CN105813326A - Professional lighting power supply control method and system - Google Patents

Professional lighting power supply control method and system Download PDF

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Publication number
CN105813326A
CN105813326A CN201410857661.6A CN201410857661A CN105813326A CN 105813326 A CN105813326 A CN 105813326A CN 201410857661 A CN201410857661 A CN 201410857661A CN 105813326 A CN105813326 A CN 105813326A
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China
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power supply
phase
model
port
socket
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CN201410857661.6A
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Chinese (zh)
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周利鹤
杨华祥
黄庆杰
李株亮
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广州励丰文化科技股份有限公司
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Priority to CN201410857661.6A priority Critical patent/CN105813326A/en
Publication of CN105813326A publication Critical patent/CN105813326A/en

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Abstract

The invention relates to the technical field of stage and movie and television lighting and specifically relates to a professional lighting power supply control method and system. The method comprises the following steps: a system model is chosen or established; a power supply area model is chosen or established; power supply port models, power supply module models and/or lamp models are established, deleted or edited on a power supply area view; the power supply module models and on-line entity power supply models are subjected to pairing operation. Connection relations between all the models are edited in a chosen power supply area. Pairing output condition of a power supply system can be monitored on line. According to the professional lighting power supply control method and system, power supply condition of power supply modules and all power supply links in units of power supply ports can be monitored and detected via a control host computer on line at key framework nodes of a lighting power supply system, and a key difficult technical problem that overall power supply condition and local power supply condition cannot be grasped timely when a next generation lighting power supply system is used is addressed.

Description

专业灯光供电控制方法及系统 Professional Lighting power control method and system

技术领域 FIELD

[0001] 本发明涉及舞台影视灯光技术领域,具体是一种专业灯光供电控制方法及系统。 [0001] The present invention relates to stage lighting film technology, and in particular a professional lighting systems and power supply control method.

背景技术 Background technique

[0002] 影视、剧场、舞台等场合所使用的专业灯具需要进行调光控制,因此其供电系统与其他的供电系统有很大区别。 [0002] professional lighting film and television, theater, stage and other occasions used the need for dimming control, so the power supply system and other power supply system is very different. 这类供电系统一直采用调光柜进行集中的调光和供电控制,例如对于大型的剧场(或演播室),其调光、直通回路数量可达到几百路,甚至几千路,这些回路的配电设备和调光设备(即调光柜)全部集中安装在一个专门设置的房间一一硅控室内。 Such power supply system has been used dimmer rack dimming and centralized power control, for example, a large theater (or studio), which dimming, the number of the through circuit path can reach hundreds, thousands or even road, these circuits distribution equipment and a dimming device (i.e., dimmer rack) mounted all concentrated in a room specially provided eleven silicon controlled chamber. 供电部门把全部电量输送至硅控室,然后在这里进行电量的分配、调整、控制,最后再输送至各回路的灯具上。 The electricity sector power delivered to all silicon-controlled chamber, then partitioned electricity here, adjustment, control, and finally to the lose of each circuit to the lamp.

[0003] 这类灯光供电系统的本质是回路供电,在硅控室就已经把最终使用回路的数量、规格、性质(调光或直通)全部确定,然后据此进行供电系统布线,每个回路输出的是单相电,后面只能对供电系统进行微调,很难进行大的调整。 [0003] The nature of these lighting circuit power supply is a power supply system, it has the number of end-use circuit, specifications, properties (dimming or straight) determined in all silicon-controlled chamber, and accordingly power wiring system, each circuit output the single-phase power, behind only fine-tune the power supply system, it is difficult big adjustment. 但是艺术灯光无一定之规,不同剧种,剧目,艺术家之间存在很大差异。 However, no definite rules about art lighting, there is a big difference between different genres, repertoire, artists. 在哪里用灯,用多少灯,什么性质的灯,多大功率,都是要根据剧目要求,导演、舞美、灯光师的艺术见解,由灯光师或艺术家临时设定,并不断调整完善。 Where lights, how much light, what is the nature of light, more power, according to all repertoire requirements, directing, choreography, lighting division of artistic views, temporarily set by the gaffer or artist, and constantly adjust and improve. 因此造成预设布线点无法覆盖实际应用点,也无法满足实际使用的回路规格、性质要求等情况,从而产生一系列的问题。 Thus creating a preset point wiring can not cover the actual point of application, can not meet the specifications of the actual use of loops, property requirements, etc., resulting in a series of problems.

[0004] 为了解决传统专业灯光的供电系统的固有缺陷,本申请人提出了下一代的专业灯光供电系统,该系统采用本领域首创的区域功率供电方式,通过分散的区域功率供电和将调光控制放到终端供电模块的方式,既不事先限定每条线路的功率(只限定了区域供电功率),也不事先限定每条线路的性质(如需调光,可临时接上可调光的供电模块),而且灯具位置和数量也可以临时调整(增加或减少串接插座模块数量),使得工程人员在把握区域总用电功率不超过该区域配电箱的最大供电功率的前提下,可以根据实际需要现场快速调整灯光设备的数量、功率和位置,极大提高灯光系统设计和安装的灵活性,降低灯光系统安装和设计的难度,为灯光艺术创作提供更加广阔的空间。 [0004] In order to solve the defects inherent in the conventional power supply system of professional lighting, the present applicant has proposed a system of the next generation of professional lighting power supply, the system uses the first area of ​​the art power supply, the power supply through the discrete areas and the dimming into the control terminal of the power supply module, either defined in advance for each power line (power supply only define the region), are not defined in advance the nature of each line (For dimming, temporarily connected to a dimmable power supply module), and the position and number of lamps may temporarily adjust (increase or decrease the number of modules in series sockets), so that engineers at the maximum power region grasp the total electric power does not exceed the area distribution box premise, can the actual site needs to quickly adjust the number, power and location of lighting equipment, greatly improve the flexibility of the design and installation of lighting systems, lighting systems reduce the difficulty of installation and design, to provide a broader space for the lighting art. 同时更重要的是,该灯光供电系统还可以节约大量电缆、插座和调光设备,同等规模剧场,理论计算值电缆节约在86%以上,调光设备节约在70%以上,插座节约在60%以上,一个剧场铜的使用量可减少十几吨到数十吨,更加环保经济。 And more importantly that the lighting power supply system may also save a lot of cables, sockets and dimming apparatus, the same scale theater, the theoretical value cables save 86% or more, the dimming device to save more than 70%, the receptacle save 60% above, the use of a theater more than ten tons of copper can be reduced to tens of tons, more environmentally friendly economy.

[0005] 虽然上述下一代专业灯光供电系统存在诸多优势,但用户在实际使用会碰到一些新问题。 [0005] Although there are many advantages above the next generation of professional lighting power supply system, but in actual use, the user will encounter some new problems. 例如在灯光系统设计阶段,灯光设计师增删某些灯具或非灯具类演艺设备时,可能会出现超过区域总功率限制或三相不平衡的问题;又例如在灯光系统调试或演出使用阶段,工程人员无法随时掌握各区域、各供电模块的功率、电压、电流、三相平衡是否出现异常,因此无论是灯光系统的设计阶段还是使用阶段都会碰都一些影响使用和用户体验的技术难题。 For example, when the lighting system design stage, lighting designer or lighting fixtures add or delete certain class entertainment equipment, may appear to limit the total power or three-phase imbalance problem over the area; another example in lighting system debugging or performance use phase, the project staff can not keep abreast of each region, each power supply module power, voltage, current, three phase anomaly appears, so whether it is the design phase of the lighting system or the use of stage will have some impact on the use and touch user experience technical problems.

[0006] 因此研发与上述下一代的专业灯光供电系统配合使用的专业灯光供电监测/管理系统,从而解决用户在灯光系统设计和使用阶段所碰到的上述问题,对于下一代专业灯光供电系统推广应用具有非常重要的意义。 [0006] Thus the above-described developing the next generation of professional lighting power supply system for use with professional lighting power monitoring / management system to solve the above problem in the lighting system design and user use phase encountered, the power supply system for the next generation of professional lighting promotion application has very important significance.

发明内容 SUMMARY

[0007] 本发明解决的技术问题是提供一种专业灯光供电控制方法及系统,以解决下一代灯光供电系统在设计阶段和使用阶段碰到的技术问题。 [0007] The present invention solves the technical problem is to provide a professional lighting power control method and system to solve the technical problems encountered in the next generation of lighting power supply system in the design phase and use phase.

[0008] 为解决上述技术问题,本发明提供的技术方案是: [0008] To solve the above technical problem, the technical solution provided by the present invention are:

一种专业灯光供电控制方法,该方法通过控制主机对基于区域功率供电的灯光供电系统进行供电管理, As a professional lighting power supply control method of the lighting power managed supply system based on the control region of the power supply by the host,

所述灯光供电系统包括:电源配电系统和若干个区域配电箱,该电源配电系统用于接收外部电源并分配至各个区域配电箱,每个配电箱用于为设定的一个或多个供电区域的用电设备提供电源,区域配电箱向一组或多组供电模块供电,每组供电模块包括一个或多个串联的供电模块。 The light supply system comprising: a power distribution system and a number of regional distribution box, the power distribution system and for receiving an external power supply allocated to each area distribution box, distribution box for each of a set of a plurality of electrical equipment or power regions provide power supply to the area distribution box power supply module one or more groups, each power supply module comprises one or more series of power modules. 该区域配电箱与供电模块之间、供电模块与供电模块之间均通过多芯电缆连接,该多芯电缆至少包括A相线、B相线、C相线、零线、地线;每个区域配电箱有一个或多个供电口,每个供电口向一组或多组供电模块供电,每组供电模块包括一个或多个串联的供电模块,供电区域是由配电柜的一个或多个供电口提供电源的用灯范围; The region between the distribution box and power supply module, the power supply between the power supply module and the modules are connected by a multi-core cable, multicore cable comprises at least the A phase, B phase, C phase, neutral and ground; per regional distribution box with one or more supply ports, each port to supply a power supply module or more groups, each power supply module comprises one or more series of power modules, a power supply area of ​​the switch cabinet or providing a plurality of power supply ports lights range;

所述供电模块为三联两用供电模块、A相单联两用供电模块、B相单联两用供电模块、C相单联两用供电模块、A相单联直通供电模块、B相单联直通供电模块或C相单联直通供电模块; The power supply module is a dual power supply module terphenyl, A dual power supply modules associated with a single, B associated with a single dual-purpose power supply module, C associated with a single dual-purpose power supply module, A pass-through associated with a single power supply module, B-phase single-associated C-phase power supply module or pass-through associated through a single power supply module;

所述三联两用供电模块包括:A相线、B相线、C相线、零线、地线,以及三相电输入插座、三相电输出插座、一A相灯座口、一B相灯座口、一C相灯座口、漏电保护单元、开关单元、调光器、DMX调光控制单元、切换单元、网络监测单元,所述灯座口连接至零线、地线和其中一相线,用于向插接至该灯座口的灯具提供单相电;各所述灯座口与一漏电保护单元、一开关单元、一切换单元和一调光器对应,所述切换单元的一端与相线通过一连接线缆连接,另一端与灯座口之间并联有直通线路和调光线路,所述漏电保护单元、开关单元设置在所述切换单元的该一端与相线之间的连接线缆上,所述调光器设置在该调光线路上,所述切换单元与所述网络监测单元连接,用于根据其发出的控制信号选择直通线路或调光线路;所述DMX调光控制单元设有DMX信号输入接口和DMX The triple dual power supply module comprises: A phase, B phase, C phase, neutral and ground, and a three-phase power input socket, an electrical three-phase output socket, a socket port A phase, a B phase mouth socket, a socket-phase C port, leakage protection unit, a switch unit, dimmers, the DMX dimming control unit, a switching unit, a network monitoring unit, the socket port is connected to the neutral line, a ground line, and wherein phase line for providing single-phase power to the plug socket to the lamp opening; each of said socket port and a leakage protection unit, a switching unit, a switching unit and a dimmer corresponding to the switching unit one end of the phase line is connected via a cable connection, with a direct line between the parallel lines and dimming the other end of the socket port, the leakage protection unit, the switching unit provided at one end of the phase of the switching means the connection between the cable, the dimmer the light path provided in the transfer, the switching unit is connected with the network monitoring unit, a control signal for selecting the line or straight line which emits light modulated according to; the DMX dimming control unit has an input interface and DMX signal DMX 信号输出接口,用于根据外部输入的DMX信号对一个或多个调光器进行控制,从而实现对连接至灯座口的调光灯具进行调光控制;所述开关单元用于根据网络监测单元的控制信号对各灯座口的供电进行远程开关控制;所述网络监测单元设有网络信号输入接口和网络信号输出接口,用于获取各相线的电压、电流、灯座口的输出电流,并将这些数据反馈给与该供电模块建立网络连接的控制主机,以及用于根据控制主机发出的控制信息向该开关单元发出接通或断开的控制信号和向该切换单元发出接通调光线路或接通直通线路的控制信号; Signal output interface for an external input in accordance with the DMX signal to one or more dimmer control, thereby achieving port connected to the socket dimming control for dimming the lamp; the switching unit according to the network monitoring unit the remote control signal of the switching control power of each socket opening; the network monitoring unit is provided with a network interface and a network signal input signal output interface, for acquiring the respective phase voltage, current, the output current of the socket opening, these data and give feedback to the power control module establishes a host network connection, and for issuing a control signal for turning on or off and to turn on the switching unit sends information to, the dimming control in accordance with the switching unit from the control panel signal on control line or straight line;

所述单联直通供电模块包括:A相线、B相线、C相线、零线、地线,以及三相电输入插座、三相电输出插座、灯座口、漏电保护单元、开关单元、网络监测单元,所述灯座口连接至零线、地线和其中一相线,用于向插接至该灯座口的灯具提供单相电;灯座口与一漏电保护单元和一开关单元对应,该漏电保护单元、开关单元设置在灯座口与相线连接的线路上;所述开关单元用于根据网络监测单元的控制信号对各灯座口的供电进行远程开关控制;所述网络监测单元设有网络信号输入接口和网络信号输出接口,用于获取各相线的电压、电流、灯座口的输出电流,并将这些数据反馈给与该供电模块建立网络连接的控制主机,以及用于根据控制主机发出的控制信息向该开关单元发出接通或断开的控制信号; The single joint through power supply module comprising: A phase, B phase, C phase, neutral and ground, and a three-phase power input socket, an electrical three-phase output socket, the socket mouth, leakage protection unit, a switch unit , the network monitoring unit, the socket port is connected to the neutral line, wherein a phase line and the ground line for providing single-phase power to the plug socket to the lamp opening; opening with a socket and a leakage protection unit corresponding to the switching unit, the leakage protection unit, a switch unit disposed on a line and phase line socket connection ports; and the remote switching unit for performing switching control of power supply ports each socket in accordance with a control signal the network monitoring unit; the said network monitoring unit is provided with a network interface and a network signal input signal output interface, for obtaining voltage and current, the output current of each phase line of the socket outlet, and the data of the power supply module to give feedback control of the host to establish a network connection , and for issuing a control signal is turned on or off according to the switching control information from the control panel of the unit;

所述单联两用供电模块包括:A相线、B相线、C相线、零线、地线,以及三相电输入插座、三相电输出插座、灯座口、漏电保护单元、开关单元、调光器、DMX调光控制单元、切换单元、网络监测单元,所述灯座口连接至零线、地线和其中一相线,用于向插接至该灯座口的灯具提供单相电;所述灯座口与一漏电保护单元、一开关单元、一切换单元和一调光器对应,所述切换单元的一端与相线通过一连接线缆连接,另一端与灯座口之间并联有直通线路和调光线路,所述漏电保护单元、开关单元设置在所述切换单元的该一端与相线之间的连接线缆上,所述调光器设置在该调光线路上,所述切换单元与所述网络监测单元连接,用于根据其发出的控制信号选择直通线路或调光线路;所述DMX调光控制单元设有DMX信号输入接口和DMX信号输出接口,用于根据外部输入的 The power supply module comprises a dual simplex: A phase, B phase, C phase, neutral and ground, and a three-phase power input socket, an electrical three-phase output socket, the socket mouth, leakage protection unit, a switch means, dimmers, the DMX dimming control unit, a switching unit, a network monitoring unit, the socket port is connected to the neutral line, wherein a phase line and the ground line for supplying the plug to the lamp socket port single phase; a drain port and a socket protection unit, a switching unit and a switching unit corresponding to a dimmer, one end of the switching unit is connected by a line with a connecting cable, the other end of the socket there are parallel lines between the ports and through the dimming circuit, the leakage protection unit, a switch unit is disposed on one end of the cable between the phase line and the switching unit, the dimmer setting the dimming on the line, the switching means is connected with the network monitoring unit, according to the control for selecting a dimming direct line or signal line which is given; the DMX dimming control unit has an input interface and DMX signal DMX signal output interface, the external input for DMX信号对一个或多个调光器进行控制,从而实现对连接至灯座口的调光灯具进行调光控制;所述开关单元用于根据网络监测单元的控制信号对各灯座口的供电进行远程开关控制;所述网络监测单元设有网络信号输入接口和网络信号输出接口,用于获取各相线的电压、电流、灯座口的输出电流,并将这些数据反馈给与该供电模块建立网络连接的控制主机,以及用于根据控制主机发出的控制信息向该开关单元发出接通或断开的控制信号和向该切换单元发出接通调光线路或接通直通线路的控制信号; DMX signal to one or more dimmer control, enabling the socket to a port connected dimming control for dimming the lamp; a switching unit for supplying power to each port of the socket according to the control signal network monitoring unit remote control switch; the network monitoring unit is provided with a network interface and a network signal input signal output interface, for obtaining voltage and current, the output current of each phase line of the socket outlet, and feedback data giving the power supply module establishing a network connection control panel, and a control signal based on the control information sent to the host unit issues a switch turned on or off and to turn on the switching unit emits light control signal on control line or a straight line;

