CN105610177A - Wireless intelligent compensation monitoring device, electric reactor, capacitor and system thereof - Google Patents

Wireless intelligent compensation monitoring device, electric reactor, capacitor and system thereof Download PDF

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Publication number
CN105610177A
CN105610177A CN201610127883.1A CN201610127883A CN105610177A CN 105610177 A CN105610177 A CN 105610177A CN 201610127883 A CN201610127883 A CN 201610127883A CN 105610177 A CN105610177 A CN 105610177A
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data
module
capacitor
control
wireless
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CN201610127883.1A
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CN105610177B (en
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吴雄飞
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宁波高新区鼎诺电气有限公司
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    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02JCIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
    • H02J13/00Circuit arrangements for providing remote indication of network conditions, e.g. an instantaneous record of the open or closed condition of each circuitbreaker in the network; Circuit arrangements for providing remote control of switching means in a power distribution network, e.g. switching in and out of current consumers by using a pulse code signal carried by the network
    • H02J13/0006Circuit arrangements for providing remote indication of network conditions, e.g. an instantaneous record of the open or closed condition of each circuitbreaker in the network; Circuit arrangements for providing remote control of switching means in a power distribution network, e.g. switching in and out of current consumers by using a pulse code signal carried by the network for single frequency AC networks
    • H02J13/0013Circuit arrangements for providing remote indication of network conditions, e.g. an instantaneous record of the open or closed condition of each circuitbreaker in the network; Circuit arrangements for providing remote control of switching means in a power distribution network, e.g. switching in and out of current consumers by using a pulse code signal carried by the network for single frequency AC networks characterised by transmission structure between the control or monitoring unit and the controlled or monitored unit
    • H02J13/0017Circuit arrangements for providing remote indication of network conditions, e.g. an instantaneous record of the open or closed condition of each circuitbreaker in the network; Circuit arrangements for providing remote control of switching means in a power distribution network, e.g. switching in and out of current consumers by using a pulse code signal carried by the network for single frequency AC networks characterised by transmission structure between the control or monitoring unit and the controlled or monitored unit with direct transmission between the control or monitoring unit and the controlled or monitored unit
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02JCIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
    • H02J3/00Circuit arrangements for ac mains or ac distribution networks
    • H02J3/18Arrangements for adjusting, eliminating or compensating reactive power in networks
    • H02J3/1807Arrangements for adjusting, eliminating or compensating reactive power in networks using series compensators
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E40/00Technologies for an efficient electrical power generation, transmission or distribution
    • Y02E40/30Reactive power compensation
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E40/00Technologies for an efficient electrical power generation, transmission or distribution
    • Y02E40/70Systems integrating technologies related to power network operation and communication or information technologies for improving the carbon footprint of electrical power generation, transmission or distribution, i.e. smart grids as climate change mitigation technology in the energy generation sector
    • Y02E40/74Systems characterised by the monitoring, control or operation of flexible AC transmission systems [FACTS] or power factor or reactive power compensating or correcting units
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E60/00Enabling technologies or technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02E60/70Systems integrating technologies related to power network operation and communication or information technologies mediating in the improvement of the carbon footprint of electrical power generation, transmission or distribution, i.e. smart grids as enabling technology in the energy generation sector
    • Y02E60/78Communication technology specific aspects
    • Y02E60/7807Communication technology specific aspects characterised by data transport means between the monitoring, controlling or managing units and monitored, controlled or operated electrical equipment
    • Y02E60/7853Communication technology specific aspects characterised by data transport means between the monitoring, controlling or managing units and monitored, controlled or operated electrical equipment using wireless data transmission
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y04INFORMATION OR COMMUNICATION TECHNOLOGIES HAVING AN IMPACT ON OTHER TECHNOLOGY AREAS
    • Y04SSYSTEMS INTEGRATING TECHNOLOGIES RELATED TO POWER NETWORK OPERATION, COMMUNICATION OR INFORMATION TECHNOLOGIES FOR IMPROVING THE ELECTRICAL POWER GENERATION, TRANSMISSION, DISTRIBUTION, MANAGEMENT OR USAGE, i.e. SMART GRIDS
    • Y04S10/00Systems supporting electrical power generation, transmission or distribution
    • Y04S10/10Systems characterised by the monitored, controlled or operated power network elements or equipment
    • Y04S10/22Systems characterised by the monitored, controlled or operated power network elements or equipment the element or elements being flexible AC transmission systems [FACTS] or power factor or reactive power compensating or correcting units
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y04INFORMATION OR COMMUNICATION TECHNOLOGIES HAVING AN IMPACT ON OTHER TECHNOLOGY AREAS
    • Y04SSYSTEMS INTEGRATING TECHNOLOGIES RELATED TO POWER NETWORK OPERATION, COMMUNICATION OR INFORMATION TECHNOLOGIES FOR IMPROVING THE ELECTRICAL POWER GENERATION, TRANSMISSION, DISTRIBUTION, MANAGEMENT OR USAGE, i.e. SMART GRIDS
    • Y04S40/00Systems for electrical power generation, transmission, distribution or end-user application management characterised by the use of communication or information technologies, or communication or information technology specific aspects supporting them
    • Y04S40/10Systems for electrical power generation, transmission, distribution or end-user application management characterised by the use of communication or information technologies, or communication or information technology specific aspects supporting them characterised by communication technology
    • Y04S40/12Systems for electrical power generation, transmission, distribution or end-user application management characterised by the use of communication or information technologies, or communication or information technology specific aspects supporting them characterised by communication technology characterised by data transport means between the monitoring, controlling or managing units and monitored, controlled or operated electrical equipment
    • Y04S40/126Using wireless data transmission

Abstract

The invention discloses a wireless intelligent compensation monitoring system. The wireless intelligent compensation monitoring system solves the problem that on-site inspection is large in workload and low in efficiency. The wireless intelligent compensation monitoring system is characterized by comprising a control terminal coupled to a wireless communication module so as to realize wireless communication with a capacitor or an electric reactor and a storage database for storing data received by the control terminal and controlling data output by the control terminal; the control terminal is used for sending adjustment data to a control module through the wireless communication module and storing the adjustment data to the storage database, and the control module is used for responding the adjustment data so as to adjust the capacitor or the electric reactor. The wireless intelligent compensation monitoring system disclosed by the invention realizes a remote wireless monitoring function, and can also remotely adjust the capacitor or the electric reactor at the same time, so that the problems of great workload and low efficiency caused by the requirement of on-site inspection for technical staff are avoided.

