging station.

【发明内容】 [SUMMARY]

[0003] 为了解决传统的充电机占用空间较大的问题,有必要提供一种场能充电系统。 [0003] In order to solve the problems of the conventional large footprint charger, it is necessary to provide a field capable of charging system.

[0004] 一种场能充电系统,包括充电柜、充电机以及与充电机相连的电线,所述充电柜在底部设有用于容置电线的电线放置层,在顶部设有用于容置充电机的充电机层,所述充电柜包括设于所述充电机层的充电机承重板。 [0004] A field energy charging system includes a charging cabinet, charger and an electric wire connected to the charger, the charging charger cabinet for receiving the wire placed at the bottom layer is provided for accommodating the electric wire, provided at the top the organic layer charge, the charge provided in said cabinets comprises a charging unit charging machine bearing plate layer.

[0005] 优选的,所述充电柜为长方体且宽度与所述充电机的宽度相匹配,所述充电柜包括顶板、底板、前门、后板以及两块侧板,所述前门和/或后板在靠近所述充电柜的底部处开设有进气通道,所述后板在充电机层处开设有排气通道。 [0005] Preferably, the charge counter and a width of a rectangular parallelepiped that matches the width of the charger, the charging cabinet includes a top, bottom, front, rear and two side panels, the front and / or rear plate defines an intake passage near the bottom of the charging cabinet, the rear plate at the level of the charging machine defines an exhaust passage.

[0006] 优选的,所述进气通道为向下且向充电柜外部倾斜的进气栅,所述排气通道为向下且向充电柜外部倾斜的排气栅,所述充电柜还在底部设有防浸水层,所述防浸水层和电线放置层交界处设有电线承重板。 [0006] Preferably, the intake passage is inclined downward and to the outside of an intake gate charging cabinet, the exhaust passage is inclined downward and to the outside of the cabinet exhaust gate charge, the charge is also cabinet anti-flooding the bottom layer is provided, the anti-flooding and wire junction layer layer disposed bearing plate is provided with wires.

[0007] 优选的,所述场能充电系统包括充电控制模块,所述充电控制模块设于充电柜内, 靠近充电柜顶部并位于所述充电机层,所述充电控制模块与充电机通过所述电线连接,用于控制充电机进行充电。 [0007] Preferably, the field energy charging system includes a charging control module, the module is provided in the charging charge control cabinet, and the cabinet is located near the top of the charging charger layer, and a charge control module through the charger said wire is connected, for controlling the charger to charge.

[0008] 优选的,所述充电柜包括布线槽,用于容纳所述电线并引导水流;所述布线槽设于充电柜内,沿所述两块侧板中的一块与顶板交界的边缘、与后板交界的边缘一路引至所述 [0008] Preferably, the cabinet includes a wiring charging slot for receiving and guiding the wire water; said wiring groove provided in the charging cabinet, along the two side panels and a top panel edge junction, and the rear plate to the junction of the lead edge of the way

防浸水层。 Anti-flooding level.

[0009] 优选的,所述前门上设有启动按钮、显示屏、感应区以及门锁;所述启动按钮用于控制所述场能充电系统的打开与关闭,所述显示屏用于显示充电状态,所述感应区用于与充电缴费用的介质进行信息交互;所述启动按钮、显示屏以及感应区均与所述充电控制模块电连接。 [0009] Preferably, the front door is provided with a start button, a display screen, and a door lock sensing region; charge button for controlling display of the field charging system can open and close the display screen for the start state, the sensing region for the charging medium to perform information interaction with the payment; the start button, the display and sensing region of the charge control module are electrically connected.

[0010] 优选的,所述充电机承重板上开设有通风孔,所述通风孔上方、充电机与前门之间有供空气流通的空间,所述充电机包括对准所述排气通道的散热风扇。 [0010] Preferably, the charging machine bearing plates defines a vent hole, there is room for air circulation between the upper vent hole, the front door with the charger, the charger comprising aligning the exhaust passage cooling fan.

[0011] 优选的,所述场能充电系统包括密封橡胶,所述密封橡胶设于所述顶板与两块侧板、前门、后板的交界处。 [0011] Preferably, the field energy charging system includes a rubber seal, the seal rubber provided on the top panel and two side panels, front, rear plate junction.

[0012] 优选的,所述场能充电系统包括场能发送装置,所述场能发送装置用于将电能转换为电磁波后进行发送。 [0012] Preferably, the system comprises a charging field energy field energy transmitting means, means for transmitting said field energy transmission after converting electrical energy into electromagnetic waves.