上述各类所述供电模块还包括一个或多个显示单元,每个灯座口对应一个显示单元,各显示单元与供电模块中的网络监测单元连接,用于根据控制主机发出的控制指令进行开关和显示,每个显示单元可显示若干个字符,所述供电模块的设备标识用其所包含的显示单元所显示的字符按所述供电模块的三相电输入端至三相电输出端方向或相反方向依次显示内容所形成的字符串表示; The above types of power supply module further comprises one or more display units, each display unit corresponds to one socket opening, each display cell of the network power supply monitoring unit module is connected, according to the control command performs switching control of the host and a display, each display unit may display a plurality of characters, which device identifier of the power module with the display unit included therein is displayed by the three-phase power input terminal of the power supply module to the three-phase electrical output direction or sequentially displaying the contents of the string in the opposite direction represented formed;

该方法包括: The method comprising:

选择或建立系统模型; Select or create a system model;

选择或建立一供电区域模型,并在图形用户界面上显示相应的供电区域视图; Select or create a supply region model, and displays the corresponding supply area in view of the graphical user interface;

在供电区域视图中建立、删除或编辑供电口模型,供电模块模型,和/或灯具模型,并配对供电模块模型和在线实体供电模型; Establishing in the power supply area view, edit or delete the power supply port model, model power supply module, and / or lighting model, and pair-line power supply module and a model power solid model;

在选定的供电区域中编辑各个模型之间的连接关系; Edit connection relationship between each model in the selected power region;

对系统模型中各个供电区域的各个供电口模型的下述一个或多个数值的异常情况进行监控和/或报警:各个供电口模型的各相链路总输出功率、各个供电口模型的三相电流平衡;同时,还可以选择对各个已配对在线供电模块模型所对应的实体供电模块下述一个或多个数值的异常情况进行监控和/或报警:各相电压、各相线电流、三相电压平衡、各灯座口的输出电流、各灯座口的输出功率。 The following exceptions for each feeding port model system model of each of the power supply area of ​​one or more values ​​to monitor and / or alarm: each link of each phase power supply port model the total output power, each of the three-phase power supply port Model current balance; can also select the following each one pair of paired line power supply module corresponding to the model entity power supply module or a plurality of abnormal values ​​to monitor and / or alarm: the phase voltage of each phase line current, three-phase voltage balance, the output current of each socket opening, each port output power socket.

[0009] 与现有技术相比,有益效果如下:本发明的控制主机与供电模块建立网络连接,同时在控制主机上建立相应系统模型、供电口模型和供电模块模型,对灯光供电系统的关键框架节点,即供电模块的供电情况以及各个以供电口为单位的供电链路的供电情况进行监测,从而解决使用下一代灯光供电系统使用过程中遇到的无法及时掌握整体和局部供电情况的关键技术难题。 [0009] Compared with the prior art, the following advantageous effects: the control panel with the power supply module of the present invention establish a network connection, while establishing a corresponding system model, the model and power supply module port on the control panel models, lighting the key to the power supply system supply node key frame case, i.e. the case of power supply to the individual modules and power supply units of the link port is monitored, so as to solve not grasp the next-generation lighting power supply system encountered in the use of global and local power supply conditions technical challenge.

附图说明 BRIEF DESCRIPTION

[0010] 图1是实施例一的调光供电模块结构示意图。 [0010] FIG. 1 is a schematic diagram of dimming module configuration diagram of a power supply of the embodiment.

[0011]图2是实施例一的直通供电模块结构示意图。 [0011] FIG. 2 is a schematic diagram of the power supply through the module structure of the first embodiment.

[0012]图3是实施例一的两用供电模块结构示意图。 [0012] FIG. 3 is a schematic view of dual configuration example of a power supply module of the embodiment.

[0013] 图4是实施例二的方法步骤流程图; [0013] FIG. 4 is a flowchart illustrating steps of a method according to the second embodiment;

图5是图4中步骤S30的具体步骤流程图; FIG 5 is a step in the step of FIG. 4 S30 detailed flowchart;

图6是图5中步骤S31的具体步骤流程图; FIG 6 is a diagram illustrating the specific steps Step 5 S31 flowchart;

图7是图5中步骤S32的具体步骤流程图; FIG 7 is a step in the step of FIG. 5 S32 detailed flowchart;

图8是图5中步骤S33的具体步骤流程图; FIG 8 is a step in the step of FIG. 5 S33 detailed flowchart;

图9是图5中步骤S34的实现方法之一流程图; FIG 5 FIG 9 is one method implemented in step S34 of the flowchart;

图10是图5中步骤S34的实现方法之二流程图; FIG 10 is a flowchart of the implementation of the two step S34 of FIG 5;

图11是图4中步骤S40的具体步骤流程图; FIG 11 is a step in the step of FIG. 4 S40 detailed flowchart;

图12是实施例三的结构示意图。 FIG 12 is a schematic structural diagram of a third embodiment.

具体实施方式 Detailed ways

[0014] 下面结合实施例和附图对本发明的技术方案作进一步的说明。 [0014] The following Examples and accompanying drawings aspect of the present invention will be further described.

[0015] 实施例一 [0015] Example a

本实施例提供一种基于区域功率供电的灯光供电系统,该系统包括:电源配电系统和若干个区域配电箱,该电源配电系统用于接收外部电源并分配至各个区域配电箱,每个配电箱用于为设定的一个或多个供电区域的用电设备提供电源,区域配电箱向一组或多组供电模块供电,每组供电模块包括一个或多个串联的供电模块。 The present embodiment provides a lighting system based on power supply region of the power supply, the system comprising: a power distribution system and a number of regional distribution box, the power distribution system and for receiving an external power supply distribution box assigned to the respective regions, each distribution box for supplying power to electrical power supply device according to one or more regions of the set area distribution box to a power supply module or more groups, each power supply module comprises one or more series of module. 该区域配电箱与供电模块之间、供电模块与供电模块之间均通过多芯电缆连接,该多芯电缆至少包括A相线、B相线、C相线、零线、地线,即该多芯电缆用于传输三相电,可以是五芯电缆、十芯电缆或十五芯电缆等。 The region between the distribution box and power supply module, the power supply between the power supply module and the modules are connected by a multi-core cable, multicore cable comprises at least the A phase, B phase, C phase, neutral and ground, i.e., the multi-core cable for the transmission of three-phase, five-core cable may be ten or fifteen core cable core cables.

[0016] 在本实施例中,每个区域配电箱有一个或多个供电口,每个供电口向一组或多组供电模块供电,每组供电模块包括一个或多个串联的供电模块。 [0016] In the present embodiment, each region has a distribution box or a plurality of power supply ports, each supply port to the one or more sets power supply module, each module comprises a power supply module or a plurality of series . 供电区域是指由配电柜的一个或多个供电口提供电源的用灯范围,该范围在实际工程中有相应的物理空间。 Power supply region means provided by one or more power distribution cabinet oral light range, which has a corresponding physical space in practical engineering. 一个配电柜可能给一个供电区域供电,也可以给多个供电区域供电,多个配对柜也可能只给一个供电区域供电。 A distribution cabinet may give a power supply region, a plurality of power supply may supply regions, the plurality of pairing counter may only give a power supply region.

[0017] 如图1、图2、图3所示,上述供电模块包括模块壳体(图未示)、A相线11、B相线12、C相线13、零线14、地线15,以及三相电输入插座16、三相电输出插座17、灯座口61 (即灯具插座)、漏电保护单元51、开关单元53、网络监测单元50。 [0017] As shown in FIG 1, FIG 2, FIG 3, the power supply module comprises a module housing (not shown), A phase line 11, B phase line 12, C-phase line 13, neutral 14 and ground 15 and a three-phase power input socket 16, three-phase power output socket 17, the socket port 61 (i.e., the lamp socket), leakage protection unit 51, the switching unit 53, a network monitoring unit 50. 其中,该三相电输入插座16和三相电输出插座17用于供电模块之间的串联连接。 Wherein the three-phase three-phase power input socket 16 and output socket 17 for connection in series between a power supply module. 灯座口61连接至零线、地线和其中一相线,用于向插接至该灯座口的灯具提供单相电(A相、B相或C相),灯座口所连接的相线决定该灯座口的是A相、B相还是C相灯座口。 Socket port 61 is connected to the neutral line, wherein a phase line and the ground line for providing single-phase (A phase, B phase or C phase), is connected to the socket port plugged into the socket of the luminaire opening determining the phase line socket port is a phase, B phase or C phase socket port. 漏电保护单元用于对灯座口进行漏电和/或短路保护,开关单元用于根据网络监测单元的控制信号对各灯座口的供电进行远程开关控制。 Leakage protection unit for the socket opening for the drain and / or short-circuit protection, a switching unit for performing switching control of power supply to each of the remote socket port network according to the control signal monitoring unit. 每个灯座口与一个漏电保护单元、开关单元对应,该漏电保护单元、开关单元均设置在对应的灯座口与相线连接的线路上。 Each socket port and a leakage protection unit, a switch unit corresponding to the leakage protection unit, a switch unit are disposed on a line corresponding to the socket port connected to the phase line. 任一灯座口所对应的漏电保护单元或开关单元断路后该灯座口都将停止供电。 After any of the socket opening corresponding to the leakage protection unit or the disconnection of the switch unit will stop the power supply socket port. 该网络监测单元用于获取各相线的电压、电流、各灯座口的输出电流,并将这些数据反馈给与该供电模块建立网络连接的控制主机,此外还用于根据控制主机的控制信息向供电模块的各个开关单元发出接通或断开的控制信号,从而实现对供电模块各个灯座口进行独立的供电或断电控制。 The network monitoring unit is configured to obtain the respective phase voltage, current, output current of each socket opening, and the data of the power supply module to give feedback control of the host to establish a network connection, in addition to control information according to the host turned on or off control signals to the respective switching element power supply modules, each module enabling the power supply to the socket port for a separate power supply or power control. 本实施例的开关单元采用继电器单元。 A switch unit of this embodiment uses the relay unit.

[0018] 上述供电模块还包括一个或多个显示单元,每个灯座口对应一个显示单元,例如单联供电模块有一个显示单元,三联供电模块则有三个显示单元。 [0018] The power supply module further comprises one or more display units, each display unit corresponds to one socket opening, such as a single inline power module has a display unit, the power supply module has three triple display unit. 各显示单元与供电模块中的网络监测单元连接,用户可通过控制主机对供电模块的各个显示单元进行开关和显示控制。 Each display unit is connected to the power supply module in a network monitoring unit, the user can switch the display and a display control unit to each power module via the control panel. 在本实施例中,每个显示单元可显示若干个字符(例如数字和/或文字),供电模块的设备标识用其所包含的显示单元所显示的字符排列组合得到的字符串进行表示。 In the present embodiment, each display unit may display a plurality of characters (e.g., numbers and / or text), device identification character string permutations power module with the display unit included therein was subjected shown FIG. 例如可以用各个显示单元按供电模块三相电输入端至三相电输出端方向或相反方向依次显示内容所形成的字符串作为该供电模块的设备标识。 For example, the display unit may be used by the respective three-phase input terminal of the power supply module to the output terminal of the three-phase or opposite directions string content displayed sequentially formed as the device identifier of the power supply module. 以显示数字为例,某单联供电模块的显示单元所显示的数字是93,则该供电模块的设备标识为93 ;某三联供电模块的三个显示单元自三相电输入插座一端至三相电输出插座一端方向依次显不的数字是162、163、164,那么该三联供电模块的设备标识为62-63-64或者是164-163-162。 In an example display numbers, numbers with a single power supply module of the display unit 93 is displayed, the device identifier of the power supply module 93; a display unit of a triple three power supply module from the outlet end to the three-phase three-phase input electrical outlet end direction sequentially output number is not significant 162,163,164, then the device identifier of the power supply module for triple or 62-63-64 164-163-162. 以显示文字和数字为例,某单联供电模块的显示单元所显示的是舞台01,则该供电模块的设备标识为舞台01 ;某三联供电模块的三个显不单元自三相电输入插座一端至三相电输出插座一端方向依次显不的数字是面光01、面光02、面光03,那么该三联供电模块的设备标识为面光01-面光02-面光03或者是面光03-面光02-面光01。 To display text and numbers, for example, with a single power supply module is displayed on the display unit 01 the stage, the device identifies the power supply module 01 for the stage; a triple three were not supply module unit from the three-phase power input socket end to the end of the three-phase direction of the electric output socket is not sequentially display the digital optical surface 01, surface light 02, the light plane 03, the device identifier of the power supply module for triple surface light 01- 02- optical surface of the light plane or surface 03 03- 02- light surface light surface of the light 01. 进一步的,优选用显示单元按供电模块三相电输入端至三相电输出端方向依次显示数字所形成的数字串作为该供电模块的设备标识(即显示单元只显示数字)。 Further, preferably the display unit by using a three-phase power input terminal of the three-phase electrical output module to display numeric string direction are sequentially formed as the device number of the power supply module identifier (i.e., a digital display unit displays only). 此外,用户还可以通过控制主机对供电模块的显示单元进行闪烁控制,这对于工程现场中供电模块的定位非常有用。 In addition, users can also control the blinking of the display unit by controlling the power supply module host, which is useful for locating the project site in the power supply module. 本实施例的显示单元采用LED数码管。 The display unit according to the present embodiment with LED digital.

[0019] 上述网络监测单元设有网络信号输入接口51 (如RJ45接口)和网络信号输出接口52 (同为RJ45接口),当前供电模块的网络信号输入接口可以连接至路由器、交换机或控制主机,也可以连接至与当前供电模块串联的前级模块的网络信号输出接口。 [0019] The network monitoring unit is provided with a signal input interface network 51 (such as RJ45 connectors) and a signal output interface network 52 (the same as RJ45 interface), the current supply network signal input interface module may be connected to a router, switch or control panel, It may also be connected to the network before the interface signal output stage module and the current supply of the modules in series. 网络监测单元获得本供电模块各相电压、各相线电流、各灯座口输出电流数据或由这些数据计算得到的数据后,经由网络传输给控制主机,再由控制主机判断该供电模块的各相电压、各相线电流、三相电压平衡、各灯座口输出电流、各灯座口输出功率是否异常,若异常则提示用户或执行相应的操作和/或报警。 Network monitoring unit obtains each phase voltage of this power supply module, each phase line current, the output current of each socket port data or the data obtained by these calculations, transmitted via the network to the control computer, the control panel and then determines each of the power supply module phase voltage of each phase line current, balanced three-phase voltage, the output current of each of the socket port, each port output socket is abnormal, or if the user is prompted to perform an abnormal operation corresponding to and / or alarm.