Description

一种无线智能补偿监控装置、电抗器、电容器及其系统 A radio intelligent compensation monitoring device, a reactor, a capacitor and a system

技术领域 FIELD

[0001]本发明涉及配电网电压补偿的领域,特别涉及无线智能补偿监控装置。 [0001] The present invention relates to the field of the compensation voltage distribution network, and more particularly to compensating radio intelligent monitoring device.

背景技术 Background technique

[0002]针对某些配电网负荷电压水平不满足要求和电压波动较大的问题。 [0002] For certain load distribution network voltage level and voltage fluctuations does not meet the requirements of the problem. 提出基于串联电容补偿的配电网负荷电压调节与稳定方法通过在配电线路上串入可调电容。 It is proposed based on the load voltage regulation and stabilization of power distribution networks via series capacitor compensation on the power distribution line in series an adjustable capacitor. 根据电容电压损耗与线路原电感电压损耗极性相反的特征。 The capacitive voltage loss and loss of the line voltage polarity opposite to the original inductance characteristic. 在负荷波动的情况下利用电容电压抵偿线路电感电压即可调节和稳定负荷侧电压。 To regulate and stabilize the load-side capacitor voltage compensation voltage using voltage line inductance in the case of load fluctuations. 通过实时采样负荷功率,计算补偿电路的晶闸管触发角,调节电容补偿量以稳定负荷侧电压。 Power load by real-time sampling, calculating thyristor firing angle compensation circuit, adjusting the capacitance of the compensation amount to stabilize the load voltage side. 从而实现配电网负荷电压水平不满足要求与电压拨动较大的问题。 Thereby achieving load distribution grid voltage level does not meet the requirements of the voltage toggle major problem.

[0003]但是在实际操作过程中,每个大楼中具有多个配电室以及配电柜,而对应的需要技术人员进行逐个的巡检并以对应的情况进行调节,若由非专业人员进行调节则会造成危险,无法进行应对突发状态,所以整个调试的过程需要专业人员进行,同时每天需要进行多次巡检给技术人员带来了很大的工作量,且同时需要多组技术人员进行以在短时间内完成整装大楼的巡检,整个过程的成本很高且效率低下。 [0003] However, in actual operation, each building having a plurality of chambers and a distribution cabinet distribution, and the corresponding need for inspection one by one in the art and adjusted to correspond to a case, if the non-professional by adjustment will result in danger, we can not deal with unexpected state, so the whole commissioning process requires professionals, and the need for multiple inspection technician brings a lot of work every day, and requires multiple sets of technical staff at the same time be ready to complete the inspection of the building in a short time, the whole process is costly and inefficient.

发明内容 SUMMARY

[0004]本发明的第一目的在于是提供一种无线智能补偿监控装置,能直接对电容器、电抗器进行监控并通过无线通讯将监控的数据进行传输; [0004] The first object of the present invention to provide a wireless monitoring device in intelligent compensation Thus, the capacitor energy, the reactor is monitored directly via wireless communication and data transmission of the monitoring;

第二目的在于提供一种电抗器,能实现无线监控; The second object is to provide a reactor capable of wireless monitoring;

第三目的在于提供一种电容器,能实现无线监控; The third object is to provide a capacitor capable of wireless monitoring;

第四目的在于提供一种无线智能补偿监控系统,能对电容器、电抗器进行监控的同时,并通过远程的控制以对不同的情况进行调节; The fourth object is to provide a wireless intelligent compensation monitoring system capable of simultaneously monitoring the capacitor, the reactor, and to adjust to different situations by remote control;

第五目的在于提供一种无线智能自动补偿方法,能与之前类似的问题进行自动补偿,而无法技术人员插手。 The fifth object is to provide a wireless intelligent automatic compensation, it can be automatically compensated with a similar problem before, but not technical personnel to intervene.

[0005]本发明的上述技术目的是通过以下技术方案得以实现的: [0005] The technical object of the present invention is achieved by the following technical solution:

一种无线智能补偿监控装置,包括用于检测供电设备的电压、电流并输出检测数据的检测模块、耦接于检测模块并接收检测数据的控制模块与耦接于控制模块并响应于控制模块以将检测数据进行无线传输的无线通讯模块。 A radio intelligent monitoring compensating means comprises means for detecting a voltage of the power supply apparatus, and outputs current detection data detecting module, coupled to the detecting module and the receiving control module is coupled with the detection data to the control module connected to and responsive to the control module the detected data for wireless transmission of the wireless communication module.

[0006]采用上述方案,检测模块能对电容器或电抗器进行电压、电流等参数的检测,控制模块将对应的检测到的数据通过无线通讯模块进行传输,使得只需要将该监控装置安装电容器与电抗器,即可以实现无线监控的功能,通过无线通讯模块能将对应的数据传输至对应的终端,便于后期数据的分析等,避免需要技术人员逐个去巡查而造成工作量大、效率低下的问题。 [0006] With the above embodiment, the detection module capable of detecting parameters of the voltage and current of the capacitor or reactor, the control module detects the data corresponding to the transmission through the wireless communication module, such that only the required monitoring device is mounted capacitor reactor, i.e., wireless monitoring function can be achieved by a corresponding wireless communication module can transmit data to a corresponding terminal, facilitating post analysis data, etc., one by one in the art to avoid the need for inspections and cause heavy workload, low efficiency problems .

[0007]作为优选,还包括耦接于控制模块并获取对应权限的验证模块以及存储有验证信息数据的验证数据库,所述验证模块包括一唯一特征信息,所述控制模块调用验证数据库的库内数据与该唯一特征信息比对,若比对成功则控制模块允许对电容器或电抗器的参数进行调节。 [0007] Advantageously, further comprising a control module coupled to the verification authority and acquires the corresponding modules and a verification database authentication information data, said authentication module comprising a unique feature information of the verification database control module invokes the interior data with the unique feature information comparison, if the comparison is successful, the control module allows the capacitor or reactor parameter is adjusted.