[0013] 优选的,所述场能发送装置包括:整流回路,用于将所述充电机生成的交流电转化为直流电并进行整流处理;检测模块,用于检测是否有负载加载,若有,则生成检测信号,并发送检测信号到处理模块;信号接收模块,用于接收充电信息,并发送到处理模块;处理模块,用于根据检测信号生成初始化输出功率信号,并根据充电信息生成功率调整控制信号, 发送所述初始化输出功率信号和功率调整控制信号给功率发送模块;功率发送模块,用于根据初始化输出功率信号初始化输出功率,并根据所述功率调整控制信号调整所述输出功率,根据调整后的输出功率将整流处理后的所述直流电转换为电磁波进行发送。 [0013] Preferably, the field energy transmission device comprising: a rectifying circuit for the alternating current into direct current generated charger and rectify; a detection module for detecting whether a load is loaded, and if so, generating a detection signal, and sends a detection signal to the processing module; signal receiving module for receiving charge information and sent to the processing module; processing module for generating a detection signal to initialize an output power signal, and generates charge information according to the control power adjustment signal, transmitting the initialization power signal and the power output control signal to adjust the power of the transmission module; power transmitting module, configured according to the initialization signal to initialize the output power of the output power, and the power adjustment according to a control signal adjusting the output power, according to the adjustment after converting the DC output power of the transmitted electromagnetic wave rectification treatment.

[0014] 上述场能充电系统采用充电柜的形式,将充电机(可以是多台)、电线以及其它相关充电设备叠放,可以充分利用空间,节省土地成本。 [0014] The field of the charging system can charge the cabinet takes the form of the charging machine (which may be more than one), the charging wire and other related devices are stacked, can make full use of space, saving the cost of land.

【附图说明】 BRIEF DESCRIPTION

[0015] 图1为一个实施例中充电柜的示意图; [0015] FIG. 1 is a schematic diagram of a charging cabinet embodiment;

[0016] 图2为图1所示充电柜的后视图; [0016] FIG. 2 is a rear view of the cabinet of Figure 1 charging;

[0017] 图3为图1所示充电柜去除侧板后的左视图; [0017] FIG. 3 is a left side view of FIG charging cabinet is removed after the plate;

[0018] 图4是一个实施例中场能发送装置的结构图。 [0018] FIG 4 is a configuration diagram of a power transmission apparatus embodiment midfield embodiment.

【具体实施方式】 【Detailed ways】

[0019] 为使本发明的目的、特征和优点能够更为明显易懂,下面结合附图对本发明的具体实施方式做详细的说明。 [0019] For purposes of the present invention, features and advantages are more apparent from the following drawings in conjunction with a detailed description of specific embodiments of the present invention.

[0020] 请参看图1〜图3,场能充电系统100包括充电柜10、充电机20以及与充电机20 相连的电线。 [0020] Referring to Figure 1 ~ 3, a field energy charging cable 100 includes a charging system cabinet 10, the charger 20 and a charger 20 is connected. 充电柜10在底部设有用于容置电线的电线放置层130,在顶部设有用于容置充电机20的充电机层120。 Charging cabinet 10 is provided at the bottom for receiving the wire 130 wire layer is placed, is provided at the top for receiving the charger 20. Charger layer 120. 在本实施例中,充电柜10为长方体的柜体,且柜体宽度与充电机20的宽度相匹配,以尽量节省占用的空间。 In the present embodiment, the charging of a rectangular parallelepiped cabinet 10 of the cabinet, the cabinet and the width of the width of the charging unit 20 to match, as much as possible to save space occupied. 充电柜10包括顶板、底板、前门103、后板104 以及两块侧板,还包括设于充电机层120用于承载充电机20的充电机承重板122。 Charging cabinet 10 includes a top plate, a bottom plate, front 103, back plate 104 and side plates, further comprising a layer disposed on the charger 120 for carrying the charger charger 20 bearing plate 122. 前门103 又包括对应充电机层120的充电机门1032以及对应电线放置层130的电线门1034,充电机门1032和电线门1034以充电机层120和电线放置层130的交界处分界。 The front door 103 also includes a corresponding layer of the charging charger 1032 door 120 corresponding to the gate wire and a wire layer 130 is placed 1034, 1032 and the gate wire charger to charge the gate 1034 and the organic layer 120 disposed wire layer 130 of the boundary circles disposition. 为了充分利用空间,一个充电柜10可以设置多块充电机承重板122容置多个充电机20,在本实施例中是设置了两块充电机承重板122以容置两台充电机20,在其他实施例中也可以设置其他数量的充电机承重板122,但必须综合考虑充电柜10的承重能力及其他因素。 In order to make full use of the space, a charge counter 10 may be provided a plurality of charger 122 accommodating a plurality of bearing plates charger 20, in the present embodiment is provided with two bearing plates charger 122 for accommodating two charger 20, in other embodiments, other numbers may be provided in the charger bearing plate 122, the load capacity must be integrated into the cabinet 10 and the charging of other factors. 采用充电柜的形式,将充电机(可以是多台)、电线以及其它相关充电设备叠放,可以充分利用空间,节省土地成本。 By charging cabinet form, the charger (may be more than one), the charging wire and other related devices are stacked, can make full use of space, saving the cost of land.