[0020] 其中,供电模块的各相电压是指供电模块中A相线、B相线、C相线分别与零线之间的电压。 [0020] wherein each phase module voltage supply means between the power supply voltage phase line module A, B phase, C phase, respectively, and the zero line. 相电压异常是指,某一相电压超出设定相电压最大值或最小值,假设某供电模块设定的最大电压是280伏,最小电压是180伏,若A相的相电压测得为290伏,则表明该供电模块的A相电压异常,需要进行处理。 Refers to abnormal phase voltage, phase voltage of a phase voltage exceeds the set maximum or minimum value, the maximum voltage is assumed that a power supply module 280 is set to V, the minimum voltage is 180 V, when the phase voltage of phase A was measured to be 290 V, it indicates that phase a voltage of the power supply module is abnormal, it needs to be processed. 三相电压平衡异常是指,各相电压之间两两差值中的最大差值超过设定三相电压平衡差值。 Balanced three-phase voltage abnormality is pairwise difference between the maximum difference between the respective three-phase voltage exceeds the set voltage phase difference balance. 相线电流是指供电模块中A相线、B相线、C相线的电流,灯座口的输出电流和输出功率分别是指灯座口所连接/插接灯具(可能是调光灯具也可能是直通灯具)的电流和功率。 Phase current is phase current supply line module A, B phase, C phase line, the output current and output power socket socket outlet port means are connected / plugged lamp (lamp dimming may also be may be straight lamps) current and power. 相线电流异常是指,某一相线的电流超出设定相线电流最大值或最小值,假设某供电模块设定的电流最大值为3A,最小值为1A,若A相的线电流测得为3.2A,则表明该供电模块的A相线电流异常,需要进行处理。 Refers to abnormal phase line current, a phase current of the phase current exceeds a preset maximum or minimum value, assuming maximum current is set to a power supply module. 3A, minimum value. 1A, if the phase A line current measurement 3.2A is obtained, it indicates that the power supply module a phase current abnormality, need to be processed. 灯座口输出电流异常是指,该灯座口连接灯具后,该灯具的实际电流超出该灯座口设定电流的最大值或最小值;灯座口输出功率异常是指,该灯座口连接灯具后,该灯具的实际功率超出该灯座口设定功率的最大值或最小值。 Abnormal output current is the socket port, the connection port lamp socket, the lamp current exceeds the actual maximum or minimum value of the set current port socket; socket opening abnormality is output, the lamp holder opening after connecting the lamp, the lamp power actually exceeds the maximum or minimum power settings of the socket opening.

[0021] 当某一供电模块出现上述异常情况,用户可以通过控制主机发出控制信号控制该供电模块的部分相灯座口对应的开关单元断开,从而断开该相灯座口的供电;或者通过控制主机发出控制信号控制该供电模块的全部灯座口对应的开关单元断开,从而断开整个供电模块的供电;或者通过控制主机向该供电模块所属链路的全部供电模块发出控制信号,断开整个链路各个供电模块的供电;或者设定为出现上述任一异常情况时,自动断开有关灯座口的供电或自动断开整个模块的供电。 [0021] When a power supply module the abnormality occurred, the user may issue the socket portion relative to the corresponding port control signal switching unit of the power supply module is turned off by the control panel, thereby disconnecting the power supply socket opening phase; or by switching unit from the control panel of the power supply control signal module socket opening corresponding to the full OFF, thereby disconnecting the power supply of the entire power supply module; or control signals to all of the power supply module supplying module by controlling host link belongs, disconnect the power supply of each module the whole link; or set to any of the above abnormal condition, relating to the socket port automatically disconnects automatically disconnect power supply or the whole module.

[0022] 上述供电模块的类型包括直通供电模块、调光供电模块和直通/调光两用供电模块(简称两用供电模块),直通供电模块用于向直通灯具进行供电,调光供电模块用于向调光灯具进行供电,两用供电可用于向直通灯具或调光灯具供电。 [0022] In the above-described type includes a power supply module through a power supply module, the dimming power supply module and the through / dimming dual power module (referred to as dual power module), through the power supply means for supplying power through the lamp, the dimming power supply module to supply power to the dimmer lamp can be dual power supply for supplying power to the lamp through or dimming lamps. 该直通供电模块、调光供电模块可以是单联模块,也可以是多联模块,单联模块只有一个灯座口,多联模块有多个灯座口且各相灯座口的数量相等,因此多联模块一般是三的倍数,例如三联模块、六联模块等。 The pass-through power supply module, the dimming power supply module may be a single-joint module may be a multi-module, modules with only a single socket outlet, multi-socket module has a plurality of ports equal to the number of each phase and the socket opening, Thus multi-module is typically a multiple of three, e.g. triple modules, six of the module. 灯座口的性质类型包括调光、直通和两用。 Properties of port type socket includes a dimming, and dual straight. 本实施例的供电模块的类型包括: Type power supply module of the present embodiment includes:

单联两用A相、单联两用B相、单联两用C相; A single joint dual-phase, B-phase dual simplex, simplex dual phase C;

单联调光A相、单联调光B相、单联调光C相; A single joint dimmer phase, B-phase single-joint dimming, dimming associated single phase C;

单联直通A相、单联直通B相、单联直通C相; A single joint through phase, B phase through a single joint, linked through a single C phase;

三联两用、三联调光、三联直通; Triple dual, triple dimming through triple;

六联两用、六联调光、六联直通。 Six of the dual, six of dimming, six of the straight.

[0023] 上述调光灯具是指使用过程中需要调光的灯光设备,例如天幕散光灯、条灯、回光灯、筒子灯、平凸透光聚光灯、螺纹透镜聚光灯、成像灯、追光灯、舞台投影幻灯、三基色柔光灯、观众灯等。 [0023] refers to the dimming lamp dimming lighting equipment required during use, e.g. canopy flood lamps, lights, back light, light cheese, plano-convex light transmitting spotlight, threaded lens spotlight, imaging lights, chasing light stage slide projector, Fluorescent lights, the audience lights. 在本发明中直通灯具是广义的概念,是指在使用过程中无需进行调光的设备,其包括与灯光效果相关的非灯类舞台设备例如烟雾机、干冰机、激光机等效果设备,还包括染色电脑灯、图案电脑灯、成像电脑灯、光束电脑灯等电脑摇头灯,以及LED摇头染色灯、LED图案灯、LED光束灯、LED变色灯、LED四色灯等LED舞台灯。 Through the lamp in the present invention is a broad concept, refers to the use of the process without the device dimming, which includes a non lamps stage equipment such as smoke machines, ice machines, laser and other effects device associated with lighting effects, further scanner comprising staining pattern scanner, imaging scanner, the beam moving head light fixtures and the like, and the LED head wash light, LED light patterns, light LED lights, LED lights change color, four-color LED lights, LED stage light.

[0024] 此外,如图1、图3所示,调光供电模块和两用供电模块还设有调光器52和DMX调光控制单元40,调光器的数量根据需要调光的灯座口数量进行设置,每个设定为需要调光的灯座口对应一个调光器,假设每个灯座口都可调光,那么调光器的数量将与灯座口的数量相等。 [0024] Further, in FIG. 1, FIG dimming power supply module and dual power supply module 52 is also provided with dimmers and DMX dimming control unit 40, the number of required dimmer dimming socket 3 setting the number of ports, each port need to be set to the socket corresponding to a dimming dimmer is assumed that each outlet socket are dimmable, the number of the dimmer will be equal to the number of the socket mouth. 该DMX调光控制单元设有DMX信号输入接口41和DMX信号输出接口42,用于根据外部输入的DMX信号对一个或多个调光器进行控制,从而实现对连接至相应灯座口的调光灯具的调光控制。 The dimming control unit is provided with DMX DMX signal input 41 and an output interface 42 DMX signal, for controlling a dimmer or more of the DMX signal in accordance with an external input, enabling adjustment of the port connected to the respective socket interface dimming control of light fixtures. 本实施例的调光器可采用晶闸管调光器,每个调光器用于单独控制一个灯座口上的调光灯具发光强度。 The dimmer according to the present embodiment may employ thyristor dimmers, each dimmer for individually controlling the dimming a lamp socket port on the emission intensity.

[0025] 进一步的,如图1所示,对于调光供电模块,灯座口61与相应相线之间通过一连接线缆连接,该调光器52、漏电保护单元51、开关单元53均设置在灯座口61与相线连接的线路上。 [0025] Further, as shown in FIG. 1, for dimming between a power supply module 61 and a respective socket opening with a connecting line through the cable connection, the dimmer 52, leakage protection unit 51, the switching unit 53 are the socket is provided on line 61 to the port connected to the phase line. 如图3所示,两用供电模块还包括一个或多个切换单元54,每个切换单元对应一个灯座口。 3, the dual power supply module further comprises one or more switching unit 54, the switching unit corresponding to each opening a socket. 每个切换单元的一端与相线通过一连接线缆连接,另一端与对应灯座口之间并联有直通线路69和调光线路68,该灯座口61所对应的漏电保护单元51、开关单元53则设置在该切换单元54的该一端与相线之间的连接线缆上,该灯座口61所对应的调光器52则设置在该调光线路68上。 One end of each phase line and the switching unit is connected via a cable connection, with a line 69 through line 68 and the dimming in parallel between the other end opening corresponding to the socket, the socket opening 61 corresponding to the leakage protection unit 51, a switch unit 53 is provided on the cable between the phase line and the one end of the switching unit 54, which socket port 61 corresponding to the dimmer 52 is disposed on the light control line 68. 该切换单元54与网络监测单元连接用于根据其发出的控制信号选择直通线路或调光线路,用户可通过控制主机对两用供电模块某一灯座口所对应的切换单元的接通方向进行切换,从而切换该灯座口的供电模式。 The switch unit 54 is connected to the network monitoring unit emits a control signal for selecting the line or straight line dimming, the user can switch the direction of turning on the power supply module unit of a dual port corresponding socket according to the control by the host switch, thereby switching the power supply mode of the socket opening. 若切换单元接通的是直通线路,则该灯座口为直通供电模式,该灯座口只能插接直通灯具;若切换单元接通的是调光线路,则该灯座口为调光供电模式,该灯座口即可插接直通灯具也可以插接调光灯具。 When the switching unit is turned on through the line, through the socket opening is a supply mode, opening only into the socket through the lamp; if the switching unit is turned on line dimming, the dimming socket port power supply mode, the lamp holder can be inserted through opening may be plugged dimming lighting fixtures.

[0026] 在本实施例中,每个供电口向一组或多组供电模块供电,每组供电模块包括一个或多个串联的供电模块,这些供电模块构成了该供电口的链路,即这个供电口为其链路上的全部供电模块供电,在同一组模块中的供电模块为串联,在供电口接多组供电模块的情况下,各组供电模块之间为并联。 [0026] In the present embodiment, each of the supply port to the set of one or more power supply modules, each power supply module comprises one or more series of power modules, power supply modules constituting the mouth of the link, i.e., the power supply port for all power supply modules on the link, the power supply module in the same group of modules connected in series, then the case where the plurality of sets of power supply modules in the mouth, between the set of power supply modules connected in parallel. 供电口的某相(A相、B相或C相)链路总输出功率是指该链路上各个供电模块上该相灯座口的实际输出功率之和。 A supply port of the phase (A phase, B phase or C phase) link refers to the actual total output power is the output power of each power supply module on the link with the port and socket. 例如,供电口A相链路总输出功率是指该链路上各个供电模块A相灯座口所插接的全部灯具(包括调光灯具和直通灯具)实际功率之和。 For example, the A-phase power supply port link refers to all total output power of each power supply module A lamp socket with the opening on the connector link (including lighting and dimming the lamp through) the sum of the actual power. 若供电口某一相的链路总输出功率大于该相的链路总输出功率阀值,则认为该供电口该相的输出功率异常。 If the total link output power supply port of a phase is greater than the phase threshold link total output power, it is considered that the supply opening phase output power abnormality. 若各相链路总输出功率的最大值与最小值之间的比值大于一定数值,则该供电口为三相电流不平衡。 If the ratio between the maximum and the minimum value of the total output power of each phase is greater than a certain value link, the supply port is phase current imbalance.

[0027] 实施例二 [0027] Second Embodiment

本实施例提供一种专业灯光供电控制方法,该方法通过控制主机对实施例一所述的基于区域功率供电的灯光供电系统中的实体供电模块进行供电监测与管理。 The present embodiment provides a professional lighting power supply control method for power management and monitoring area based lighting power supply system powered by an entity controlling the power supply module of the host computer according to an embodiment. 该控制主机可以是计算机、服务器、智能手机、平板电脑、笔记本电脑、个人数字助理等具有计算能力和图形用户界面的电子装置。 The control panel can be a computer, server, smartphones, tablet PCs, notebook computers, personal digital assistants and other electronic devices with computing capabilities and a graphical user interface. 该控制主机可连接互联网或内部网,从而与各个实体供电模块的网络监测单元建立网络连接。 The control panel may be connected to the Internet or an intranet, to establish a network connection with the network power supply monitoring unit module of each entity. 该方法包括以下步骤: The method comprises the steps of:

步骤SlO:选择或建立系统模型; Step SlO: select or create a system model;

步骤S20:选择或建立一供电区域模型,并在图形用户界面上显示相应的供电区域视图; Step S20: select or create a supply region model, and displays the corresponding supply area in view of the graphical user interface;

步骤S30:在供电区域视图中建立、删除或编辑供电口模型,供电模块模型,和/或灯具丰旲型; Step S30: establishing in the power supply area view, edit or delete the power supply port model, model power supply module, and / or abundance of Dae-type lamp;

步骤S40:在选定的供电区域中编辑各个模型之间的连接关系; Step S40: Editing connection relationship between each model in the selected power region;

步骤S50:对系统模型中各个供电区域的各个供电口模型下述一个或多个数值的异常情况进行监控和/或报警:各个供电口模型的各相链路总输出功率、各个供电口模型的三相电流平衡;同时,还可以选择对各个已配对在线供电模块模型所对应的实体供电模块下述一个或多个数值的异常情况进行监控和/或报警:各相电压、各相线电流、三相电压平衡、各灯座口的输出电流、各灯座口的输出功率。 Step S50: the system model of each respective power supply port model following abnormal region or a plurality of values ​​to monitor and / or alarm: each link of each phase power supply port model the total output power, each power supply port Model three-phase current balance; can also select the respective paired anomalies line power supply module corresponding to the model entity power supply module of the following values ​​of the one or more monitoring and / or alarm: the phase voltage of each phase line current, balanced three-phase voltage, the output current of each socket opening, each port output power socket.

[0028] 下面分别对本实施例的各个步骤进行描述说明。 [0028] The following are the various steps of the present embodiment will be described. FIG.

[0029] 在步骤SlO中,建立系统模型包括:创建系统模型对象,并在图形用户界面中显示系统全局视图,该视图中显示用于表示已创建的供电区域模型的图标和/或文字(即供电区域的名称)。 [0029] In step SlO, the establishment of the system model comprising: creating a model of the object system, and the system displays a global view in a graphical user interface, displaying a view showing the icon and / or text area powered model created (i.e. supply the name of the region). 系统模型对象包括系统模型对象标识、属于该系统模型的各个供电区域模型的对象标识等数据。 The system includes a system model object model object identification, object identifier belonging to each area of ​​the model of the power system model data, and the like.

[0030] 以文字表示供电区域模型为例,某系统模型中将舞台上空区域划分为五个供电区域,分别是:舞台上空第一道灯杆、舞台上空第二道灯杆、舞台上空第三道灯杆、舞台上空第四道灯杆、舞台上空第五道灯杆,那么在系统全局视图中将显示这些供电区域的名称。 [0030] represents a writing power to region model as an example of a system model in the region above the stage is divided into five areas supply, namely: a first passage poles above the stage, a second stage channel over poles, over a third stage Road poles, poles above the stage of the fourth channel, a fifth channel poles above the stage, the display region of the names of these power systems in the overall view.

[0031] 在系统全局视图中,若某一供电区域出现异常,可通过颜色变化和/或报警声来提示用户,例如图标颜色变化,文字的颜色变化,或文字框内(框内为供电区域名称)底色的变化等。 [0031] In a global view of the system, if an abnormal power supply area, the user may be prompted by a color change and / or sound an alarm, such as an icon color change, a color change in text, or text box (box for the power supply region name) change background color. 通过设定正常状态的颜色和异常状态下的颜色,用户可以直观快速地了解整个灯光供电系统各个供电区域的供电情况。 By setting the color for the normal state and abnormal state of colors, the user can quickly understand intuitively the respective power supply regions where entire light power supply system.

[0032] 在步骤S20中,建立供电区域模型包括:创建供电区域模型对象,并在系统模型布局中显示用于表示该供电区域模型的图标和/或文字,还在图形用户界面上显示供电区域视图。 [0032] In step S20, the establishment of the supply zone model comprising: creating a model object supply region, the system model and the layout display icons used to represent and / or character of the power supply areas of the model, also in a graphical user interface on the power supply area view. 供电区域模型对象包括供电区域模型对象标识、供电区域模型名称(可用供电区域在实际工程中的空间位置来命名)、与该供电区域关联(即位于该供电区域中)的供电口模型和供电模块模型的对象标识,这在图形用户界面中显示为该供电口模型和该供电模块模型位于该供电区域视图中; Supply area of ​​the model object comprises a supply area model object identification supply area model name (available supply area spatial position of the actual project named), associated with the supply region (i.e., located in the supply area) supply port model and the power supply module identification of the object model, which shows that the power supply port and a model of the power supply module located in region model view in the graphical user interface;

在步骤S20中,选择或建立供电区域模型后,可以编辑供电区域模型,包括:更改供电区域名称和更改用户图形界面上供电区域视图的背景图片。 In the step S20, select or create a supply area model, you can edit the power supply area models, including: change the name of regional power and changing the background image area view of the power supply on the graphical user interface. 例如将可以更改为实际工程的平面布局图,以便用户快速定位各模型(包括供电口模型、供电模块模型、灯光模型)在供电区域视图中的位置。 For example, can be changed to the actual floorplan engineering, so that the user quickly locate the position of each model (model comprises a supply port, a power supply module model, the lighting model) in the power supply area of ​​view.