[0008]采用上述方案,使得要获取所检测的数据需要进行验证,只有在验证的权限内才能进行查看等操作,且不同的唯一特征信息对应的权限不同,一些只能进行查看操作,而只有部分专业的技术人员才能进行修改等操作,实现多重权限管理,避免非技术人员随意修改参数而造成危险,同时也避免所有人都能看到对应的数据而造成隐私的泄漏。 [0008] In the above embodiment, so that to obtain the detected data needs to be verified, other operations can only be viewed in the authentication authority, and different characteristics unique information corresponding to the different permissions, only some of the viewing operation, and only part of the professional and technical personnel and other operations can be modified to achieve multi-rights management, to avoid non-technical staff free to modify the parameters danger, but also to avoid everyone can see the corresponding data privacy caused by the leak.

[0009] —种电抗器,包括权利要求1至2所述的无线智能补偿监控装置。 [0009] - seed reactor, including the claims compensating wireless intelligent monitoring device of claim 1-2.

[0010]采用上述方案,更加便于进行监控,能有效的降低技术人员实地巡检所带来的大工作量,同时也能提高工作效率。 [0010] With the above scheme, easier to monitor, can effectively reduce the large amount of work-site inspection technician brings, but also can improve work efficiency.

[0011] —种电容器,包括权利要求1至2所述的无线智能补偿监控装置。 [0011] - species capacitor comprising compensating wireless intelligent monitoring device according to claims 1-2.

[0012]采用上述方案,更加便于进行监控,能有效的降低技术人员实地巡检所带来的大工作量,同时也能提高工作效率。 [0012] With the above scheme, easier to monitor, can effectively reduce the large amount of work-site inspection technician brings, but also can improve work efficiency.

[0013] —种无线智能补偿监控系统,包括若干具有如权利要求1至2所述的无线智能补偿监控装置的电抗器与若干具有如权利要求1至2所述的无线智能补偿监控装置的电容器,还包括耦接于无线通讯模块以实现与电容器或电抗器无线通讯的控制终端与用于存储控制终端接收到的数据以及控制终端所输出的数据的存储数据库; [0013] - Wireless Intelligent Species compensation monitoring system, comprising a plurality of said wireless smart 1-2 reactor compensating capacitor with several monitoring devices having wireless smart compensating monitoring device according to claim 1 or 2 as claimed in claim having further comprising a wireless communication module coupled to implement a control terminal of the capacitor or reactor wireless communication and for storing control data received by the terminal and a control terminal database storing the output data;

所述控制终端通过无线通讯模块以将调节数据发送至控制模块并将调节数据存储至存储数据库,所述控制模块响应于调节数据以对电容器或电抗器进行调节。 The control terminal transmitted via the wireless communication module to adjust the data to the control module and stores adjustment data stored in the database, the control module in response to the adjustment data for adjustment of the capacitor or reactor.

[0014]采用上述方案,将多个具有无线智能补偿监控装置的电容器与电抗器均通过无线通讯的方式连接至控制终端,从而实现构架一个系统,无线智能补偿监控装置能将对应的电抗器或电容器的检测数据传输至控制终端,而技术人员只需要在控制终端上查看所接收到的检测数据即可,而无需进行实地巡查,大大提高工作效率,同时降低工作量,同时通过控制终端能对无线只能补偿监控装置进行发送修改后的调节数据,通过对应的控制模块以对电抗器或电容器进行调节,实现远程调节,能更快的完成适应性调节的功能,避免在等待技术人员进行实地处理的过程中造成更加的危害,使得处理效率更高,能及时完成补偿调节的功能。 [0014] With the above embodiment, a plurality of a radio intelligent compensating monitoring device capacitor and the reactor are the wireless communication is connected to the control terminal, thereby achieving the framework of a system, wireless smart compensating monitoring device capable of corresponding to the reactor or detecting a data transmission to the control terminal of the capacitor, and the skilled person need only view the received detection data to the control terminal, without the need for site inspections, greatly improving work efficiency, while reducing the workload, while the control terminal is capable of wireless monitoring device can be adjusted compensation data transmitted modified to adjust to the reactor or the capacitor by a corresponding control module, remote adjustment, faster completion of accommodation function, to avoid waiting in the art field during processing cause more harm, making the process more efficient, can be completed timely compensation adjustment function.

[0015]作为优选,还包括管理平台,所述使用者通过管理平台以获取对应权限,并在该用户权限内以对存储数据库内的调节数据进行调节、查询与调用。 [0015] Advantageously, further comprising a management platform, the management platform by the user to obtain a corresponding permissions, and to adjust the data stored within the database is adjusted in the user right, and calls the query.

[0016]采用上述方案,方便数据的获取、显示以及便于进行权限的获取,使得操作更加方便,且更加容易管理。 [0016] With the above embodiment, to facilitate data acquisition, display and facilitate rights acquisition, making the operation more convenient and easier to manage.

[0017]作为优选,所述控制终端包括客户端与维护端;所述客户端与维护端均通过管理平台以获取相应的权限;所述客户端通过与之对应的唯一特征信息以获取查询的权限,所述维护端通过与之对应的唯一特征信息以获取查询、调用与调节的权限。 [0017] Advantageously, the control and maintenance terminal comprises a client terminal; and the client terminal are maintained by the management platform to obtain the appropriate authority; by the client characteristic information corresponding only to obtain the query permission, the query to obtain the maintenance end information, and adjusted by invoking permission unique feature corresponding thereto.

[0018]采用上述方案,不同的控制终端对应不同的权限,客户端仅仅只能进行信息的查询,适用于使用者了解大厦或家里的供电具体情况,同时维护端能对信息进行查询、调用、修改等,方便相关的技术人员能实时监控数据的变化,同时也便于技术人员能及时的进行调整修改,避免长时间无人处理而造成危害的情况出现。 [0018] With the above scheme, different control terminals corresponding to the different permissions, the client can query the information only for the user to understand the specific circumstances of the supply of a building or home, while maintaining end can query the information, call modification, etc., related technical personnel can easily monitor real-time changes in data, but also for technical staff to adapt and modify the timely treatment and avoid prolonged no case harm occurs.

[0019]作为优选,所述控制终端包括一基准值数据M与偏差值数据N,将控制终端通过无线通讯模块所接收到检测数据与基准值数据M比对;若检测数据在M±N范围内,则控制终端调取存储数据库内的调节数据以对电容器或电抗器进行自动调节;反之,则控制终端将检测数据反馈至技术人员。 [0019] Advantageously, the control terminal comprises a reference value and the deviation value data of the M data N, the control terminal receiving the detected data with the reference data values ​​M are aligned by the wireless communication module; if the detected data in the range of M ± N inside, the control terminal regulation retrieved data in the storage database for automatic adjustment of the capacitor or reactor; otherwise, the control terminal detection data is fed back to the art.