[0021] 为了获得良好的散热效果,电线门1034和/或后板104在靠近充电柜10的底部处开设有进气通道112,后板104在充电机层处开设有排气通道114。 [0021] In order to obtain good cooling effect, the gate wire 1034 and / or the plate 104 near the charging opening at the bottom of the rear cabinet 10 has an intake passage 112, rear plate 104 defines an exhaust passage 114 at the level of the charger. 充电机承重板122上开设有供充电机层120和电线放置层130之间通风的通风孔,通风孔上方、充电机20与充电机门1032之间留有供空气流通的空间(这样的设计还可以在前门103有少量进水时保护充电机20),充电机20包括对准排气通道114的散热风扇。 Defines the bearing plate 122 with a charger for charging the electric wire and the organic layer 120 is placed over the layer 130 between the ventilation vents, the vents for air circulation charger leaving a space (between this design and the charging door 20 1032 the front door 103 also can be protected with a small amount of water when the charger 20), the charging machine 20 comprises a cooling fan 114 aligned with the exhaust passage. 这样,冷空气从底层的进气通道112进入,在散热风扇的作用下从排气通道114排出,散热设计合理。 Therefore, cool air enters from the bottom of the intake passage 112, is discharged from the exhaust passage 114 under the action of the cooling fan, reasonable thermal design.

[0022] 在本实施例中,为了让充电系统100能在室外使用,进行了良好的防水设计。 [0022] In the present embodiment, in order to allow the charging system 100 can be used outdoors, had good waterproof design. 进气通道112为向下且向充电柜10外部倾斜的进气栅,排气通道114同样为向下且向充电柜10 外部倾斜的排气栅。 An intake passage 112 is inclined downward and to the cabinet 10 external charging inlet gate, the same exhaust passage 114 is inclined downward and to the external charging cabinet exhaust gate 10. 这样,即使有被风带入充电柜10的雨水,也会顺着倾斜方向被外引。 Thus, even if rainwater is charged into air cabinet 10, also inclined along the direction of introduced. 充电柜10还在底部设有防浸水层140,在意外浸水时,由于该层的存在,水会在重力作用下被引导至该层,对电线、充电机20等设备起到保护作用。 Charging cabinet 10 is also provided with a bottom layer 140 preventing flooding, immersion in the accident, since the presence of this layer, water will be directed to the layer under the action of gravity, the electric wire, the charging unit 20 and other equipment protection. 在大量浸水时进气栅可以起排水通道的作用。 When flooding a large number of inlet gates may act as drainage channels. 防浸水层140和电线放置层130交界处设有电线承重板132,为保证良好的通风效果可在电线承重板132上开设通风孔。 Anti-flooding and wire layer 140 disposed wire layer 130 is provided at the junction of the bearing plate 132, to ensure good ventilation effect on the load-bearing plate 132 defines vent the wire.

[0023] 场能充电系统100还包括充电控制模块30。 [0023] The field energy charging system 100 further includes a charge control module 30. 充电控制模块30设于充电柜10内, 靠近充电柜10顶部且位于充电机层120,这样的位置能保证较好的防水效果。 Charge control module 30 provided in the cabinet 10 is charged, the charge near the top of the cabinet 10 and positioned charger layer 120, such position can ensure better waterproof effect. 充电控制模块30与充电机20通过电线连接,用于控制充电机20进行充电工作。 And the charge control module 30 by a wire 20 connected charger, the charging unit 20 for controlling the charging operation. 充电柜10包括布线槽12,用于容纳电线并引导水流(主要是雨天可能进入充电柜10的雨水)。 Charging cabinet 10 includes a wiring groove 12 for receiving the guide wire and water (rain rain may enter the main charge of the cabinet 10). 布线槽12设于充电柜10内,沿两块侧板中的一块与顶板交界的边缘(从充电控制模块30引出的电线起)、与后板104交界的边缘一路引至防浸水层140。 A wiring groove 12 provided in the charge within the cabinet 10, two side panels along a boundary edge of the top plate (from the charge control module 30 from the wire drawn out), and the rear edge of the plate 104 at the junction of the way lead to the flooding prevention layer 140. 充电柜10的顶板与两块侧板、充电机门1032以及后板104的交界处设有槽式的密封橡胶(图3中未标示),以增强防水性能。 Charging cabinet top plate 10 and two side panels, the charging door 1032 and the rear plate 104 at the junction of the trough is provided with a seal rubber (not shown in FIG. 3), to enhance the waterproof performance.