[0033] 上述步骤S30具体包括以下步骤: [0033] The step S30 includes the following steps:

步骤S31:在供电区域视图中建立、删除或编辑供电口模型; Step S31: establishing in the power supply area view, edit or delete supply port model;

步骤S32:在供电区域视图中建立、删除或编辑供电模块模型; Step S32: establishing in the power supply area view, delete, or edit model power supply module;

步骤S33:在供电区域视图中建立、删除或编辑灯具模型; Step S33: the establishment of regional power in view, delete, or edit the lamp model;

步骤S34:在供电区域视图中配对供电模块模型和在线实体供电模块; Step S34: the pairing-line power supply module and the entity model power supply module in the view area;

下面对步骤S30的各个步骤做进一步描述。 Next, the respective steps of step S30 described further. 其中,步骤S31包括步骤S311、步骤S312和步骤S313: Wherein, the step S31 comprises a step S311, step S312 and step S313:

S311:建立供电口模型包括:创建供电口模型对象,并在供电区域视图中显示用于表示该供电口模型的供电口图标。 S311: the establishment of supply port models include: the object model to create a power port and the power supply area view shows the icons used to represent the power supply port power port model. 该供电口模型对象包括供电口模型对象标识、供电口模型名称、该供电口模型与其他模型一组或多组连接关系数据、各相链路总输出功率阀值、以及三相电流不平衡阀值等数据。 The power supply includes a power supply port port model object model object ID, model name supply port, the supply port connection relationship data model with other models one or more groups, with each link total output power threshold value, and no three-phase current balance valve values ​​and other data. 其中,供电口模型名称可显示在供电口图标中,以便用户快速定位和区分不同的供电口模型。 Wherein the supply port model name may be displayed in the power port icon for the user to quickly locate and distinguish between different supply port model. 对于供电口模型的各相链路,其链路总输出功率阀值一般情况下是相同的。 For each phase power port link model, which links the total output power threshold is generally the same.

[0034] 若供电口模型只有一个三相电输出端口,则该供电口模型的对象可以不包括该输出端口的标识。 [0034] If a three-phase power supply port model only electrical output port, the supply port model of the object may not include the identifier of the output port. 此时,该供电口模型连接关系数据为与该供电口模型连接的(在图形用户界面中显示为供电口图标与供电模块图标之间通过一连接线连接)供电模块模型的对象标识及所连接端口(三相电输入端或三相电输出端)的标识。 In this case, the supply port connection relationship data model (shown in the graphical user interface is connected between power supply module icon and icon port via a connecting line) of the power supply module model object ID is connected to the supply port and the connected model port identification (three-phase three-phase input or output end).

[0035] 若供电口模型有多个三相电输出端口,则该供电口模型的对象还包括其上各个输出端口的标识。 [0035] If the model has a plurality of ports of three-phase power electrical output port, the supply port further comprises an object model on which the respective output port identity. 此时,该供电口模型对象中有相应数量的多组连接关系数据,每组连接关系数据包括:与该供电口模型连接的供电模型的对象标识,以及相互连接的供电口模型三相电输出端口和供电模块模型连接端口的标识。 At this time, the power supply port model object in a corresponding number of sets of connection relationship data, each data connection relationship comprises: identifying an object model of the power supply is connected to the power supply port model, and a power supply port connected to a three-phase model for each output and a power supply module connected to the port model identifying the port. 该供电口模型对象还可以包括该供电口模型链路上的其他供电模块模型和全部灯具模型的对象标识,以便快速获得该供电口模型的链路组成和各相链路总输出功率。 The power supply port model object may further include a power supply module model object identification other power port on the model links all the fixture and the model, in order to obtain rapid opening of the power supply link model composed of links of each phase and the total output power.

[0036] 若供电口某一相的输出功率大于该相的链路总输出功率阀值,则判断该供电口该相的输出功率异常,需要降低该相的输出功率。 [0036] When the power supply port of a power greater than the output phase relative to the total output power of the link threshold, it is determined that the supply port of the output power of the abnormal phase, it is necessary to reduce the output power of the phase. 例如某供电口的各相链路总输出功率阀值设定为16KW,若在使用过程中,该供电口A相、B相、C相的实际输出功率分别为16.5KW、16.1KW和15.8KW,那么该供电口的A相和B相的输出功率判断为异常,需要进行调整,而C相的输出功率是正常的因此无需调整,在调整过程中仍需要该供电口三相电流平衡问题。 The phases of a power supply, for example, link port total output power threshold is set to 16KW, when in use, the supply port A phase, B phase, C phase, the actual output power are 16.5KW, 16.1KW 15.8KW and , then determines the output power of the power supply ports a and B phases is abnormal, need to be adjusted, and the C-phase output power so no adjustment is normal, it remains a need for the supply port in the three-phase current balance adjustment process.

[0037] 上述三相电流不平衡阀值包括倍数阀值和持续时间阀值。 [0037] The phase current imbalance thresholds and threshold comprises a multiple of the duration threshold. 若供电口输出的各相线电流(或称为各相链路总电流)中的最大电流值与最小电流值的比值大于或等于倍数阀值,且持续时间大于或等于该持续时间阀值,则判断该供电口的配电输出三相电流不平衡,需要用户调整该供电口链路上各相灯具的功率比例。 If the power supply maximum current value of each phase line current output from the port (or the total current of each phase link) is the ratio of the minimum current value is greater than or equal to a multiple of the threshold, and the duration is greater than or equal to the threshold duration, Analyzing the distribution of the output phase current imbalance supply port, the user needs to adjust the power ratio of each phase of the lamp power supply interface link. 假设倍数阀值设为1.2,持续时间阀值设为5秒,某供电口的A相链路总电流为30A,B相链路总电流为28A,C相链路总电流为24.5,A相的链路总电流最大,C相的链路总电流最小,两者比值是1.22,若这种情况持续超过了5秒,则判断该供电口的输出功率异常,需要用户进行处理。 Suppose the threshold is set to a multiple of 1.2, the threshold is set to 5 seconds duration, A-phase power supply a total current link port of 30A, B with a total current of the link 28A, C-phase total current link 24.5, A Phase the maximum total current link, the link C-phase total current of the minimum, the two ratios is 1.22, if this situation continues for more than 5 seconds, the output power of the power supply port determines abnormality, the user needs to be processed. 此时,在维持灯具数量不变的前提下,可以将部分插接至该链路上A相灯座口的灯具转移至该链路上C相灯座口,平衡A、C相的链路总电流,以恢复该供电口配电输出的三相电流平衡。 At this time, under the premise of maintaining the same number of lamps, the lamps may be partially plugged into the socket opening with the link A is transferred to the link socket port C phase, the balance A, link C phase total current, to restore the balance of the three-phase current supply port output distribution. 之所以设定持续时间阀值,主要是考虑到供电系统上电瞬间电流不稳定以及电网波动的情况,提高控制主机判断的准确性,避免误判。 The reason why the duration of the set threshold, mainly on account of the electric power system transient current situation of instability and fluctuations in the power grid, improve control of the host to determine the accuracy and avoid misjudgment.

[0038] 该供电模块模型对象还可以包括:供电模块模型名称、配对实体供电模块空间位置信息,配对实体供电模块各相电压和电流,配对实体供电模型各灯座口的输出电流和输出功率等。 [0038] The power supply module may further include an object model: Model Name power supply module, the power supply module pairing entity spatial position information, each paired solid phase voltage and current power supply modules, each paired physical model of the power supply socket port and an output current output power .

[0039] 步骤S312:删除供电口模型包括删除相应的供电口模型对象,并在供电区域视图中删除用于表示该供电口模型的供电口图标,同时还删除在系统模型的全局视图中用于表示该供电区域模型的图标和/或文字; [0039] Step S312: Delete Delete supply port model includes model objects corresponding power port and the power supply for the deleted region view port indicates that the power of the power supply port model icon, but also for deleting global view of the system model It represents icons and / or text region model of the power supply;

步骤S313:编辑供电口模型包括更改相应的供电口模型对象中可更改的数据,包括供电口模型名称、各相链路总输出功率阀值、三相电流不平衡阀值等。 Step S313: Editing change model comprises a supply port of a respective supply port to change the data model object, comprising a power supply port model name, the total output power of each phase link threshold, phase current imbalance thresholds and the like. 用户可以根据实体配电箱供电口的实际参数更改供电口模型对象中的各相链路总输出功率阀值。 The user can change the total output power of each link relative to the threshold power port object model based on the actual physical parameters of the power supply distribution box ports. 供电口名称可以方便用户快速识别和区分各个供电口模型,可以系统自动分配也可以用户手动修改。 Power supply port name can be user quickly recognize and differentiate various power port model, the system may automatically assign a user may manually modify. 若修改供电口模型对象中的各相链路总输出功率阀值和三相电流不平衡阀值,则控制主机对相应供电口模型的异常判断条件也将随之改变。 When the changes of each phase feeding port model object link total output power threshold and phase current imbalance threshold, the control panel abnormality determination conditions corresponding supply port model also changes. 与其他模型的连接关系数据,可以通过图形用户界面的人机交互操作实现。 Its connection with other data models, human-computer interaction can be achieved through a graphical user interface. 例如在供电模块区域视图中解除供电口图标与供电模块图标的连接关系后,那么相应的供电口模型对象中将删除与相应供电模块模型的连接关系数据,或者将该连接关系数据恢复为默认值。 After releasing the connection relation, for example, power supply module port icon in the icon area view power module, the port in the respective power supply connection relationship data model object to delete the corresponding power supply module model, or the connection relationship data is restored to the default value .

[0040] 上述步骤S32包括步骤S321、步骤S322和步骤S323: [0040] The step S32 comprises a step S321, step S322 and step S323:

步骤S321:建立供电模块模型包括:创建供电模块模型对象,并在供电区域视图中显示用于表示该供电模块模型的供电模块图标,该供电模块模型对象包括:供电模块模型对象标识、供电模块模型类型,三相电输入端标识,三相电输出端标识,各灯座口标识,配对供电模块序列号,配对供电模块设备标识,配对供电模块各相电压最大值和最小值,配对供电模块各相线电流最大值和最小值,配对供电模块三相电压平衡阀值,配对供电模块各灯座口的输出电流阀值和输出功率阀值,配对供电模块各灯座口的开关状态,供电模块模型各灯座口与灯具模型的连接关系数据,供电模块模型的各个连接端口(包括三相电输入端、三相电输出端、各个灯座口)与其他模型(包括供电口模型、供电模块模型和灯具模型)的连接关系数据。 Step S321,: establishing model power supply module comprising: a power supply module to create model objects, and displaying a view region power supply module icon representing the model of the power supply module, the power supply module model object comprising: a power supply module model object identifier, a power supply module Model type, three-phase power input terminal identifier, identifying the three-phase electrical output, each socket port identifier, a serial number matching the power supply module, the power supply module device identifier pairing, the pairing of each power supply module maximum and minimum phase voltage, the power supply module for each pair maximum and minimum phase current, phase voltage supply module balancing pairing value, the switching state of each power supply module socket pair output port and the output current threshold power threshold, the power supply module of each pair opening socket, the power supply module each socket connection relationship data model port and lighting model, each power supply module port model (a three-phase electrical input, three-phase electrical output, each socket mouth) with other models (including power supply port model, the power supply module model and lighting model) connection relationship data.

[0041] 供电模块序列号是分配给实体供电模块的唯一识别码,不同实体供电模块的序列号不同。 [0041] The power supply module is a serial number unique identification code assigned to the entity of the power supply module, different serial numbers of the power supply module entities. 配对是指供电模块模型与实体供电模块建立唯一的对应关系,两者配对后,供电模块模型对象的配对供电模块序列号将保存为所配对实体供电模块的序列号,从而建立配对关系。 Pairing means that the power supply module power supply module model entities establish a unique correspondence relation, the two paired, pairing the power supply module supplying module serial number of the object model is saved as a serial number of paired power supply module entity to establish pairing relationship. 供电模块模型和实体供电模块的配对方法参考下述关于步骤S24的详细描述。 Power supply module and a method of pairing model entities supply modules on reference to the following detailed description of the step S24.

[0042] 灯座口标识是用于标识该灯座口的字符,对于已配对的供电模块模型,其对象中各个灯座口标识内容与所配对实体供电模块上相应灯座口的显示单元所显示的内容一致,且该灯座口标识还显示于该供电模块模型所对应的供电模块图标中。 [0042] The socket interface identifier for identifying the character of the socket opening, the model for the paired power supply module, each socket mouth which identifies the content object corresponding to the display unit socket on port paired entity the power supply module content display coincides port identifier and the lamp holder are also displayed on the module power supply module corresponding to the model icon. 灯座口标识可以是文字加数字,也可以仅仅是数字。 Socket interface identifier can be text plus the numbers, just numbers. 配对供电模块设备标识是指与供电模块模型配对的实体供电模块上各个显示单元所显示的字符排列组合得到的字符串,例如各显示单元按供电模块三相电输入端至三相电输出端方向或相反方向依次显示内容所形成的字符串,优选为各个显示单元按供电模块三相电输入端至三相电输出端方向依次显示的数字所形成的数字串作为该供电模块的设备标识。 The power supply module is paired device identification character string refers to a combination of the respective display units arranged on the power supply module paired with the entity model displayed in the power supply module obtained, for example, each display cell by three-phase to three-phase input power supply module electrical output direction or in the opposite direction sequentially displaying the formed string content, preferably for each display unit according to a three-phase power supply module to a digital input string of numbers three-phase electrical output sequentially displaying the direction to be formed as a device identifier of the power supply module. 因此对于配对的实体供电模块,其设备标识是其所配对供电模块模型对象中的各个灯座口标识按照设定顺序排列的到的字符串。 Thus the power supply module for matching entities which it is paired device identification string of each power supply module socket port identification model object arranged according to the set order. 在本实施例中,供电模块模型对象的灯座口标识为三位阿拉伯数字,实体供电模块上的各个显示单元所显示的内容为三位阿拉伯数字,其设备标识是这些显示单元按实体供电模块三相电输入端至三相电输出端方向依次显示的三组数字所组成的数字串,格式为XXX-XXX-XXX。 In the present embodiment, the power supply module socket port model of the object is identified as three digits, the contents of each entity on the display unit of the power supply module shown three digits, which is a device identification of these entities by the display unit power supply module numeric string to the three-phase power input terminal of the three-phase electrical output direction sequentially displayed three digit number format XXX-XXX-XXX.

[0043] 对于已配对的供电模块模型和实体供电模块,用户通过观察对比控制主机图形用户界面中供电模块图标中所显示的各个灯座口标识以及工程现场的实体供电模块上各个显示单元所显示的字符,就可以快速判断两者是否为该配对的供电模块模型和实体供电模块。 [0043] The power supply module for the model entity and the paired power supply module, the user views contrast control host unit on the respective display a graphical user interface identifier and a respective socket entity project site interface module power supply module icon displayed in the display characters, can quickly determine whether both the power supply module for pairing model and solid supply module. 不过需要注意的是,与供电模块的序列号不同,各灯座口标识及其组成的设备标识并不是唯一的,若出现两个设备标识的情况,仍需对照该实体供电模块的序列号来判断是否为该供电模块模型所配对的实体供电模块。 But note that the serial number different from the power supply module, each socket interface identifier and the device identifier is not the only component if the situation occurs two device identification, serial number of the still control entity to the power supply module a power supply module that determines whether the model entity paired power supply module. 虽然灯座口标识组成的字符串作为设备标识不具有唯一性,但是相比逐个核对序列号的方式来说,已经可以极大地提高工程人员的工作进度。 Although the socket interface identifier string consisting of a device identification is not unique, but compared to the way one by one to check the serial number, it has been greatly improve the progress of the project staff.

[0044] 此外,为了确定与某一供电模块模型配对的实体供电模块,用户还可以通过控制主机控制该配对实体供电模块(前提是已经与控制主机建立网络连接)上的显示单元闪烁或亮灯方式来快速定该实体供电模块的物理空间位置。 The display unit [0044] Further, in order to determine a power supply module paired with the entity model power supply module, the user can (provided that the network connection has been established from the control panel) for controlling the power supply module by pairing entity controlling blinking or lighting the host way to quickly set the physical location of the spatial entity power supply module.