[0020]采用上述方案,具有两种模式,其中一个模块就是手动调整模式,即当检测数据不再M±N范围内时,则将检测数据反馈到维护端处,让技术人员进行处理,做出应对的调整,并将该调整的数据发送至对应的控制模块以对电容器或电抗器进行调节,同时将调节数据存储至存储数据库,便于后期的调用,另一个模式,就是实现自动调节的功能,即当检测数据再M±N范围内时,控制终端直接根据对应M的调节数据进行调节,实现自动补偿调节的功會K。 [0020] With the above embodiment, having two modes, wherein the module is a manual adjustment mode, i.e. when the data is no longer detected within M ± N range, the detected data is fed to the maintenance end, so art processes, do adjust the response, and the adjusted data to the corresponding control module for adjusting the capacitor or reactor, while the adjustment data stored in the database storage, easy recall later, the other mode, the function is automatically adjusted , i.e., when the detection data M ± N range again, the control terminal is directly adjusted according to the adjustment data corresponding to M, the automatic compensation adjustment will work K.

[0021]作为优选,所述检测模块还包括用于检测电容器、电抗器的温度并将温度信号依次传输给控制模块、控制终端的温度检测单元,所述控制终端包括一温度基准值信号,当温度信号大于温度基准值信号时,则控制终端通过无线通讯模块以控制控制模块断开对应的电容器或电抗器。 [0021] Advantageously, the detection module further comprises a temperature detecting capacitor, the reactor and the temperature signals are sequentially transmitted to the control module controls the temperature detecting unit of the terminal, said control terminal comprises a temperature reference value signal, when when the temperature signal is greater than the temperature reference value signals, the control module controls the terminal to disconnect the corresponding capacitor or reactor through the wireless communication module.

[0022]采用上述方案,实现温度保护的功能,当其中某个电容器或电抗器温度过高时,能通过控制终端发送切断信号至对应温度过高的电容器或电抗器将其切断,避免造成损害,提供温度保护的功能。 [0022] The above-described embodiment, to realize the protection function of temperature, wherein when a capacitor or reactor temperature is too high, by controlling the cutoff signal to the corresponding terminal transmits a capacitor or high temperature reactors it is cut, to avoid damage to to provide temperature protection.

[0023] —种无线智能自动补偿方法,包括以下步骤: [0023] - Wireless Intelligent automatic compensation of species, comprising the steps of:

51、所述控制终端通过无线通讯模块接收检测模块所检测到的检测数据; 51, the terminal control module receives the detection data detected by the wireless communication module;

52、所述检测数据与基准值数据M进行比对;若检测数据不在M±N范围内,则将检测数据反馈至维护端,并执行步骤S3;反之,执行步骤S4; 52, the detection data with reference data values ​​for comparison M; M if the data is not detected within ± N range, the detected data is fed to the maintenance terminal, and performs step S3; otherwise, go to step S4;

53、所述控制终端将检测数据存储至存储数据库以作为基准值数据M,且将与之对应的调节数据通过无线通讯模块传输至控制模块以对电容器或电抗器进行调节,并将该调节数据存储至存储数据库以供控制终端调用,返回步骤SI; 53, the control terminal stores the detection data stored in the database as a reference value data and M, and the corresponding adjustment data transmitted via the wireless communication module to the control module for adjusting the capacitor or reactor, and the adjustment data the database stored in the storage for control terminal call, the step returns the SI;

54、所述控制终端调用存储数据库中与基准值数据M对应的调节数据,并通过无线通讯模块传输至控制模块以对电容器或电抗器进行自动调节。 54, the terminal call control data stored in a database reference values ​​M corresponding to the adjustment data, and transmitted to the control module for automatic adjustment of the capacitor or reactor through the wireless communication module.

[0024]综上所述,本发明具有以下有益效果: [0024] In summary, the present invention has the following advantages:

1、实现远程无线监控的功能,同时还能对电容器、电抗器进行远程调节,避免需要技术人员进行实地巡检而带来工作量大、效率低下的问题; 1, functional wireless remote monitoring, while the capacitors, reactors for remote adjustment, avoiding the need for technical staff to conduct field inspection brought heavy workload, low efficiency problem;

2、对于变化量不大的情况进行自动调节,实现自动化,提高工作效率。 2, for little change in the amount of cases to automatically adjust, automate, improve work efficiency.

附图说明 BRIEF DESCRIPTION

[0025]图1为实施例一的模块不意图; [0025] FIG. 1 is a module of the embodiment are not intended to Example;

图2为实施例四的模块示意图; Figure 2 is a schematic view of the module according to a fourth embodiment;

图3为实施例四的系统构架图; FIG. 3 is a system architecture diagram according to a fourth embodiment;

图4为串联电容补偿电路的电路原理图; FIG 4 is a series capacitance circuit diagram of a compensation circuit;

图5为等效电抗的不意图; 5 is not intended to be equivalent reactance;

图6为电压损耗的向量图。 FIG 6 is a vector diagram of a voltage loss.

具体实施方式 Detailed ways

[0026]以下结合附图对本发明作进一步详细说明。 [0026] conjunction with the drawings of the present invention will be further described in detail.

[0027]本具体实施例仅仅是对本发明的解释,其并不是对本发明的限制,本领域技术人员在阅读完本说明书后可以根据需要对本实施例做出没有创造性贡献的修改,但只要在本发明的权利要求范围内都受到专利法的保护。 [0027] The present embodiment is only illustrative of the present invention, and are not restrictive of the invention, those skilled in the art upon reading this specification modifications may be made without inventive contribution of the present embodiment as needed, as long as in the present within the scope of the claims of the invention are protected by patent law.