[0024] 前门103上设有启动按钮122、显示屏124、感应区126以及门锁128。 [0024] The front door 103 is provided with a start button 122, the display 124, sensing region 126 and the door 128. 启动按钮122用于控制场能充电系统100的打开与关闭,显示屏1¾用于显示充电状态,感应区1¾ 用于与充电缴费用的介质(例如充值磁卡)进行信息交互。 Start button 122 for controlling the field can open and close the charging system 100, a display screen for displaying the state of charge of 1¾, sensing region 1¾ charging fees for use of medium (e.g., magnetic card recharge) for information exchange. 启动按钮122、显示屏124以及感应区1¾均与充电控制模块30电连接。 Start button 122, the display 124, and 1¾ sensing region are connected electrically to the charge control module 30. 在本实施例中,启动按钮122、显示屏124、感应区1¾均设置在充电机门1032上。 In the present embodiment, the start button 122, the display 124, the sensing region 1¾ are disposed on the charging door 1032. 充电机门1032和电线门1034各有一个门锁128。 Charging door 1032 and the wire 1034 have a door lock 128. 还可以在前门103上安装电源指示灯,指示充电的状态。 You may also be mounted on the front door power indicator 103, indicating the charged state.

[0025] 场能充电系统100还包括场能发送装置40(图1〜图3中未示),场能发送装置40用于将电能转换为电磁波后发送给场能接收装置(安装在用电器上),由场能接收装置将电磁波转换为直流电,对用电器进行充电。 [0025] The field energy charging system 100 further comprises a field power transmission device 40 (not shown in FIG. 1 ~ 3), the field energy transmission means 40 for converting electrical energy to be sent to the receiving device after the electromagnetic field energy (electrical installation with a), can be received by the field device converts the direct current to the electromagnetic waves, electrical appliances with rechargeable. 由于能量是通过场能传导,因此与用电器(例如电动车)间无需通过电源线相连。 Since energy is the energy conducting by the field, and therefore need not connected to appliances (e.g., electric vehicle) through a power line between.

[0026] 图4是一个实施例中场能发送装置40的结构图,场能发送装置40包括: [0026] FIG. 4 is an example of a configuration diagram of transmitting energy midfielder embodiment of the apparatus 40, apparatus 40 can send the field comprising:

[0027] 整流回路410,用于将充电机生成的交流电转化为直流电并进行整流处理。 [0027] The rectifying circuit 410 for the alternating current into direct current generated by the charging machine and rectifying process.

[0028] 检测模块420,用于检测场能接收装置是否有负载加载(即是否有用电器需要充电),若有,则生成检测信号,并发送检测信号到处理模块440。 [0028] The detection module 420, receiver means for detecting whether the field can be loaded with a load (i.e., the usefulness of electrical charge needed), and if so, generates a detection signal, and sends a detection signal to the processing module 440.

[0029] 信号接收模块430,用于接收场能接收装置发送的充电信息,并发送到处理模块440。 [0029] The signal receiving module 430, configured to receive charging information field energy sent from the receiving apparatus, and transmitted to the processing module 440.

[0030] 处理模块440,用于根据检测信号生成初始化输出功率信号,并根据充电信息生成功率调整控制信号,发送初始化输出功率信号和功率调整控制信号给功率发送模块450。 [0030] Processing module 440, generates a detection signal according to the output power of the initialization signal, and generates a power control signal is adjusted according to the charging information, and transmit the initialization power signal output power adjustment control signal to the power transmission module 450.