[0045] 在步骤S311和步骤S321中,两相互连接的端口对应一组连接关系数据,一组连接关系数据包括:与本模型建立连接的其他模型的对象标识,以及本模型和该其他模型之间相互连接的两个端口的标识,若其中一连接端口未设置相应的标识,则该连接关系数据可以只包括另一连接端口的标识,若两连接端口均无相应标识,则该连接关系数据不包括该两连接端口的标识。 [0045] In step S311 and step S321, the two-port corresponding to a set of connection relationship data connected to each other, a set of connection relationship data comprises: establishing other models connection with the present model identifying objects, and the present model and the other models of mutual identification between two connection ports, wherein if a corresponding port identifier is not set, the connection relationship identification data may further include a connection port only if no corresponding two port identifier, then the data connection relationship It does not include the identification of the two connection port.

[0046] 对于只有一个供电输出端口的供电口模型,即最多可以连接一组供电模块模型的供电口模型,那么该供电口模型对象只包括一组连接关系数据;对于只有多个供电输出端口的供电口模型,即可以同时连接多组供电模块模型(各组供电模块模型之间为并联关系)的供电口模型,那么该供电口模型对象将包括相应数量的连接关系数据。 [0046] For the power supply output port is only one port model, i.e., the supply port can connect up to model a set of power supply module model, then the model object comprises a power supply port connected to only one set of relationship data; only for a plurality of power output ports power port model, i.e., a plurality of sets can simultaneously connect a power supply module model (in parallel relationship between the set of power supply modules model) model supply port, then the supply port model object including a corresponding number of connection relationship data.

[0047]由于供电模块模型有多个连接端口,单联模块有3个,三联模块有5个,六连模块8个,因此其对象中有相应数量的连接关系数据。 [0047] Since the model has a plurality of power supply module ports, with a single module 3, module 5 triple, Six modules 8, so that a corresponding number of object data connection relationship. 对于只有一个连接端口的灯具模型,即只有一个单相电输入端,那么该灯具模型对象中包括一组连接关系数据;对于有多个连接端口的灯具模型,即其中一个是单相电输入端,其余是单相电输出端,可继续向其他灯具模型供电,那么该灯具模型对象则包括相应数量的连接关系数据。 Only one model for lamp connection port, i.e. only a single-phase electrical input, then the object model comprises a lamp connection relationship data set; lamp model for connecting a plurality of ports, in which a single-phase power input terminal the remainder being single-phase output terminal, the other can continue to supply lighting model, the model object that the lamp comprises a corresponding number of connection relationship data.

[0048]例如某单一输出端口的供电口模型A与某三联供电模块模型B的三相电输入端BI与连接,该供电模块模型B的三相输出端口B2还与某单联供电模块模型C的三相电输入端Cl连接,且该供电模块模型B上的三个调光灯座口A3、A4、A5分别与调光灯具模型D1、直通灯具模型D2和调光灯具模型D3连接,该供电模块模型C的灯座口C2与调光灯具模型D4连接,那么该供电口模型A的对象中将保存一组连接关系数据,具体是供电模块模型B的对象标识和供电模块模型B的三相输出端口B2的标识;该供电模块模型B的对象中保存五组连接关系数据,该供电模块模型C的对象中将保存2两组连接关系数据。 [0048] A model example of a power port and a single output port of a three-phase power supply module triple Model BI terminal B connected, three-phase model of the power supply module B output port B2 is also associated with a single power supply module Model C the three-phase power input terminal Cl is connected, the power supply module and three dimmer socket on port A3 model B, A4, A5 respectively dimming lighting model D1, D2 through the lamp and a dimming lighting model model D3 is connected to a model C module socket power port C2 is connected to the dimming lighting model D4, then this will be the object model a supply port connection relationship holds a set of data, in particular object identity and three power supply module model B model B of the power supply module B2, output port identification phase; five sets of the power supply connection relationship data objects stored model B module, the power supply module will be the object model C 2 sets of connection relationship stored data.

[0049] 供电模块模型类型是指供电模块模型所包含的灯座口数量、相属性和性质(直通、调光或两用),例如只有一个A相灯座口,且该灯座口包括调光和直通输出模式,则该供电模块模型为单联A相两用模块模型。 [0049] The power supply module model type is the socket port number of the power supply module comprises a model, the phase properties and properties (straight, dimming or dual), for example, only a phase A socket port and the lamp holder comprises a transfer port light passthrough mode, the power supply module is a single model with phase A dual module model. 供电模块模型类型的种类与实体供电模块类型的种类对应,例如实体供电模块有单联A相直通供电模块,三联两用供电模块,则供电模块模型也有对应的单联A相直通供电模块模型和三联两用供电模块模型。 Type power supply module model type of entity the power supply module type corresponding to the type, such as solid power supply module has a single joint A phase through the power supply module, triple dual power supply module, the power supply module model also has a single joint A phase through the power supply module corresponding to the model and triple dual power supply module model.

[0050] 本实施例的供电模块模型的类型与实体供电模块的类型对应,实体供电模块有多少类型,供电模块模型就有多少类型,与前述实体供电模块的类型对应,本实施例的供电模块模型的类型包括: [0050] The power supply module corresponding to the type of the present embodiment is the model with the entity type of the power supply module, the power supply module has many types of entities, there are many types of power supply module model, and the type of the entity corresponding to the power supply module, the power supply module of the present embodiment type model include:

单联两用A相、单联两用B相、单联两用C相; A single joint dual-phase, B-phase dual simplex, simplex dual phase C;

单联调光A相、单联调光B相、单联调光C相; A single joint dimmer phase, B-phase single-joint dimming, dimming associated single phase C;

单联直通A相、单联直通B相、单联直通C相; A single joint through phase, B phase through a single joint, linked through a single C phase;

三联两用、三联调光、三联直通; Triple dual, triple dimming through triple;

六联两用、六联调光、六联直通。 Six of the dual, six of dimming, six of the straight.

[0051] 步骤S322:删除供电模块模型包括删除相应的供电模块模型对象,并在供电区域中删除用于表示该供电模块模型的供电模块图标; [0051] Step S322: Delete deletes the corresponding power supply module comprises a model of the power supply module model objects, and remove the power supply region for the icon indicates that the power supply module model module;

步骤S323:编辑供电模块模型包括更改供电模块模型对象中可更改的数据,包括各灯座口标识、配对供电模块各相电压最大值和最小值,配对供电模块各相线电流最大值和最小值,配对供电模块各灯座口的输出电流阀值和输出功率阀值,配对供电模块各灯座口的开关状态等。 Step S323: Editing module model comprises a power supply module change object to change the data model, including the current maximum and minimum phase of each socket port identification, power supply module pairing maximum and minimum values ​​of each phase voltage, the power supply module pair pairing each power supply module socket port and an output current threshold output power threshold, the power supply module for each pairing of a switch state port socket.

[0052] 若某一供电模块模型已经和某一实体供电模块配对,且在实体模块已经和控制主机建立网络连接,则该供电模块模型为在线供电模块模型。 [0052] If the model has a power supply module and a power module of an entity pair, and has been established and network connection control host entity module, the module power supply module line model model. 例如,通过修改已配对在线供电模块模型对象中的灯座口标识,可同步修改该配对实体供电模块相应灯座口所对应的显示单元所显示的字符,并且灯座口标识修改的同时,该供电模块模型所对应的供电模块图标中所显示的灯座口标识以及相应实体供电模块的设备标识也会做相应改变;通过修改已配对在线供电模块模型对象中的各项电压最大值和最小值、各相线电流最大值和最小值、三相电压平衡阀值,以及各灯座口的输出电流阀值和输出功率阀值,那么控制主机对相应实体供电模块的异常情况判断的条件也随之改变;通过修改已配对在线供电模块对象中的各灯座口开关状态,可以控制相应实体供电模块的相应开关单元的通断。 For example, by modifying the paired-line power supply module socket port identification model object, modify the character can be synchronized to the power supply module corresponding counterpart entity corresponding socket opening the display unit display, and modify the socket interface identifier, while the port identifier and the device identifier corresponding socket module power supply module entity model corresponding to the power supply module icon displayed will change accordingly; paired by modifying the maximum and minimum line voltage supply module model object each phase line current maximum and minimum values ​​of the three-phase voltage balancing valve, and the output port of each socket and the output power threshold current threshold, the control corresponding to the host entity of the abnormality of the power supply module determines conditions with the changes; paired by modifying the switching state of each socket port line power supply module objects, can control on and off the respective switching unit corresponding entity of the power supply module. 供电模块模型对象中的连接关系数据,可通过图形用户界面的人机交互操作实现更改; The power supply module connection relationship data model object can be achieved by a human-computer interaction to change the graphical user interface;

上述步骤S33包括步骤S331、步骤S332和步骤S333: Step S33 comprises the above-described step S331, step S332 and step S333:

步骤S331:创建灯具模型包括:创建灯具模型对象,并在供电区域中显示用于表示该灯具模型的灯具图标。 Step S331: Create Model lamp comprising: creating an object model lamps, and a display for indicating the supply area of ​​the lamp fixture icons model. 该灯具模型对象包括灯具标识、灯具性质(可调光或不可调光)、灯具额定功率和额定电流、与灯座口的连接关系等数据。 The lamp comprises a lamp model object identifier, lighting properties (dimmable or non-dimmable), rated power and rated lamp current, the relationship between the socket connector port data and the like. 若该灯具有两个或以上的连接端口时,其中一个为单相电输入端,其余为单相电输出端,则该灯具模型对象还包括各个连接端口的标识。 If the lamp has two or more connection ports, one of which is a single-phase electrical input, and the remaining single-phase electrical output, the lamp further comprising a model object identifiers of connection ports.

[0053] 步骤S332:删除灯具模型包括删除相应的灯具模型对象,并在供电区域中删除用于表示该灯具模型的灯具图标。 [0053] Step S332: Delete deletes the corresponding lamp lighting model includes model objects and remove the power supply region for the lamp fixture icons representing model.

[0054] 在上述步骤S34中,供电模块模型与在线实体供电模块(即与控制主机建立网络连接的实体供电模块)的配对方式包括自动配对和手动配对。 [0054] and a manual pairing comprises automatically pairing in the pairing step S34 described above, the power supply modules for the power supply module and the online entity (i.e. an entity to establish the power supply control module connected to the network host).

[0055] 其中,自动配对方式包括以下步骤: [0055] wherein, automatic pairing mode comprises the steps of:

步骤S341:搜索已经与控制主机建立网络连接的实体供电模块,即在线供电模块,并在图形用户界面中显示用于表示这些实体供电模块的设备标识(可称为在线设备标识);步骤S342:选择一设备标识,将其拖放至选定供电模块区域视图中,创建供电模块模型,在该供电模块区域中生成与该供电模块模型对应的供电模块图标,并将该实体供电模块的序列号保存至该供电模块模型对象中,使该供电模块与该新创建的供电模块模型建立配对关系。 Step S341: The search has said power supply device module identifies an entity to establish control of the host entity and the power supply module connected to the network, i.e., the power supply module line, and displays a graphical user interface (may be referred to as a device identifier-line); Step S342: selecting a device identifier, and drag it to the selected region in view of the power module, the power supply module to create the model, the power supply module generates a power supply module corresponding to the model of the power supply module icon region, and the serial number of the power supply module entity save to the power supply module model object, so that the power supply module power supply module to establish relations with the pairing of the newly created model.

[0056]例如某个与控制主机建立网络连接的实体供电模块为三联模块,序列号为CFJ0083UDY,其上三个显示单元分别显示的数字为806、807、809,那么在图形用户界面上将显示该实体供电模块的设备标识“806-807-809 ”,用户将该设备标识拖放到选定的供电区域后,将可以看到拖放路径终点位置生成一个供电模块图标,并且在控制主机的存储模块中已经同步创建了与该供电模块图标对应的供电模块模型对象,并将该实体供电模块的序列号保存至该供电模块模型对象中; [0056] For example to establish a network connection with the host entity power control module triple module, Serial No. CFJ0083UDY, a digital display unit on which three are shown as 806,807,809, then displayed on the graphical user interface after the entity device identification power supply module "806-807-809", the user equipment identifier to drag and drop the selected area of ​​the power supply, will see the path end position to generate a drag power module icon, and the control of the host synchronous memory module has a power supply module created model object corresponding to the power supply module icon and save the serial number of the entity to the power supply module power supply module model objects;

其中,手动配对方式包括以下步骤: Wherein the manual pairing mode comprises the steps of:

步骤S343:搜索已经与控制主机建立网络连接的实体供电模块,并在图形用户界面中显示用于表示这些实体供电模块的设备标识; Step S343: Search the power supply module already established network entity connected to the control panel, the graphical user interface and a display device for indicating the power supply module to identify these entities;

步骤S344:选择一在线供电模块的设备标识,将其拖放至选定供电区域视图中的选定供电模块图标上; Step S344: selecting a device identifier-line power supply module, to drag and drop on a selected region of the selected power supply module icon view;

步骤S345:判断该供电模块图标所表示的供电模块模型是否已经和实体供电模块配对过,若是则不进行配对操作,若否继续判断两者的类型是否相同; Step S345: judging whether the model of the power supply module power supply module and the icon represents the entity has the paired power supply module, if the pairing operation is not performed, if not continue to determine both the types are the same;

步骤S346:判断该设备标识所表示的实体供电模块类型与该选定的供电模块图标所表示的供电模块模型的类型是否一致,若一致则执行配对操作,将该实体供电模块的序列号保存至该供电模块图标所对应的供电模块模型对象中,若不一致则不执行配对操作。 Step S346: determining the type of power supply modules for the power supply module of the entity device identification of the type represented by the selected icon represents the power supply module are the same, if they are consistent pairing operation is performed, the stored physical sequence number to the power supply module the power supply module of the power supply module model object corresponding to the icon, the pairing operation is not performed if inconsistent.

[0057] 当已配对的实体供电模块与控制主机建立网络连接后,用户可通过更改供电模块模型对象的数据控制该实体供电模块进行相应操作,例如更改各灯座口的开关状态,可实现对该实体供电模块各个灯座口的供电进行独立的开关控制。 [0057] When the power supply module paired entities establish a network connection with the control panel, the user may change the data model object supply module controls the power supply module entity corresponding operation, for example, to change the switch state of each port by the socket, can be achieved the individual socket power port entity independent power supply switching control module. 当用户可通过控制主机或者因实体供电模块出现异常而触发控制主机向相应实体供电模块的网络监测单元发送控制信息,然后由该网络监测单元向该实体供电模块一个或多个灯座口的开关单元发出控制信号,从而断开这些灯座口的供电。 When the user can control the host-to-switch network monitoring entity corresponding to the power supply module unit control information, and a power supply module to the entity by the network monitoring unit or a plurality of openings through the socket due to an abnormal host or entity controlling the power supply module has triggered the control unit issues a signal to disconnect the power supply socket opening. 此外,更改各灯座口的标识内容,可实现对该实体供电模块相应显示单元所显示字符的更改。 Also, changing the contents of each socket port identification, the entity may be implemented to change the power supply module corresponding to the character displayed by the display unit.

[0058] 上述步骤40进一步包括下述步骤S41、步骤S42、步骤S43、步骤S44和步骤S45。 [0058] The step 40 further comprising the step S41, the step S42, step S43, the step S44 and step S45.

[0059] 步骤S41:在供电区域中将一供电口图标的某一输出端口与一供电模块图标的三相电输入端进行连接操作,若该两端口均未与其他模型图标的端口连接,且该供电模块图标接入该供电口图标的链路后该供电口图标的任一相链路总额定输出功率均小于其相应的链路总输出功率阀值,则连接成功,并将相应的连接关系数据保存至相应的供电模块模型对象和相应的供电口模型对象中;否则连接不成功。 [0059] Step S41: connection operation in a three-phase input terminal and the output port of a power supply module icon in the icon area of ​​a power supply port, if neither of the two ports connected to other ports of the model icon, and the power supply according to any port icon after the power supply of the power supply module icon access port link icon link with a given total power output is less than its corresponding link total output power threshold, the connection is successful, and the respective connecting relation data holding power supply module corresponding to model objects and corresponding object model supply port; otherwise, the connection is unsuccessful. 供电口图标的某一相链路总额定输出功率是指该供电口图标链路的该相灯座上连接的各个灯具图标所对应的额定功率之和,这并非该供电口图标的实际输出功率。 The total power of a link with a given output port icon is an icon means that the respective lamp socket connected to the phase of the power supply port link icon corresponding to the rated power, and this is not the actual output power of the power supply port icon .