[0028]电容补偿时电容和负载是并联连接的,当负载增大时,由于电源存在内阻,电源输出电压就会下降,所以需要通过对电源两端的电压、电流等参数进行检测,以便于监控供电设备的供电情况,根据具体的情况对配电系统进行调节。 [0028] When the compensation capacitor and load capacitor are connected in parallel when the load increases, due to the internal resistance of the power supply output voltage will drop, it is necessary to be detected by the voltage across the power, current and other parameters, in order to power supply situation monitoring apparatus, is adjusted depending on the circumstances of the power distribution system. 电容器并联补偿是目前配电系统中较为传统的一种调压方式,通过在负荷侧进行无功负荷补偿,来减少配电线路上流过的无功功率,但是在负荷波动较大时常造成负荷侧电压严重越限,且运行操作麻烦,具有较大的弊端。 Compensation capacitors in parallel more traditional way a current distribution system voltage regulation, reactive power load carried by the load-side compensation, to reduce the reactive power flowing through the distribution line, but often results in fluctuations in the load side of the load the more serious the voltage limit, and run the operation is troublesome, with great disadvantages. 而串联电容补偿,通过在配电线路中串入电容,补偿配电线路中的电抗来减少在配电线路阻抗上的电压损耗,其具有较强的动态调压能力。 And series capacitor compensation to reduce voltage loss on the power distribution line by the impedance in series with the capacitance distribution lines, distribution lines compensating reactance, which has a strong dynamic surge capacity. 电容串联补偿提高了输电网的传输功率极限,对提高静态稳定性具有较为明显的作用。 Compensation capacitor in series to improve the transmission power limit of the transmission network, having a more significant effect on improving the static stability. 然而,串联电容补偿在配电系统中的应用目前还研究甚少,通过研究分析可知,串联电容补偿具有较好的电压动态调节性能。 However, the application of series capacitor compensation in a power distribution system is still little studied, it is found, the series capacitor compensation voltage having a good performance by dynamically adjusting Analysis. 可以在配电系统的电压调节中发挥重要的作用。 It can play an important role in the power distribution system voltage regulation.

[0029]其中有一种补偿方式为采用闸管控制的串联电容补偿,如图4所示,可以将一电容与电感并联后,通过控制晶闸管的导通角来获得一等效电抗。 [0029] the latter of which compensation as shown, may be connected in parallel to a capacitor in series with the inductor thyristor controlled capacitor compensation, FIG. 4, to obtain an equivalent reactance controlled by the thyristor conduction angle. 改变触发角(α角)将改变电感支路的电流,即等效地改变了电感支路感抗的大小,其变化范围从Xl(α=90°,晶闸管全导通)到无穷大(α=180°,晶闸管全关断)。 Changing the trigger angle (angle [alpha]) to change the inductance of the current branch, i.e. to change the size of the inductor equivalently inductive branch, which range from Xl (α = 90 °, all-thyristor) to infinity (α = 180 °, the whole thyristor is turned off). 因此,电感支路与电容支路并联后,整个电路的等值电抗的性质与大小都可通过控制晶闸管触发角α进行调整。 Thus, the inductance and the capacitance branch connected in parallel branches, the nature and size of the equivalent reactance of the entire circuit can be controlled by adjusting the thyristor firing angle α. 当α角控制的等效感抗值小于电容的容抗值时,整个电路呈现感性,反之,整个电路呈现容性。 When the equivalent inductance value of the control angle α is smaller than the capacitance value of the capacitance, the entire appear inductive, and vice versa, the entire circuit becomes capacitive. 且经分析,整个电路的等值电抗可用公式计算,其公式为:Xeq=l/( uC)-A/(>coC)*[2(>-a)+sin2(>-a)]+4Acos2(>-a)x*[ktan(kir-ka)-tan(π-α) ]/jt ω C(k2_l)。 And analyzed, the equivalent reactance of the entire circuit is available formula, the formula is: Xeq = l / (uC) -A / (> coC) * [2 (> - a) + sin2 (> - a)] + 4Acos2 (> -a) x * [ktan (kir-ka) -tan (π-α)] / jt ω C (k2_l). 其中,A=k2/( k2_l),k= ω。 Wherein, A = k2 / (k2_l), k = ω. / ω,ω 0=1/(LC)1/2。 / Ω, ω 0 = 1 / (LC) 1/2. 触发角α与Xeq的关系曲线如图5所示,其中比为正表示整个电路呈容性,反之呈感性。 Versus firing angle α and Xeq shown in Figure 5, where n represents the ratio of the entire circuit is capacitive, and vice versa is inductive.

[0030]触发角仅的实时定位,通过对图4配电线路的电压损耗进行分析,假设负荷功率因数角为θ(>0,感性),补偿电容后线路阻抗仍呈感性,则以负荷电流Il为参考相量,可得到电压损耗相量图如图6所示。 [0030] The real-time positioning only the firing angle, and analyzed by the loss of voltage distribution line in FIG. 4, assume that the load power factor angle θ (> 0, inductive), still on the line impedance inductive compensation capacitor, places a load current Il reference phasor, voltage loss can be obtained phasor diagram shown in Fig. 用欲实现的末端电压恒定值U2b替换UL,并把电压损耗纵向分量ΛU与横向分量δυ的计算公式代入三角关系,即可得到电容的实时补偿量计算公式如下: The terminal voltage to be achieved with a constant value U2b Alternatively UL, the voltage loss and a longitudinal component and the lateral component of the formula ΛU δυ substitution triangle, compensation can be obtained in real time in capacitance is calculated as follows:

Xc= [ (S-L2XL+QLU2b2)-(S-L2UA2U2b2-S-L4R2-2S-L2PLRU2b2-PL2U2b4)l7Vs-L2];其中,Pl、Ql、Sl分别为负荷的有功功率、无功功率和视在功率。 Xc = [(S-L2XL + QLU2b2) - (S-L2UA2U2b2-S-L4R2-2S-L2PLRU2b2-PL2U2b4) l7Vs-L2]; wherein, Pl, Ql, Sl, respectively load active power, reactive power and apparent power. 把Xe代入公式中的Xeq可计算出触发角α的实时值。 Xe substituted into the formula Xeq calculated firing angle α of the real-time value. 将计算出的α实时值对晶闸管进行控制,即可使末端电压在变动负荷下仍然稳定在末端电压恒定值U2b上。 The calculated value of α the thyristors is controlled in real time, so that the terminal voltage under load to remain stable at the terminal voltage changes at a constant value U2b.

[0031]实施例一,公开的一种无线智能补偿监控装置,包括用于检测供电设备的电压、电流并输出检测数据的检测模块、耦接于检测模块并接收检测数据的控制模块与耦接于控制模块并响应于控制模块以将检测数据进行无线传输的无线通讯模块。 The control module [0031] First, a radio intelligent compensation disclosed embodiment embodiment monitoring device, comprising means for detecting a voltage of the power supply apparatus, and outputs current detection data detecting module, coupled to the detecting module detects and receives data to and coupled the control module and the control module in response to the detected data for wireless transmission of the wireless communication module.