[0031] 功率发送模块450,用于根据初始化输出功率信号初始化输出功率,并根据功率调整控制信号调整所述输出功率,根据调整后的输出功率将整流处理后的直流电转换为电磁波进行发送。 [0031] The transmission power module 450, according to the initialization output power signal for initializing the output power and the output power is adjusted based on the power adjustment control signal, an electromagnetic wave is transmitted in accordance with the converted DC power output adjusted to rectify.

[0032] 由于场能充电系统充电时无需与用电器(例如电动车)通过电源线连接,节省了空间、简化了操作。 [0032] Since the charging system can charge the field need not be connected by a power cord with a collector (e.g., electric vehicles), saves space, simplifies operation. 且隔离式充电的形式对用电器有较好的安全性。 And isolated in the form of charging better safety to electrical appliances.

[0033] 以上所述实施例仅表达了本发明的几种实施方式,其描述较为具体和详细,但并不能因此而理解为对本发明专利范围的限制。 [0033] Expression of the above-described embodiments are only several embodiments of the present invention, and detailed description thereof is more specific, but can not therefore be understood as limiting the scope of the present invention. 应当指出的是,对于本领域的普通技术人员来说,在不脱离本发明构思的前提下,还可以做出若干变形和改进,这些都属于本发明的保护范围。 It should be noted that those of ordinary skill in the art, without departing from the spirit of the present invention, can make various changes and modifications, which fall within the protection scope of the present invention. 因此,本发明专利的保护范围应以所附权利要求为准。 Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. 一种场能充电系统,其特征在于,包括充电柜、充电机以及与充电机相连的电线,所述充电柜在底部设有用于容置电线的电线放置层,在顶部设有用于容置充电机的充电机层,所述充电柜包括设于所述充电机层的充电机承重板。 A field energy charging system comprising a charging cabinet, charger and an electric wire connected to the charging unit, said charging wire is placed is provided at the bottom of the cabinet for accommodating electric wire layer, is provided at the top for receiving facing layer of the charging charger machine, comprising a cabinet provided in the charging of the charging unit charging machine bearing plate layer.
2.根据权利要求1所述的场能充电系统,其特征在于,所述充电柜为长方体且宽度与所述充电机的宽度相匹配,所述充电柜包括顶板、底板、前门、后板以及两块侧板,所述前门和/或后板在靠近所述充电柜的底部处开设有进气通道,所述后板在充电机层处开设有排气通道。 The field energy charging system according to claim 1, wherein said charge is a rectangular parallelepiped cabinet and a width that matches the width of the charger, the charging cabinet includes a top, bottom, front, and rear plate two side panels, the front and / or rear plate defines an intake passage near the bottom of the charging cabinet, the rear plate at the level of the charging machine defines an exhaust passage.
3.根据权利要求2所述的场能充电系统,其特征在于,所述进气通道为向下且向充电柜外部倾斜的进气栅,所述排气通道为向下且向充电柜外部倾斜的排气栅,所述充电柜还在底部设有防浸水层,所述防浸水层和电线放置层交界处设有电线承重板。 Field according to claim 2, wherein the energy charging system, wherein the intake passage is inclined downward and to the external charging cabinet intake gate, and the downward exhaust passage to the external charging cabinet inclined exhaust gate, the charge is also provided with the cabinet bottom layer water soak, the anti-flooding and wire layer disposed wire layer is provided at the junction of the bearing plate.
4.根据权利要求3所述的场能充电系统,其特征在于,所述场能充电系统包括充电控制模块,所述充电控制模块设于充电柜内,靠近充电柜顶部并位于所述充电机层,所述充电控制模块与充电机通过所述电线连接,用于控制充电机进行充电。 4. The energy charging system according to claim 3 field, wherein the field energy charging system includes a charging control module, the module is provided in the charging charge control cabinet, and the cabinet is located near the top of the charging charger layer, the charge control module and charger is connected via the wire, for controlling the charger to charge.
5.根据权利要求4所述的场能充电系统,其特征在于,所述充电柜包括布线槽,用于容纳所述电线并引导水流;所述布线槽设于充电柜内,沿所述两块侧板中的一块与顶板交界的边缘、与后板交界的边缘一路弓I至所述防浸水层。 The field according to claim 4, wherein energy charging system, characterized in that said cabinet comprises a charge wiring grooves for receiving the guide wire and water; said wiring groove provided in the charging cabinet, along the two the side plates and a top plate of the junction edge, and the rear plate along the boundary edge of the bow to the anti-flooding I layer.