[0060] 进一步的,还可以增加三相电流平衡作为连接成功的前提条件:若连接后,各相链路总额定输出功率的最大值与最小值的比值大于或等于该供电口图标所对应的供电口模型对象中的三相电流不平衡阀值的倍数阀值时,连接不成功。 [0060] Further, the three-phase current balance may be increased further as a prerequisite for successful connection: if the connection with the respective link total maximum and minimum rated output power ratio is greater than or equal to the supply port corresponding to icon Three-phase current supply port model object unbalanced multiple threshold threshold value, connection is unsuccessful. 此时,供电口图标与供电模块图标连接成功有三个前提条件:(I)连接端口都是空的;(2)连接后各相链路总额定输出功率小于阀值;(3)连接后三相电流平衡。 After three (3) is connected; (the I) connection port are empty; (2) the connection of each link relative to the total output power is less than a given threshold value: In this case, the power supply module and the supply port icon icon successful connection has three preconditions phase current balance.

[0061] 在进行供电口图标和供电模块图标连接操作时,对于该供电口图标只有一个输出端口的情况:该供电模块图标的三相电输出端可能是空的,也可能已经串联了一个或多个其他供电模块图标,如果属于前者,即使该供电模块图标的灯座口上已经连接一个或多个灯具,该供电模块图标接入该供电口图标链路后,配电输出的各相链路总额定输出功率一般也不会超过阀值,但若属于后者,该供电模块图标接入该供电口图标链路后各相链路总额定输出功率是否超出阀值不能确定,因此需要进行计算判断。 [0061] case of performing the power supply module and a power supply port icon icon connecting operation, the power supply port for only one output port of icon: the icon three-phase power supply module electrical output may be empty, or may have a series or a plurality of power modules of other icons, if they are the former, even after the socket opening of the power supply module icon connected to one or more lamps, the power supply module to access the icon to icon link power port, and the phases of the output link distribution total rated output power is generally no more than the threshold, but if the latter, the power supply of the power supply module icon after the access port and the phases link icon link whether the total output power exceeds a threshold can not be determined, it is necessary to calculate judgment.

[0062] 对于该供电口图标有多个输出端口的情况,在计算各相链路总额定输出功率时,需要将各个输出端口的各相链路额定输出功率分别相加得到供电口图标的各相链路额定总输出功率。 [0062] There are a plurality of output ports for which power port icon, when calculating the total output power of each phase a given link, the link needs to be rated output power of each phase of each output port are respectively obtained by adding respective feeding port icon link with the rated total output power. 例如某供电口图标有两个输出端口,若其输出端口LI与供电模块图标的三相电输入端Kl连接后,该输出端口LI的A、B、C相的输出功率分别为1.9KW、2.0Kff,2.5KW,输出端口B现有的供电的A、B、C相输出功率分别为1.9KW、2.1Kff,2.2KW,则A、B、C相的链路总输出功率为3.8KW,4.1Kff,4.7KW,链路总输出功率最大的是C相链路,最小的是A相链路,两者比值是1.23。 For example, a power port icon has two output ports, if the three-phase power input terminal Kl LI its output port connected to the power supply module icon, of the output port LI of A, B, C-phase output power are 1.9KW, 2.0 Kff, 2.5KW, the conventional power output port B a, B, C-phase output, respectively link the total output power 1.9KW, 2.1Kff, 2.2KW, then a, B, C phase is 3.8KW, 4.1 Kff, 4.7KW, maximum total output power of the link is the C-phase link, link the a-phase is the smallest, both the ratio is 1.23. 假设该供电口图标所对应的各相链路总输出输出功率阀值时5KW,三相电流不平衡阀值的倍数阀值是1.2,那么若采用上述第(1)、(2)点条件作为连接前提条件时,该供电口图标与该供电模块图标的三相电输入端Kl连接是成功的,但是若采用上述第(1)、(2)、(3)点作为连接前提条件时,则该连接不成功。 Suppose the respective phases of the power supply port link icon corresponding total output power threshold when multiple threshold 5KW, phase current imbalance threshold is 1.2, so if the above-described (1), (2) a point condition prerequisite connection, the power supply is electrically connected with a three port icon Kl input terminal of the power supply module icon is successful, but if the use of the above (1), (2), (3) connecting point as a precondition, the the connection is not successful.

[0063] 步骤S42:在供电区域中将一供电模块图标的三相电输出端与另一供电模块图标的三相点输出端进行连接操作,若该两端口均未与其他模型图标的端口连接,且该另一供电模块图标接入该一供电口图标所在的供电口图标链路后,该供电口图标链路的任一相链路总额定输出功率均小于其相应链路总输出功率阀值,则连接成功,并将相应的连接关系数据保存至相应的两供电模块模型对象中;否则连接不成功。 [0063] Step S42: connection operation point of the output terminal of the three-phase three-phase output terminal of a power supply module in the region of icon power supply module to another icon, if neither of the two ports connected to other ports of the model icon after, and the other power supply module icon access port of the icon link icon is located a supply port, a total phase of the power supply link to any given output port icon link power are less than the corresponding total output power of the valve link value, then the connection is successful, and respective connection to the corresponding relation data holding two power supply module model object; otherwise, the connection is unsuccessful.

[0064] 进一步的,还可以增加三相电流平衡作为连接成功的前提条件:若连接后,各相链路总额定输出功率的最大值与最小值的比值大于或等于相应供电口模型对象中的三相电流不平衡阀值的倍数阀值时,连接不成功。 [0064] Further, the three-phase current balance may be increased further as a prerequisite for successful connection: if the connection with the respective link total rated output power of the ratio of maximum and minimum values ​​equal to or greater than the respective supply port model object when multiple phase current unbalance threshold threshold, the connection is unsuccessful. 此时,供电模块图标与供电模块图标连接成功有四个前提条件:(1) 一端为三相电输入端,一端为三相电输出端;(2)该两连接端口都是空的;(3)连接后各相链路总额定输出功率小于阀值;(4)连接后三相电流平衡。 In this case, power supply module icon and icon successful connection module has four preconditions: (1) one end of the three-phase power input terminal, one end of a three-phase electrical output; (2) the two ports are empty; ( 3) the connection of each link with the total output power is less than a given threshold value; (4) connected to a three-phase current balance.

[0065] 步骤S43:在供电区域中将一灯具图标的单相电输入端与一电模块图标的某一灯座口进行连接操作,若该两端口均未与其他模型图标的端口连接,且该灯具的额定功率小于该灯座口的输出功率阀值,且该灯具接入该供电模块图标所属的供电口图标链路后,该供电口图标链路的任一相链路总额定输出功率均小于其相应的链路总输出功率阀值,则连接成功,并将相应的连接关系数据保存至相应的灯具模块对象中和相应的供电模块模型对象中;否则连接不成功。 [0065] Step S43: in the single-phase input terminal of the power supply in the region of a lamp with a particular icon opening a socket electrically connected to the operation module icon, if neither of the two ports connected to other ports of the model icon, and the rated power of the lamp is less than the threshold value the output power of the socket opening, and the lamp power port access link icon icon belongs to the power supply module, the total amount of any phase of the supply port link icon link given output power less than the corresponding total output power link threshold, the connection is successful, and to save the relationship between the respective connection to the corresponding data objects in the luminaire module and power supply module corresponding to the model object; otherwise, the connection is unsuccessful.

[0066] 进一步的,还可以增加三相电流平衡作为连接成功的前提条件:若连接后,各相链路总额定输出功率的最大值与最小值的比值大于或等相应供电口模型对象中的三相电流不平衡阀值的倍数阀值时,连接不成功。 [0066] Further, the three-phase current balance may be increased further as a prerequisite for successful connection: a respective feeding port, if the model object connected with the respective maximum and minimum total link ratio of a given power output of greater than or equal when multiple phase current unbalance threshold threshold, the connection is unsuccessful. 此时,灯具图标与供电模块图标连接成功有五个前提条件:(I) 一端为三相电输入端,一端为灯座口;( 2 )该两端口都是空的;(3 )该灯具图标对应的额定功率小于该供电模块图标灯座口对应的输出功率阀值;(4)连接后各相链路总额定输出功率小于阀值;(5)连接后三相电流平衡。 At this time, the power supply module fixture icons icon successful connection has five prerequisites: (I) one end of the three-phase power input terminal, one end of the socket opening; (2) the two ports are empty; (3) the lamp icon corresponding to the rated power less than the power supply socket outlet module icon corresponding to an output power threshold value; (4) of each link connected with the total output power is less than a given threshold; (5) connecting the three-phase current balance.

[0067] 步骤S44:在供电区域中将一灯具图标的单相电输出端与另一灯具图的单相电输入端进行连接操作,若该一灯具图标的单相电输入端已和某一灯座口连接,且该两端口均未与其他模型图标的端口连接,且该两灯具图标对应的额定功率之和小于相应灯座口的输出功率阀值,且该灯具接入该供灯座口所属的供电口图标链路后,该供电口图标链路的任一相链路总额定输出功率均小于其相应的链路总输出功率阀值,则连接成功,并将相应的连接关系数据保存至该两灯具的模型对象中;否则连接不成功。 [0067] Step S44: connection operation input electrical single-phase single-phase electrical output power in the region of a lighting fixture with another icon FIG single-phase power input terminal when the icon has a lamp and a socket port connection, and neither of the two ports connected to other ports of the model icon, and the icon corresponding to the two lamp rated power and smaller than the corresponding threshold output power port socket, and the socket for the lamp access after feeding port icon link port belongs, with a total opening of the power supply link icon link any given output power are less than the corresponding total output power link threshold, the connection is successful, the data and corresponding connection relationship save the object model to the two light fixtures; otherwise, the connection is unsuccessful.

[0068] 进一步的,还可以增加三相电流平衡作为连接成功的前提条件:若连接后,各相链路总额定输出功率的最大值与最小值的比值大于或等相应供电口模型对象中的三相电流不平衡阀值的倍数阀值时,连接不成功。 [0068] Further, the three-phase current balance may be increased further as a prerequisite for successful connection: a respective feeding port, if the model object connected with the respective maximum and minimum total link ratio of a given power output of greater than or equal when multiple phase current unbalance threshold threshold, the connection is unsuccessful. 此时,灯具图标与灯具图标连接成功有五个前提条件:(1) 一端为三相电输出端,一端单相电输入端;(2)该两端口都是空的;(3)该两灯具图标对应的额定功率之和小于相应灯座口对应的输出功率阀值;(4)连接后各相链路总额定输出功率小于阀值;(5)连接后三相电流平衡。 At this time, the lighting fixture icons successful connection icon five prerequisites: (1) a three-phase electrical output end, one end of the single-phase input terminal; (2) the two ports are empty; (3) the two fixture icons corresponding to the rated power than the corresponding socket and a corresponding output port power threshold; balanced three-phase current connection (5); (4) connected to each link with a given total power output is less than the threshold value.

[0069] 步骤S45:删除连接关系,在供电区域中将删除两图标之间的连接关系,并删除该两图标所表示模型对象中的连接关系数据。 [0069] Step S45: delete a connection relation, the connection between the two delete icon in the supply area, and remove the two connection relationship data model icon object representation.

[0070] 在上述步骤S50中,供电口模型的某一相链路总输出功率异常是指该供电口模型的该一相链路总输出功率大于或等于该供电口模型对象中设定的该相链路总输出功率阀值的情形。 [0070] In the step S50, a model of phase feeding port link total output power abnormality is the link of the supply port with a model equal to or greater than the total output power of the power supply port set in the model object link with the case of the total output power threshold. 在本实施例中,由于控制主机只与实体供电模块建立网络连接,并没有和配电柜建立网络连接,控制主机不能从直接从与该供电口模型对应的实体配电柜获得实际的各相链路总输出功率,因此本实施例供电口模型的各相链路总输出功率可以通过如下方法得到: In the present embodiment, since the control of the host entity only establish a network connection with the power supply module, and distribution cabinet did not establish a network connection, the actual control panel can not be obtained directly from the respective phases from the feeding port corresponding to the model entity distribution cabinet the total power output link, each link of a power supply with a total power output port model of the present embodiment thus can be obtained by the following method:

(I)将与该供电口模型三相电输出端口直接连接的在线供电模块模型所对应的实体供电模块的各相电压和各相线电流的乘积分别得到的数值作为该供电口模型各相链路的总输出功率。 Phase voltages (I) line model directly to the power supply module connected to the three-phase power supply port model corresponding to the output port of the power supply module and the product of the entity of each phase line current are obtained as the value of the supply port and the phases chain model the total output power of the road. 若该供电口模型有多个三相电输出端口,则需要将与各个三相电输出端口的各相链路输出功率进行相加得到各相链路总输出功率。 If the model has a plurality of three-phase power supply port electrical output port, it is necessary to link with each phase of each output port of a three-phase output link of each phase obtained by adding the total output power.

[0071] (2)将该供电口模型链路上的各个已配对在线供电模块模型所对应的实体供电模块的各相灯座口的输出功率分别进行合并计算得到各相链路的总输出功率。 [0071] (2) on the respective link power port paired model line power supply module corresponding to the model entity power supply module of the respective phases output port socket respectively combined total output power of each phase is calculated link . 实体供电模块某一灯座口的输出功率可通过其网络监测单元所获得的该灯座口输出电流与该灯座口所连接相线的电压的乘积得到。 Output power of a power supply module socket port entity may be the network socket port output current monitoring unit which obtained the product of the voltage phase line connected to the lamp holder is obtained by opening.

[0072] 供电口模型的三相电流平衡异常,是指该供电口模型的各相链路总电流中的最大值和最小值的比值大于或等于该供电模模型对象中设定的三相不平衡阀值的倍数阀值,且持续时间大于或等于设定的持续时间阀值的情况。 [0072] The three-phase current supply port model abnormal balance, refers to the ratio of each link of the supply port with the total current in the model maximum and minimum values ​​greater than or equal to the set of three-phase power supply pattern model object does not where the duration of balancing multiple threshold values, and the duration is greater than or equal to the set threshold.

[0073] 已配对在线供电模块模型所对应的实体供电模块的各相电压异常,是指该实体供电模块的某一相电压大于或等于该在线供电模块模型对象中所设定的该相电压最大值,以及小于或等于该在线供电模块对象中所设定的该相电压最小值的情形。 [0073] each phase line voltage supply module paired entity model corresponding to the abnormal power supply module, it means a solid phase voltage of the power supply module is greater than or equal to the phase voltage of the power supply module line model object set in the maximum value, and the case of the minimum phase voltage is less than or equal to the power supply module line object set. 假设某供电模块模型对象所设定的最大相电压是280伏,最小相电压是180伏,若与该供电模块模型配对的实体供电模块的网络监测单元获得的A相电压数据是290伏,则表明该供电模块的A相电压异常,需要进行处理。 Assuming the maximum phase voltage of a power supply module is set in the model object 280 volts, the minimum phase voltage is 180 volts, A data network phase voltage monitoring unit if the power supply module paired with the entity model is obtained by the power supply module 290 volts, the a power supply module indicates that the abnormal phase voltage, needs to be processed.

[0074] 已配对在线供电模块模型所对应的实体供电模块的各相线电流异常,是指该实体供电模块的某一相线电流大于或等于该在线供电模块模型对象中所设定的该相线电流最大值,以及小于或等于该在线供电模块对象中所设定的该相线电流最小值的情形。 [0074] The power supply module is paired online entity model corresponding power supply module for each phase current exception, refers to a phase current of the power supply module is an entity equal to or greater than the phase of the line power supply module set in the model object maximum line current, and the minimum phase line current is less than or equal to the case where the power supply module line object set.

[0075] 已配对在线供电模块模型所对应的实体供电模块的三相电压平衡异常,是指该实体供电模块各相电压中的最大值与最小值的差值大于或等于该在线供电模块模型对象中所设定的三相电压平衡阀值的情形。 [0075] The power supply module is paired line corresponding physical model of the three-phase voltage supply module abnormal balance, it refers to the difference between the phase voltage of the power supply module entity maximum and minimum values ​​greater than or equal to the power supply module line model object case balancing three-phase voltage values ​​in the set.

[0076] 已配对在线供电模块模型所对应的实体供电模块的各灯座口输出电流异常,是指该实体供电模块某一灯座口的输出电流大于或等于该在线供电模块模型对象中所设定的灯座口输出电流阀值的情形。 [0076] The power supply module is paired line model corresponding physical port socket of each power supply module output current abnormality, the entity is the output current of a power supply socket outlet module is greater than or equal to the power supply module line model object in the set given situation socket port output current threshold.

[0077] 已配对在线供电模块模型所对应的实体供电模块的各灯座口输出功率异常,是指该实体供电模块某一灯座口的输出功率大于或等于该在线供电模块模型对象中所设定的灯座口输出功率阀值的情形。 [0077] The power supply module is paired line model corresponding physical port socket of each power supply module output power anomaly, the entity is the output power of a power supply socket outlet module is greater than or equal to the power supply module line model object in the set given situation threshold output power socket port.