[0032] 检测模块包括电压互感器与电流互感器,通过电压互感器以对供电设备检测其输出的电压值,同时通过电流互感器检测对供电设备所输出的电流值进行检测,即为一次PT,一次CT,实现对电压、电流值的检测,并将检测到的电压值与电流值反馈到控制模块,控制模块将该数值通过无线通讯模块进行无线传输。 [0032] The detection module comprises a voltage transformer and a current transformer to detect the output voltage value of the power supply apparatus, while the current detected by the current transformer on the output value of the power supply apparatus is detected by a voltage transformer, that is, a PT , a CT, to achieve the detection voltage, current value, and feeds the detected voltage value and the current value to the control module, the control module via the wireless transmission values ​​wireless communication module. 该监测的方式有控制模块进行控制,可以是间隔检测,优选间隔一个小时检测一次,也可以是实行实时检测的方式。 A control mode of the monitoring control module, the interval may be detected, the detection time is preferably one hour interval, the implementation may be detected in real time fashion.

[0033]控制模块可以优选采用单片机等。 [0033] The control module SCM may be preferably employed. 单片机的体积小且成本低廉,所以优选采用单片机,而无线通讯模块可以采用目前所常用的无线通讯方式。 Microcontroller small and inexpensive, it is preferable to use single-chip, and the wireless communication module may use a wireless communication currently commonly used. 数据传输可以简单地分为有线(包括架设光缆、电缆或租用电信专线)和无线(分为建立专用无线数据传输系统(433MHZ频段和2.4G频段)或借用⑶H)、GSMXDMA等公用网信息平台)两大类方式。 Data transmission may be simply divided into a wired (including erecting cable, telecommunications cables or leased line) and a wireless (divided to establish a dedicated wireless data transmission system (433MHZ frequency bands and 2.4G) or borrowing ⑶H), GSMXDMA information public network such as internet) two types of ways. 本实施方式优选采用无线数据终端DTD433,用户首先关心的是传输距离问题,距离其实不是问题。 This preferred embodiment uses a wireless data terminal DTD433, the user first concern is the problem of transmission distance, the distance is actually not a problem. 近则采用433MHz频段无线数据终端DTD433,远则选用GPRS透明传输数据终端DTP_S09F。 Near the 433MHz frequency band using the wireless data terminal DTD433, the selected far GPRS transparent data transmission terminal DTP_S09F. 所谓“近”,指3公里以内可以覆盖大多数地方;所谓“远”,是指通讯距离超过3公里,甚至跨越不同地域以及不同国家,中国移动网络已经覆盖了全球,所以距离不是问题。 The so-called "near" means within 3 kilometers can be covered in most places; the so-called "far" refers to communications from more than three kilometers, even across different regions and different countries, Chinese mobile network has covered the world, so the distance is not a problem. DTP_S09F与DTD433远近结合可以满足绝大部分无线测控的要求。 DTP_S09F combination of distance and DTD433 meet the requirements of the vast majority of wireless monitoring and control. 同时无线通讯模块还可以采用其他的无线通讯方式,例如zigbee模块、蓝牙模块等等常用的通讯方式。 At the same time wireless communication module may also employ other wireless communications, such as zigbee module, Bluetooth module, etc. commonly used means of communication.

[0034]无线智能补偿监控装置还包括耦接于控制模块并获取对应权限的验证模块以及存储有验证信息数据的验证数据库,验证模块包括一唯一特征信息,控制模块调用验证数据库的库内数据与该唯一特征信息比对,若比对成功则控制模块允许对电容器或电抗器的参数进行调节。 [0034] Wireless Intelligent monitoring device further comprises a compensator coupled to the control module, and obtains the corresponding permission verification module stores authentication database and information data, the verification module comprising a unique feature information, the control module invokes a data library database to verify the the unique feature information comparison, if the comparison is successful, the control module allows the capacitor or reactor parameter is adjusted. 验证数据库优选由SQL server数据库搭建,同是也可以由其他的数据库搭建,整个系统基于LabVIWEW平台搭建,同时也可以采用其他平台搭建。 Preferably the authentication database SQL server database structures, the same may be built from the other database, based on the entire system LabVIWEW platform structures, but also can use other platform structures. 唯一特征信息的获取可以采用指纹识别装置、虹膜识别装置、卡片识别装置、密码识别装置等,以上装置可以单独使用,也可以多个相互组合使用,通过以上装置获取到对应的唯一特征信息后,并将该唯一特征信息以传输至控制模块,控制模块将进行比对,若比对正确,则控制模块则授权给使用者进行数据、参数的调节等方法。 After obtaining characteristic information unique fingerprint recognition device may be employed, iris recognition device, a card identification device, the password recognition device, the above apparatus may be used alone, or a plurality of combination with one another, information corresponding to the acquired unique feature of the above means, this unique feature information and transmitted to the control module, control module for comparison, if the comparison is correct, the control module is authorized for data to the user, adjusting parameters or the like. 本发明优选使用卡片识别装置或密码识别装置,卡片识别装置采用RFID电子标签,每个工作人员均具有一个与之相对应的RFID电子标签,且该RFID电子标签具有唯一标签信息,以便于读写器进行读取,RFID类似于条码扫描,对于条码技术而言,它是将已编码的条形码附着于目标物并使用专用的扫描读写器利用光信号将信息由条形磁传送到扫描读写器;而RFID则使用专用的RFID读写器及专门的可附着于目标物的RFID标签,利用频率信号将信息由RFID标签传送至RFID读写器,读写器具有RS232、RS485或TCP/IP网络接口等,以便与控制终端进行连接,进行数据交换,在读写器在接收到信息后,控制模块调用在验证数据库中数据进行验证,以上电子标签模块也可以是二维码与条形码等,通过相对应的设备进行读取信息。 Preferably the present invention using a card or password identification device identifying means, identifying means employ RFID card tag, each staff member has a corresponding thereto RFID tag, and the RFID tag having a unique tag information so that read and write is read, similar to the RFID barcode scanning, for bar code technology, which is the encoded bar code attached to the object and using a dedicated reader using an optical scan signal from the transmitted information to the magnetic stripe reader scans ; a RFID using the dedicated RFID reader and special RFID tag may be attached to the object, the information transmitted by the RFID tag to the RFID reader using a frequency signal, having a reader RS232, RS485 or TCP / IP network interface, and a control terminal is connected for data exchange, the reader after receiving the information, the control module invokes the authentication data in the database to verify the above electronic tag module may be two-dimensional code and bar codes, reading information corresponding to the device. 通过设置验证模块使得要获取所检测的数据需要进行验证,只有在验证的权限内才能进行查看等操作,且不同的唯一特征信息对应的权限不同,一些只能进行查看操作,而只有部分专业的技术人员才能进行修改等操作,实现多重权限管理,避免非技术人员随意修改参数而造成危险,同时也避免所有人都能看到对应的数据而造成隐私的泄漏。 By providing such authentication module acquires the data to be detected needs to be verified, only the permission verification will be visible to other operations, and various different authority information corresponding to the unique feature that some operations can only view, but only the part of the professional technicians are authorized to make changes and other operations, to achieve multi-rights management, to avoid non-technical staff free to modify the parameters danger, but also to avoid everyone can see the corresponding data privacy caused by the leak.