6.根据权利要求3所述的场能充电系统,其特征在于,所述前门上设有启动按钮、显示屏、感应区以及门锁;所述启动按钮用于控制所述场能充电系统的打开与关闭,所述显示屏用于显示充电状态,所述感应区用于与充电缴费用的介质进行信息交互;所述启动按钮、显示屏以及感应区均与所述充电控制模块电连接。 The field energy charging system of claim 3, wherein the front door is provided with a start button, the display, and the door lock sensing region claim; the start button for controlling the field energy charging system open and close the display screen for displaying the state of charge, the sensing region for the charging medium to perform information interaction with the payment; the start button, the display and sensing region of the charge control module are electrically connected.
7.根据权利要求2所述的场能充电系统,其特征在于,所述充电机承重板上开设有通风孔,所述通风孔上方、充电机与前门之间有供空气流通的空间,所述充电机包括对准所述排气通道的散热风扇。 7. The field energy according to claim 2, charging system, characterized in that the bearing plates defines a charger ventilation holes for air circulation space between the upper vent hole, the charger and the front door, the said charger comprises aligning the exhaust passage of the cooling fan.
8.根据权利要求2所述的场能充电系统,其特征在于,所述场能充电系统包括密封橡胶,所述密封橡胶设于所述顶板与两块侧板、前门、后板的交界处。 8. The field energy charging system according to claim 2, wherein the field energy charging system includes a rubber seal, the seal rubber provided on the top panel and two side panels, front, rear plate junction .
9.根据权利要求1所述的场能充电系统,其特征在于,所述场能充电系统包括场能发送装置,所述场能发送装置用于将电能转换为电磁波后进行发送。 9. The energy farm of claim 1, wherein the charging system, wherein the system comprises a charging field energy field energy transmitting means, means for transmitting said field energy to convert electrical energy to transmit the electromagnetic waves.
10.根据权利要求9所述的场能充电系统,其特征在于,所述场能发送装置包括:整流回路,用于将所述充电机生成的交流电转化为直流电并进行整流处理;检测模块,用于检测是否有负载加载,若有,则生成检测信号,并发送检测信号到处理模块;信号接收模块,用于接收充电信息,并发送到处理模块;处理模块,用于根据检测信号生成初始化输出功率信号,并根据充电信息生成功率调整控制信号,发送所述初始化输出功率信号和功率调整控制信号给功率发送模块;功率发送模块,用于根据初始化输出功率信号初始化输出功率,并根据所述功率调整控制信号调整所述输出功率,根据调整后的输出功率将整流处理后的所述直流电转换为电磁波进行发送。 10. The field according to claim 9 energy charging system, wherein the field energy transmission device comprising: a rectifying circuit, for generating the AC charger into direct current and a rectifying processing; detection module, for detecting whether a load is loaded, and if so, generates a detection signal, and sends a detection signal to the processing module; signal receiving module for receiving charge information and sent to the processing module; processing module, for generating a detection signal to initialize output power signal, and generates charge information in accordance with a power control signal to adjust the transmission power of the initialization signal and the output power adjustment control signal to the power transmission module; power transmitting module, configured according to the initialization signal to initialize the output power of the output power, and according to the a power adjustment control signal adjusts the output power according to the transmitted electromagnetic wave converts the DC output of the rectified power after the adjustment process.
CN2011101186377A 2011-05-09 2011-05-09 Field energy charging system CN102185352A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103997097A (en) * 2014-06-04 2014-08-20 东莞中山大学研究院 Electric minibus charging booth

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2010035545A1 (en) * 2008-09-26 2010-04-01 株式会社村田製作所 Non-contact recharging system
CN101917048A (en) * 2010-09-09 2010-12-15 深圳市五洲龙汽车有限公司 Field energy sending device and field energy receiving device
CN201742116U (en) * 2010-06-30 2011-02-09 深圳市五洲龙汽车有限公司 Charging cabinet
CN102035221A (en) * 2009-09-25 2011-04-27 北京华旗资讯数码科技有限公司 Large-sized wireless power supply device

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2010035545A1 (en) * 2008-09-26 2010-04-01 株式会社村田製作所 Non-contact recharging system
CN102035221A (en) * 2009-09-25 2011-04-27 北京华旗资讯数码科技有限公司 Large-sized wireless power supply device
CN201742116U (en) * 2010-06-30 2011-02-09 深圳市五洲龙汽车有限公司 Charging cabinet
CN101917048A (en) * 2010-09-09 2010-12-15 深圳市五洲龙汽车有限公司 Field energy sending device and field energy receiving device

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103997097A (en) * 2014-06-04 2014-08-20 东莞中山大学研究院 Electric minibus charging booth

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