[0078] 实施例三 [0078] Example three

本实施例提供一种专业灯光供电控制系统,如图12所示,该系统包括: The present embodiment provides a power supply control professional lighting system, shown in Figure 12, the system comprising:

系统模型处理模型1201,用于选择或建立系统模型; Processing System Model 1201 model, is used to select or create a system model;

区域模型处理模块1202,选择或建立一供电区域模型,并在图形用户界面上显示相应的供电区域视图; Model processing region module 1202, select or create a supply region model, and displays the corresponding supply area in view of the graphical user interface;

模型处理模块1203,用于在供电区域视图中建立、删除或编辑供电口模型,供电模块模型,和/或灯具模型,并配对供电模块模型和在线实体供电模型; Model processing module 1203, configured to establish a supply area view, delete, or edit the power supply port model, model power supply module, and / or lighting model, and pair-line power supply module and a model power solid model;

连接处理模块1204,用于在选定的供电区域中编辑各个模型之间的连接关系; Connection processing module 1204 for editing a connection relationship between each model in the selected power region;

供电监测模块1205,用于对系统模型中各个供电区域的各个供电口模型的下述一个或多个数值的异常情况进行监控和/或报警:各个供电口模型的各相链路总输出功率、各个供电口模型的三相电流平衡;同时,该供电监测模块还可以用于选择对各个已配对在线供电模块模型所对应的实体供电模块下述一个或多个数值的异常情况进行监控和/或报警:各相电压、各相线电流、三相电压平衡、各灯座口的输出电流、各灯座口的输出功率。 Power supply monitoring module 1205, for the following respective feeding port of each model power system model or a region of a plurality of numerical abnormality monitoring and / or alarm: each link of each phase power supply port model the total output power, respective phase current supply port balance model; same time, the power supply monitoring module can also be used to select for each paired-line power supply module corresponding to the model entity following a power supply module or a plurality of abnormal values ​​to monitor and / or alarm: the phase voltage of each phase line current, balanced three-phase voltage, the output current of each socket opening, each port output power socket.

[0079] 本实施例系统的各个模块与实施例二的各个步骤--对应,实现相同的功能,本实施例系统的各个模块可进一步实现的功能可参照上述实施例二,在此不再赘述。 [0079] The various modules of the present embodiment and the embodiment of the system according to the second embodiment of the steps - corresponding to achieve the same functionality, each module according to the present embodiment may further system functions may be implemented with reference to the above-described second embodiment, are not repeated here .

Claims (10)