[0035]实施例二,公开的一种电抗器,包括权利要求1至2的无线智能补偿监控装置。 [0035] In the second embodiment, a reactor is disclosed, comprising a compensating wireless intelligent monitoring device as claimed in claim 1 or 2. 更加便于进行监控,能有效的降低技术人员实地巡检所带来的大工作量,同时也能提高工作效率。 Easier to monitor, can effectively reduce the large amount of work-site inspection technician brings, but also can improve work efficiency.

[0036]实施例三,公开的一种电容器,包括权利要求1至2的无线智能补偿监控装置。 [0036] Embodiment 3 A capacitor disclosed monitoring device comprises a wireless intelligent compensation claims 1-2. 更加便于进行监控,能有效的降低技术人员实地巡检所带来的大工作量,同时也能提高工作效率。 Easier to monitor, can effectively reduce the large amount of work-site inspection technician brings, but also can improve work efficiency.

[0037]实施例四,公开的一种无线智能补偿监控系统,包括若干具有无线智能补偿监控装置的电抗器与若干具有无线智能补偿监控装置的电容器,还包括耦接于无线通讯模块以实现与电容器或电抗器无线通讯的控制终端与用于存储控制终端接收到的数据以及控制终端所输出的数据的存储数据库;控制终端通过无线通讯模块以将调节数据发送至控制模块并将调节数据存储至存储数据库,控制模块响应于调节数据以对电容器或电抗器进行调 [0037] After 40, disclosed in a wireless intelligent compensation monitoring system, comprising a plurality of reactors having a wireless intelligent compensating monitoring device and the plurality of capacitors having a wireless smart compensating monitoring device, further comprising coupled to a wireless communication module for Example a capacitor or a reactor with a control terminal of a wireless communication control terminal and data stored in a database for storing a control terminal receiving the output data; and a control terminal to adjust the data transmission to the control module via the wireless communication module and data storage to the adjusted database storage, the control module in response to the adjustment data for adjustment of the capacitor or a reactor

-K- -K-

TO TO

[0038]控制终端包括客户端与维护端;客户端与维护端均通过管理平台以获取相应的权限;客户端通过与之对应的唯一特征信息以获取查询的权限,维护端通过与之对应的唯一特征信息以获取查询、调用与调节的权限。 [0038] The client terminal includes control and maintenance end; end of both client and maintained by the management platform to obtain the appropriate authority; corresponding client through a unique characteristic information to obtain permission to query, through the corresponding end of maintenance the only feature information for inquiries, call the authority and regulation. 客户端与维护端均包括移动式终端与固定式终端,移动式终端可以是PAD、智能手机以及移动手提电脑等,固定式终端可以是台式电脑、月艮务器等,本发明中客户端与维护端均优选使用移动手提电脑,移动手提电脑使用更加便捷,且可以随意移动更换。 Client and maintenance terminal comprises a mobile terminal and a stationary terminal, the mobile terminal may be the PAD, smart phones and mobile laptop computers, the stationary terminal may be a desktop computer, a month that works to like, according to the present invention, the client and It is preferably mobile maintenance end laptop computer, a mobile laptop computer more convenient to use, and can be moved to replace.

[0039]无线智能补偿监控系统还包括管理平台,使用者通过管理平台以获取对应权限,并在该用户权限内以对存储数据库内的调节数据进行调节、查询与调用。 [0039] management platform, the management platform by the user to obtain a corresponding permissions, and to adjust the data stored within the database is adjusted in the user right, query the calling wireless intelligent monitoring system further comprises a compensator. 在实地获取权限时则优选采用如实施例一中所述的获取方式,而当通过远程监控时,也可以采用实地获取权限的方式,本发明优选采用密码登入的方式,当客户端与维护端进行验证以获取权限时,在客户端或维护端上对应的管理平台上进入登录界面,登录界面中包括用户名、密码以及验证码等信息,每个进入人员均对应有一个用户名以及密码,通过登录界面中,输入用户名、密码以及验证码后,控制终端通过无线通讯模块调用验证数据库中的该人员所对应的权限,该人员仅仅只能在自己的权限内进行操作,避免出现没有权限的人进行设置参数而造成危害,每个用户名所具有的权限也不同,从而便于不同用户进行使用,同时便于管理。 When the field is preferably used as acquisition rights Obtaining example 1 of the embodiment, when through a remote monitoring, mode field may be acquired using permissions, the present invention preferably employs a password manner, when the client terminal and maintenance when validated to obtain permission to enter the client login screen or maintenance on the corresponding end management platform, the login interface includes user name, password and a verification code, etc., each person entering corresponds have a username and password, by login screen, enter the user name, password and a verification code, control terminal permission to call to verify the database corresponding to the person through a wireless communication module, only the person can only operate within their rights to avoid no authority people set parameters harm, each user name has different privileges, to facilitate different users to use, and easy to manage.