1.一种专业灯光供电控制方法,其特征在于:该方法通过控制主机对基于区域功率供电的灯光供电系统进行供电管理, 所述灯光供电系统包括:电源配电系统和若干个区域配电箱,该电源配电系统用于接收外部电源并分配至各个区域配电箱,每个配电箱用于为设定的一个或多个供电区域的用电设备提供电源,区域配电箱向一组或多组供电模块供电,每组供电模块包括一个或多个串联的供电模块,该区域配电箱与供电模块之间、供电模块与供电模块之间均通过多芯电缆连接,该多芯电缆至少包括A相线、B相线、C相线、零线、地线;每个区域配电箱有一个或多个供电口,每个供电口向一组或多组供电模块供电,每组供电模块包括一个或多个串联的供电模块,供电区域是由配电柜的一个或多个供电口提供电源的用灯范围; 所述供电模块为三联两用供电模块 A professional lighting power supply control method, wherein: the power management method based on the area light power supply system powered by the control panel, the light supply system comprising: a power distribution system and a number of regional distribution box the power distribution system for receiving an external power supply and distribution box assigned to the respective regions, each distribution box for supplying power to electrical power supply device according to one or more regions of the set area to a distribution box or more sets of power supply modules, each power supply module comprises one or more series power supply module, the region between the distribution box and power supply module, the power supply between the power supply module and the modules are connected by a multi-core cable, the multicore a cable comprising at least a phase, B phase, C phase, neutral and ground; each area distribution box with one or more supply ports, each port power supply to the power supply module one or more groups, each the power supply module comprises a set of one or more series power supply module, the power supply region to provide a range of lamp power distribution cabinet by one or more power ports; the power supply module is a dual power supply module terphenyl A相单联两用供电模块、B相单联两用供电模块、C相单联两用供电模块、A相单联直通供电模块、B相单联直通供电模块或C相单联直通供电模块; 所述三联两用供电模块包括:A相线、B相线、C相线、零线、地线,以及三相电输入插座、三相电输出插座、一A相灯座口、一B相灯座口、一C相灯座口、漏电保护单元、开关单元、调光器、DMX调光控制单元、切换单元、网络监测单元,所述灯座口连接至零线、地线和其中一相线,用于向插接至该灯座口的灯具提供单相电;各所述灯座口与一漏电保护单元、一开关单元、一切换单元和一调光器对应,所述切换单元的一端与相线通过一连接线缆连接,另一端与灯座口之间并联有直通线路和调光线路,所述漏电保护单元、开关单元设置在所述切换单元的该一端与相线之间的连接线缆上,所述调光器设置在该调光线路上 A dual-phase single associated power supply modules, B associated with a single dual-purpose power supply module, C associated with a single dual-purpose power supply module, A pass-through associated with a single power supply module, B associated with a single power supply module or pass-through associated through a single C-phase power supply module ; triple the dual power supply module comprises: a phase, B phase, C phase, neutral and ground, and a three-phase power input socket, an electrical three-phase output socket, a socket port a phase, a B socket opening phase, a C phase socket port, leakage protection unit, a switch unit, dimmers, the DMX dimming control unit, a switching unit, a network monitoring unit, the socket port is connected to the neutral line, ground line, and wherein a phase line for providing single-phase power to the plug socket to the lamp opening; each of said socket port and a leakage protection unit, a switching unit, a switching unit and a dimmer corresponding to the switching one end of the phase unit is connected via a connection cable, with a straight line and parallel line dimming between the other end and the socket port, the leakage protection unit, the switching unit provided at one end of the phase line of the switching unit the connecting cables between the dimmer is disposed in the light path adjusting ,所述切换单元与所述网络监测单元连接,用于根据其发出的控制信号选择直通线路或调光线路;所述DMX调光控制单元设有DMX信号输入接口和DMX信号输出接口,用于根据外部输入的DMX信号对一个或多个调光器进行控制,从而实现对连接至灯座口的调光灯具进行调光控制;所述开关单元用于根据网络监测单元的控制信号对各灯座口的供电进行远程开关控制;所述网络监测单元设有网络信号输入接口和网络信号输出接口,用于获取各相线的电压、电流、灯座口的输出电流,并将这些数据反馈给与该供电模块建立网络连接的控制主机,以及用于根据控制主机发出的控制信息向该开关单元发出接通或断开的控制信号和向该切换单元发出接通调光线路或接通直通线路的控制信号; 所述单联直通供电模块包括:A相线、B相线、C相线、零线、地线,以及三相电输 The switching unit is connected with the network monitoring unit, according to the control or dimming direct line selection signal line thereof is given; the DMX dimming control unit has an input interface and DMX signal DMX signal output interface for DMX signal externally input according to one or more dimmer control, thereby achieving port connected to the socket dimming control for dimming the lamp; the switching unit in accordance with a control signal for network monitoring unit to each lamp supply pocket for remote control switch; the network monitoring unit is provided with a network interface and a network signal input signal output interface, for obtaining voltage and current, the output current of each phase of the socket outlet line, and the data back to the control host establish a network connection with the power supply module, and a control unit for sending information to switch from the control panel in accordance with a control signal turning on or off and to turn on the switching unit sends a dimming circuit switched or direct line control signal; linked through a single power supply module comprising: a phase, B phase, C phase, neutral and ground, and a three-phase electrical output 插座、三相电输出插座、灯座口、漏电保护单元、开关单元、网络监测单元,所述灯座口连接至零线、地线和其中一相线,用于向插接至该灯座口的灯具提供单相电;灯座口与一漏电保护单元和一开关单元对应,该漏电保护单元、开关单元设置在灯座口与相线连接的线路上;所述开关单元用于根据网络监测单元的控制信号对各灯座口的供电进行远程开关控制;所述网络监测单元设有网络信号输入接口和网络信号输出接口,用于获取各相线的电压、电流、灯座口的输出电流,并将这些数据反馈给与该供电模块建立网络连接的控制主机,以及用于根据控制主机发出的控制信息向该开关单元发出接通或断开的控制信号; 所述单联两用供电模块包括:A相线、B相线、C相线、零线、地线,以及三相电输入插座、三相电输出插座、灯座口、漏电保护单元、开关 Socket, three-phase power output socket, the socket mouth, leakage protection unit, a switch unit, a network monitoring unit, the socket port is connected to the neutral line, wherein a phase line and ground, for the plug to the socket port single-phase electrical fixture; socket opening and with a leakage protection unit corresponding to a switch unit, the leakage protection unit, a switch unit disposed on a line and phase line socket connection ports; a switching unit according to the network the control signal monitoring unit remote switching control of power supply to each of the socket opening; the network monitoring unit is provided with a network interface and a network signal input signal output interface, for acquiring a voltage for each phase line current, the output port of the socket current, and the data of the power supply module to give feedback control of the host to establish a network connection, and for issuing a control signal is turned on or off according to the control information to the switching unit from the control panel; said single power supply with dual module comprises: A phase, B phase, C phase, neutral and ground, and a three-phase power input socket, an electrical three-phase output socket, the socket mouth, leakage protection unit, a switch 元、调光器、DMX调光控制单元、切换单元、网络监测单元,所述灯座口连接至零线、地线和其中一相线,用于向插接至该灯座口的灯具提供单相电;所述灯座口与一漏电保护单元、一开关单元、一切换单元和一调光器对应,所述切换单元的一端与相线通过一连接线缆连接,另一端与灯座口之间并联有直通线路和调光线路,所述漏电保护单元、开关单元设置在所述切换单元的该一端与相线之间的连接线缆上,所述调光器设置在该调光线路上,所述切换单元与所述网络监测单元连接,用于根据其发出的控制信号选择直通线路或调光线路;所述DMX调光控制单元设有DMX信号输入接口和DMX信号输出接口,用于根据外部输入的DMX信号对一个或多个调光器进行控制,从而实现对连接至灯座口的调光灯具进行调光控制;所述开关单元用于根据网络监测单元的控制 Yuan, dimmers, the DMX dimming control unit, a switching unit, a network monitoring unit, the socket port is connected to the neutral line, wherein a phase line and the ground line for supplying the plug to the lamp socket port single phase; a drain port and a socket protection unit, a switching unit and a switching unit corresponding to a dimmer, one end of the switching unit is connected by a line with a connecting cable, the other end of the socket there are parallel lines between the ports and through the dimming circuit, the leakage protection unit, a switch unit is disposed on one end of the cable between the phase line and the switching unit, the dimmer setting the dimming on the line, the switching means is connected with the network monitoring unit, according to the control for selecting a dimming direct line or signal line which is given; the DMX dimming control unit has an input interface and DMX signal DMX signal output interface, the DMX signal for an external input of one or more dimmer control, thereby achieving port connected to the socket dimming control for dimming the lamp; a switching unit for controlling a network monitoring unit 号对各灯座口的供电进行远程开关控制;所述网络监测单元设有网络信号输入接口和网络信号输出接口,用于获取各相线的电压、电流、灯座口的输出电流,并将这些数据反馈给与该供电模块建立网络连接的控制主机,以及用于根据控制主机发出的控制信息向该开关单元发出接通或断开的控制信号和向该切换单元发出接通调光线路或接通直通线路的控制信号; 上述各类所述供电模块还包括一个或多个显示单元,每个灯座口对应一个显示单元,各显示单元与供电模块中的网络监测单元连接,用于根据控制主机发出的控制指令进行开关和显示,每个显示单元可显示若干个字符,所述供电模块的设备标识用其所包含的显示单元所显示的字符按所述供电模块的三相电输入端至三相电输出端方向或相反方向依次显示内容所形成的字符串表示; 所述方法包括: No. remote switching control of power supply to each of the socket opening; the network monitoring unit is provided with a network interface and a network signal input signal output interface, for obtaining voltage and current, the output current of each phase line of the socket outlet, and these data give feedback control of the power supply module to establish a host network connection, and for issuing a control signal is turned on or off according to the control information to the switching unit from the control panel and sent to the switching unit is turned on or dimming line through a signal on control line; and the various types of the power supply module further comprises one or more display units, each display unit corresponds to one socket opening, each display cell power supply modules connected to the network monitoring unit, according to control switching instruction issued by the host and the display, each display unit may display a plurality of characters, which device identifier of the power module with the display unit included therein is displayed by the three-phase power input terminal of the power supply module to a three-phase electrical output direction or in the opposite direction sequentially displayed character string represented by the contents of the formed; the method comprising: 选择或建立系统模型; 选择或建立一供电区域模型,并在图形用户界面上显示相应的供电区域视图; 在供电区域视图中建立、删除或编辑供电口模型,供电模块模型,和/或灯具模型,并配对供电模块模型和在线实体供电模型; 在选定的供电区域中编辑各个模型之间的连接关系; 对系统模型中各个供电区域的各个供电口模型的下述一个或多个数值的异常情况进行监控和/或报警:各个供电口模型的各相链路总输出功率、各个供电口模型的三相电流平衡;同时,还可以选择对各个已配对在线供电模块模型所对应的实体供电模块下述一个或多个数值的异常情况进行监控和/或报警:各相电压、各相线电流、三相电压平衡、各灯座口的输出电流、各灯座口的输出功率。 Select or create a system model; select or create a supply region model, and displays the corresponding supply area view on the graphical user interface; establishing in the power supply area view, delete, or edit the power supply port model, the power supply module model, and / or lamps Model and pairing the power supply module and a model power solid-line model; edit connection relationship between each model in the selected power region; feeding port of each of the following model system model of each of the power supply area of ​​one or more abnormal values to monitor the situation and / or alarm: each link of each phase power supply port model the total output power, the three-phase current balance of each supply port of the model; can also select a paired line for each power supply module corresponding to the model entity the power supply module one or more of the following values ​​of the abnormal condition monitoring and / or alarm: the phase voltage of each phase line current, balanced three-phase voltage, the output current of each socket opening, each port output power socket.
2.根据权利要求1所述的方法,其特征在于,建立系统模型包括:创建系统模型对象,并在图形用户界面中显示系统全局视图,该视图中显示用于表示已创建的供电区域模型的图标和/或文字。 2. The method according to claim 1, wherein modeling the system comprising: an object model creation system, a display system and a global view of the graphical user interface, the display indicates that the power for the view area of ​​the model that has been created icons and / or text.
3.根据权利要求1所述的方法,其特征在于,建立供电区域模型包括:创建供电区域模型对象,并在系统模型布局中显示用于表示该供电区域模型的图标和/或文字,还在图形用户界面上显示供电区域视图。 3. The method according to claim 1, characterized in that the power supply area established model comprising: creating a model object supply region, the system model and the layout display icons used to represent the model of the power supply region and / or text, still power graphical user interface display area view.
4.根据权利要求1所述的方法,其特征在于,建立供电口模型包括:创建供电口模型对象,并在供电区域视图中显示用于表示该供电口模型的供电口图标,所述供电口模型对象包括:供电口模型对象标识、供电口模型名称、该供电口模型与其他模型一组或多组连接关系数据、各相链路总输出功率阀值、以及三相电流不平衡阀值。 4. The method according to claim 1, characterized in that, to establish the supply port model comprising: creating a supply port model objects, and displaying a view region power supply port icon representing the model power port, said supply port model object comprising: a supply port model object ID, model name supply port, the supply port connection relationship data model with other models one or more groups, with each link total output power threshold value, and phase current imbalance thresholds.
5.根据权利要求1所述的方法,其特征在于,建立供电模块模型包括:创建供电模块模型对象,并在供电区域视图中显示用于表示该供电模块模型的供电模块图标。 5. The method according to claim 1, characterized in that, to establish the power supply module model comprises: creating a power supply module model objects, and displaying a view region power supply module icon representing the power supply module model.
6.根据权利要求1所述的方法,其特征在于,所述在选定的供电区域中编辑各个模型之间的连接关系包括:在供电区域中将一供电口图标的某一输出端口与一供电模块图标的三相电输入端进行连接操作,若该两端口均未与其他模型图标的端口连接,且该供电模块图标接入该供电口图标的链路后该供电口图标的任一相链路总额定输出功率均小于其相应的链路总输出功率阀值,则连接成功;否则连接不成功。 6. The method according to claim 1, characterized in that, in the editing area of ​​the selected supply connection relationship between the respective model comprising: a power output port in the region of a supply port and an icon in three-phase power input terminal of the power supply module icon connection operation, if the two-port connected to another port model no icons, and the icon to access the power supply module according to any of the power supply port of the icon after a link with a supply port icon the total output power is less than a given link their respective link total output power threshold, the connection is successful; otherwise, the connection is unsuccessful.
7.根据权利要求1所述的方法,其特征在于,所述在选定的供电区域中编辑各个模型之间的连接关系包括:在供电区域中将一供电模块图标的三相电输出端与另一供电模块图标的三相点输出端进行连接操作,若该两端口均未与其他模型图标的端口连接,且该另一供电模块图标接入该一供电口图标所在的供电口图标链路后,该供电口图标链路的任一相链路总额定输出功率均小于其相应链路总输出功率阀值,则连接成功;否则连接不成功。 7. The method according to claim 1, wherein said editing connection relationship between each model in the selected power supply comprises a region: In a three-phase electrical output power supply modules in the icon area and triple point output terminal of the power supply module to another icon connection operation, if the two-port connected to another port model no icons, and the other power supply module icon access port of the icon link icon is located a supply port after the total amount of one of the phases of the power supply port link icon link given output power are less than the corresponding total output power link threshold, the connection is successful; otherwise, the connection is unsuccessful.
8.根据权利要求1所述的方法,其特征在于,所述在选定的供电区域中编辑各个模型之间的连接关系包括:在供电区域中将一灯具图标的单相电输入端与一电模块图标的某一灯座口进行连接操作,若该两端口均未与其他模型图标的端口连接,且该灯具的额定功率小于该灯座口的输出功率阀值,且该灯具接入该供电模块图标所属的供电口图标链路后,该供电口图标链路的任一相链路总额定输出功率均小于其相应的链路总输出功率阀值,则连接成功;否则连接不成功。 8. The method according to claim 1, characterized in that, the connection relationship between the respective model comprising editing the selected region of the power supply: a single-phase input power in a lamp in the region of the icon with a a socket outlet module icon is electrically connected to the operation, if the two-port connected to another port model no icons, and the rated power of the lamp is less than the threshold value of the output power of the socket opening, and the access to the lamp after the power supply module port link icon icon belongs to, with a total opening of the power supply link icon link any given output power are less than the corresponding total output power of the link threshold, the connection is successful; otherwise, the connection is unsuccessful.
9.根据权利要求1所述的方法,其特征在于: 供电口模型的某一相链路总输出功率异常,是指该供电口模型的该一相链路总输出功率大于或等于该供电口模型对象中设定的该相链路总输出功率阀值的情形; 供电口模型的三相电流平衡异常,是指该供电口模型的各相链路总电流中的最大值和最小值的比值大于或等于该供电模模型对象中设定的三相不平衡阀值的倍数阀值,且持续时间大于或等于设定的持续时间阀值的情形; 已配对在线供电模块模型所对应的实体供电模块的各相电压异常,是指该实体供电模块的某一相电压大于或等于该在线供电模块模型对象中所设定的该相电压最大值,以及小于或等于该在线供电模块对象中所设定的该相电压最小值的情形; 已配对在线供电模块模型所对应的实体供电模块的各相线电流异常,是指该实体供电模块的某一 9. The method according to claim 1, wherein: a power supply link relative to the total output power port model exception means that the link of the supply port with a model of the total output power is greater than or equal to the power supply port the link with the case of the total output power threshold set in the model object; model three-phase current supply port abnormal balance, refers to the maximum value of each phase of the power supply link port model and the minimum value of the total current ratio greater than or equal to the case of unbalanced three-phase power supply pattern model of the target threshold set multiple threshold and duration greater than or equal to the set threshold duration; paired power line entity model corresponding to the power supply module modules each phase voltage abnormality, which refers to a solid-phase voltage power supply module is greater than or equal to the maximum value of the phase voltage of the power supply module line set in the model object, and less than or equal to the power supply line established by the object module given the case of the minimum phase voltage; paired-line power supply module corresponding physical model of the power supply module for each phase current abnormality, means that the entity of a power supply module 线电流大于或等于该在线供电模块模型对象中所设定的该相线电流最大值,以及小于或等于该在线供电模块对象中所设定的该相线电流最小值的情形; 已配对在线供电模块模型所对应的实体供电模块的三相电压平衡异常,是指该实体供电模块各相电压中的最大值与最小值的差值大于或等于该在线供电模块模型对象中所设定的三相电压平衡阀值的情形; 已配对在线供电模块模型所对应的实体供电模块的各灯座口输出电流异常,是指该实体供电模块某一灯座口的输出电流大于或等于该在线供电模块模型对象中所设定的灯座口输出电流阀值的情形。 Line current is greater than or equal to the maximum value of the phase current supply module line model object set, the phase line current and the minimum value is less than or equal to the case where the power supply module line object set; paired power line three-phase voltage model balancing module power supply module corresponding physical abnormality, refers to the difference between the phase voltage of the power supply module entity maximum and minimum values ​​greater than or equal to the three-phase power supply module line set in the model object case where the voltage value balance valve; paired-line power supply module corresponding physical model of the power supply module for each output port socket abnormal current, the current entity is the output of a power supply socket outlet module is greater than or equal to the power supply module line model in case the object set socket port output current threshold.
10.一种专业灯光供电控制系统,其特征在于:该系统通过控制主机对基于区域功率供电的灯光供电系统进行供电管理,所述灯光供电系统包括:电源配电系统和若干个区域配电箱,该电源配电系统用于接收外部电源并分配至各个区域配电箱,每个配电箱用于为设定的一个或多个供电区域的用电设备提供电源,区域配电箱向一组或多组供电模块供电,每组供电模块包括一个或多个串联的供电模块,该区域配电箱与供电模块之间、供电模块与供电模块之间均通过多芯电缆连接,该多芯电缆至少包括A相线、B相线、C相线、零线、地线;每个区域配电箱有一个或多个供电口,每个供电口向一组或多组供电模块供电,每组供电模块包括一个或多个串联的供电模块,供电区域是由配电柜的一个或多个供电口提供电源的用灯范围; 所述供电模块为三联两用供电模块 A professional lighting power supply control system, characterized in that: the power supply management of the lighting system based on the area of ​​power supply system powered by the control panel, the light supply system comprising: a power distribution system and a number of regional distribution box the power distribution system for receiving an external power supply and distribution box assigned to the respective regions, each distribution box for supplying power to electrical power supply device according to one or more regions of the set area to a distribution box or more sets of power supply modules, each power supply module comprises one or more series power supply module, the region between the distribution box and power supply module, the power supply between the power supply module and the modules are connected by a multi-core cable, the multicore a cable comprising at least a phase, B phase, C phase, neutral and ground; each area distribution box with one or more supply ports, each port power supply to the power supply module one or more groups, each the power supply module comprises a set of one or more series power supply module, the power supply region to provide a range of lamp power distribution cabinet by one or more power ports; the power supply module is a dual power supply module terphenyl A相单联两用供电模块、B相单联两用供电模块、C相单联两用供电模块、A相单联直通供电模块、B相单联直通供电模块或C相单联直通供电模块; 所述三联两用供电模块包括:A相线、B相线、C相线、零线、地线,以及三相电输入插座、三相电输出插座、一A相灯座口、一B相灯座口、一C相灯座口、漏电保护单元、开关单元、调光器、DMX调光控制单元、切换单元、网络监测单元,所述灯座口连接至零线、地线和其中一相线,用于向插接至该灯座口的灯具提供单相电;各所述灯座口与一漏电保护单元、一开关单元、一切换单元和一调光器对应,所述切换单元的一端与相线通过一连接线缆连接,另一端与灯座口之间并联有直通线路和调光线路,所述漏电保护单元、开关单元设置在所述切换单元的该一端与相线之间的连接线缆上,所述调光器设置在该调光线路上 A dual-phase single associated power supply modules, B associated with a single dual-purpose power supply module, C associated with a single dual-purpose power supply module, A pass-through associated with a single power supply module, B associated with a single power supply module or pass-through associated through a single C-phase power supply module ; triple the dual power supply module comprises: a phase, B phase, C phase, neutral and ground, and a three-phase power input socket, an electrical three-phase output socket, a socket port a phase, a B socket opening phase, a C phase socket port, leakage protection unit, a switch unit, dimmers, the DMX dimming control unit, a switching unit, a network monitoring unit, the socket port is connected to the neutral line, ground line, and wherein a phase line for providing single-phase power to the plug socket to the lamp opening; each of said socket port and a leakage protection unit, a switching unit, a switching unit and a dimmer corresponding to the switching one end of the phase unit is connected via a connection cable, with a straight line and parallel line dimming between the other end and the socket port, the leakage protection unit, the switching unit provided at one end of the phase line of the switching unit the connecting cables between the dimmer is disposed in the light path adjusting ,所述切换单元与所述网络监测单元连接,用于根据其发出的控制信号选择直通线路或调光线路;所述DMX调光控制单元设有DMX信号输入接口和DMX信号输出接口,用于根据外部输入的DMX信号对一个或多个调光器进行控制,从而实现对连接至灯座口的调光灯具进行调光控制;所述开关单元用于根据网络监测单元的控制信号对各灯座口的供电进行远程开关控制;所述网络监测单元设有网络信号输入接口和网络信号输出接口,用于获取各相线的电压、电流、灯座口的输出电流,并将这些数据反馈给与该供电模块建立网络连接的控制主机,以及用于根据控制主机发出的控制信息向该开关单元发出接通或断开的控制信号和向该切换单元发出接通调光线路或接通直通线路的控制信号; 所述单联直通供电模块包括:A相线、B相线、C相线、零线、地线,以及三相电输 The switching unit is connected with the network monitoring unit, according to the control or dimming direct line selection signal line thereof is given; the DMX dimming control unit has an input interface and DMX signal DMX signal output interface for DMX signal externally input according to one or more dimmer control, thereby achieving port connected to the socket dimming control for dimming the lamp; the switching unit in accordance with a control signal for network monitoring unit to each lamp supply pocket for remote control switch; the network monitoring unit is provided with a network interface and a network signal input signal output interface, for obtaining voltage and current, the output current of each phase of the socket outlet line, and the data back to the control host establish a network connection with the power supply module, and a control unit for sending information to switch from the control panel in accordance with a control signal turning on or off and to turn on the switching unit sends a dimming circuit switched or direct line control signal; linked through a single power supply module comprising: a phase, B phase, C phase, neutral and ground, and a three-phase electrical output 插座、三相电输出插座、灯座口、漏电保护单元、开关单元、网络监测单元,所述灯座口连接至零线、地线和其中一相线,用于向插接至该灯座口的灯具提供单相电;灯座口与一漏电保护单元和一开关单元对应,该漏电保护单元、开关单元设置在灯座口与相线连接的线路上;所述开关单元用于根据网络监测单元的控制信号对各灯座口的供电进行远程开关控制;所述网络监测单元设有网络信号输入接口和网络信号输出接口,用于获取各相线的电压、电流、灯座口的输出电流,并将这些数据反馈给与该供电模块建立网络连接的控制主机,以及用于根据控制主机发出的控制信息向该开关单元发出接通或断开的控制信号; 所述单联两用供电模块包括:A相线、B相线、C相线、零线、地线,以及三相电输入插座、三相电输出插座、灯座口、漏电保护单元、开关 Socket, three-phase power output socket, the socket mouth, leakage protection unit, a switch unit, a network monitoring unit, the socket port is connected to the neutral line, wherein a phase line and ground, for the plug to the socket port single-phase electrical fixture; socket opening and with a leakage protection unit corresponding to a switch unit, the leakage protection unit, a switch unit disposed on a line and phase line socket connection ports; a switching unit according to the network the control signal monitoring unit remote switching control of power supply to each of the socket opening; the network monitoring unit is provided with a network interface and a network signal input signal output interface, for acquiring a voltage for each phase line current, the output port of the socket current, and the data of the power supply module to give feedback control of the host to establish a network connection, and for issuing a control signal is turned on or off according to the control information to the switching unit from the control panel; said single power supply with dual module comprises: A phase, B phase, C phase, neutral and ground, and a three-phase power input socket, an electrical three-phase output socket, the socket mouth, leakage protection unit, a switch 元、调光器、DMX调光控制单元、切换单元、网络监测单元,所述灯座口连接至零线、地线和其中一相线,用于向插接至该灯座口的灯具提供单相电;所述灯座口与一漏电保护单元、一开关单元、一切换单元和一调光器对应,所述切换单元的一端与相线通过一连接线缆连接,另一端与灯座口之间并联有直通线路和调光线路,所述漏电保护单元、开关单元设置在所述切换单元的该一端与相线之间的连接线缆上,所述调光器设置在该调光线路上,所述切换单元与所述网络监测单元连接,用于根据其发出的控制信号选择直通线路或调光线路;所述DMX调光控制单元设有DMX信号输入接口和DMX信号输出接口,用于根据外部输入的DMX信号对一个或多个调光器进行控制,从而实现对连接至灯座口的调光灯具进行调光控制;所述开关单元用于根据网络监测单元的控制 Yuan, dimmers, the DMX dimming control unit, a switching unit, a network monitoring unit, the socket port is connected to the neutral line, wherein a phase line and the ground line for supplying the plug to the lamp socket port single phase; a drain port and a socket protection unit, a switching unit and a switching unit corresponding to a dimmer, one end of the switching unit is connected by a line with a connecting cable, the other end of the socket there are parallel lines between the ports and through the dimming circuit, the leakage protection unit, a switch unit is disposed on one end of the cable between the phase line and the switching unit, the dimmer setting the dimming on the line, the switching means is connected with the network monitoring unit, according to the control for selecting a dimming direct line or signal line which is given; the DMX dimming control unit has an input interface and DMX signal DMX signal output interface, the DMX signal for an external input of one or more dimmer control, thereby achieving port connected to the socket dimming control for dimming the lamp; a switching unit for controlling a network monitoring unit 号对各灯座口的供电进行远程开关控制;所述网络监测单元设有网络信号输入接口和网络信号输出接口,用于获取各相线的电压、电流、灯座口的输出电流,并将这些数据反馈给与该供电模块建立网络连接的控制主机,以及用于根据控制主机发出的控制信息向该开关单元发出接通或断开的控制信号和向该切换单元发出接通调光线路或接通直通线路的控制信号; 上述各类所述供电模块还包括一个或多个显示单元,每个灯座口对应一个显示单元,各显示单元与供电模块中的网络监测单元连接,用于根据控制主机发出的控制指令进行开关和显示,每个显示单元可显示若干个字符,所述供电模块的设备标识用其所包含的显示单元所显示的字符按所述供电模块的三相电输入端至三相电输出端方向或相反方向依次显示内容所形成的字符串表示; 该系统包括: No. remote switching control of power supply to each of the socket opening; the network monitoring unit is provided with a network interface and a network signal input signal output interface, for obtaining voltage and current, the output current of each phase line of the socket outlet, and these data give feedback control of the power supply module to establish a host network connection, and for issuing a control signal is turned on or off according to the control information to the switching unit from the control panel and sent to the switching unit is turned on or dimming line through a signal on control line; and the various types of the power supply module further comprises one or more display units, each display unit corresponds to one socket opening, each display cell power supply modules connected to the network monitoring unit, according to control switching instruction issued by the host and the display, each display unit may display a plurality of characters, which device identifier of the power module with the display unit included therein is displayed by the three-phase power input terminal of the power supply module to a three-phase electrical output direction or in the opposite direction sequentially displayed character string represented by the contents of the formed; the system comprising: 统模型处理模型,用于选择或建立系统模型; 区域模型处理模块,选择或建立一供电区域模型,并在图形用户界面上显示相应的供电区域视图; 模型处理模块,用于在供电区域视图中建立、删除或编辑供电口模型,供电模块模型,和/或灯具模型,并配对供电模块模型和在线实体供电模型; 连接处理模块,用于在选定的供电区域中编辑各个模型之间的连接关系; 供电监测模块,用于对系统模型中各个供电区域的各个供电口模型的下述一个或多个数值的异常情况进行监控和/或报警:各个供电口模型的各相链路总输出功率、各个供电口模型的三相电流平衡;同时,该供电监测模块块还可以用于选择对各个已配对在线供电模块模型所对应的实体供电模块下述一个或多个数值的异常情况进行监控和/或报警:各相电压、各相线电流、三相电压平衡、各灯座口 Processing model system model, or modeling the system for selecting; region model processing module, select or create a supply region model, and displays the corresponding supply area view on the graphical user interface; model processing module, configured to supply the view area create, delete or edit supply port model, model power supply module, and / or lighting model, and pair-line power supply module and a model power solid model; connection processing module, for connection between each model in the selected power editing area relationship; power supply monitoring module for each power supply abnormality on the following model system model port of each power supply area of ​​one or more values ​​of monitoring and / or alarm: each link of each phase power supply port model the total output power , balanced three-phase current supply port of each model; same time, the power supply monitoring module block may also be used to select the respective supply module paired online entity model corresponding to one or more power supply modules abnormal condition monitoring values ​​below and / or alarm: the phase voltage of each phase line current, three-phase voltages balance each socket mouth 的输出电流、各灯座口的输出功率。 Output current, output power of each socket opening.
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