[0040]在使用过程中,当无线智能补偿监控装置检测供电设备的输出电压与输出电流,并将对应的输出电压与输出电流反馈至控制模块,控制模块通过无线通讯模块将对应的数据传输至控制中心的控制终端,控制中心内的监管人员可以实时的获取对应的数据,并通过控制终端将对应的数据进行分析以获得功率因素等等参数,以供后期使用,而控制终端中所包括的客户端则仅仅只能接收控制终端所接收到的部分数据或全部数据,客户端仅仅只能查看对应的数据而无法进行修改,而维护端一般即设置在控制中心内,且有专业人员在处理管理,方便出现有问题时,能及时的进行修正。 [0040] In use, when the output voltage and output current monitoring device detecting wireless intelligent power compensating device, and output voltage corresponding to the output current feedback to the control module, the control module via the wireless communication module corresponding to the data transmission the control terminal of the control center, the control center can regulators in the corresponding data is acquired in real time and the data analyzed by the corresponding terminal to obtain a power factor control parameters, etc., for later use, and the control terminal included the client can receive only the control terminal of the received partial data or all data, the client can view only the corresponding data can not be modified, i.e., while maintaining the general end disposed within the control center, and processing professionals management, convenient when there is a problem that can be corrected in a timely manner.

[0041]同时控制终端包括一基准值数据M与偏差值数据N,该基准数据值M可以是工作人员手动输入的值,也可以是根据之前所检测到并且需要做调整的的检测值,将控制终端通过无线通讯模块所接收到检测数据与基准值数据M比对;若检测数据在M±N范围内,则控制终端调取存储数据库内的调节数据以对电容器或电抗器进行自动调节;反之,则控制终端将检测数据反馈至技术人员。 [0041] Also the control terminal comprises a reference value data M and the deviation value data N, the reference data value M may be a value staff manually entered, or may be detected and the need to make adjustments before the detected value, the control terminal received by the wireless communication module to the detected data with the reference value data M alignments; if the detection data in the M ± N range, the control terminal retrieved adjustment data in the storage database for automatic adjustment of the capacitor or a reactor; Conversely, the control terminal detection data is fed back to the art. 具有两种模式,其中一个模块就是手动调整模式,即当检测数据不再M±N范围内时,则将检测数据反馈到维护端处,让技术人员进行处理,做出应对的调整,并将该调整的数据发送至对应的控制模块以对电容器或电抗器进行调节,同时将调节数据存储至存储数据库,便于后期的调用,另一个模式,就是实现自动调节的功能,即当检测数据再M±N范围内时,控制终端直接根据对应M的调节数据进行调节,实现自动补偿调节的功能。 It has two modes, wherein the module is a manual adjustment mode, i.e. when the data is no longer detected within M ± N range, the detected data is fed to the end of the maintenance, a technician is processed to adjust response, and the adjusted data is sent to the corresponding control module for adjusting the capacitor or reactor, while the adjustment data stored in the storage database, for easy recall later, another pattern is to realize automatic adjustment function, i.e., when the detected data then M within the range of ± N, directly from the control terminal to adjust the adjustment data corresponding to M, the automatic compensation adjustment function. 即将调节数据发送至控制模块后,控制模块通过对应的PMW调节以实现对导通角的改变,实现补偿。 After coming adjustment data to the control module, the control module is adjusted to achieve a change of the conduction angle, achieved by a corresponding compensation PMW.

[0042]检测模块还包括用于检测电容器、电抗器的温度并将温度信号依次传输给控制模块、控制终端的温度检测单元,控制终端包括一温度基准值信号,当温度信号大于温度基准值信号时,则控制终端通过无线通讯模块以控制控制模块断开对应的电容器或电抗器。 [0042] The detection module further comprises a capacitor for detecting the temperature of the reactor and the temperature signal is sequentially transmitted to the control module, the control terminal of the temperature detecting means, the control terminal comprises a reference value of the temperature signal, the temperature signal when the temperature is greater than the reference value signal when the control terminal control module to disconnect the corresponding capacitor or reactor through the wireless communication module. 温度检测单元优选采用温度传感器,实现温度保护的功能,当其中某个电容器或电抗器温度过高时,能通过控制终端发送切断信号至对应温度过高的电容器或电抗器将其切断,避免造成损害,提供温度保护的功能。 Temperature detecting means preferably using a temperature sensor to achieve temperature protection function, wherein when a capacitor or reactor temperature is too high, by controlling the terminal transmits a disconnect signal to the corresponding temperature is too high a capacitor or a reactor, which was cut to avoid damage, provide temperature protection.

[0043]实施例五,公开的一种无线智能自动补偿方法,包括以下步骤: [0043] The fifth embodiment is disclosed in a wireless intelligent automatic compensation method, comprising the steps of:

51、控制终端通过无线通讯模块接收检测模块所检测到的检测数据; 51, the control terminal module receives detection data detected by the wireless communication module;

52、检测数据与基准值数据M进行比对;若检测数据不在M±N范围内,则将检测数据反馈至维护端,并执行步骤S3;反之,执行步骤S4 52, the detected data with the reference value data for comparison M; detecting if the data is not M ± N range, the detected data is fed to the maintenance terminal, and performs step S3; otherwise, go to step S4

53、控制终端将检测数据存储至存储数据库以作为基准值数据M,且将与之对应的调节数据通过无线通讯模块传输至控制模块以对电容器或电抗器进行调节,并将该调节数据存储至存储数据库以供控制终端调用,返回步骤SI; 53, the control terminal stores the detection data stored in the database as a reference value data and M, and the corresponding adjustment data transmitted via the wireless communication module to the control module for adjusting the capacitor or reactor, and the adjustment data stored in database for storing terminal call control returns to step the SI;

54、控制终端调用存储数据库中与基准值数据M对应的调节数据,并通过无线通讯模块传输至控制模块以对电容器或电抗器进行自动调节。 54, the control terminal calls the data stored in the database and adjust the reference value data corresponding to M, and transmitted to the control module to the capacitor or reactor automatically adjusted via the wireless communication module.

Claims (10)

1.一种无线智能补偿监控装置,其特征是:包括用于检测供电设备的电压、电流并输出检测数据的检测模块、耦接于检测模块并接收检测数据的控制模块与耦接于控制模块并响应于控制模块以将检测数据进行无线传输的无线通讯模块。 A wireless intelligent compensation monitoring device, characterized in that: the power supply comprises a voltage detecting device, and outputs current detection data detecting module, coupled to the detecting module and the receiving control module is coupled with the contact detection data to the control module and in response to the detected data to the control module for wireless transmission of the wireless communication module.
2.根据权利要求1所述的无线智能补偿监控装置,其特征是:还包括耦接于控制模块并获取对应权限的验证模块以及存储有验证信息数据的验证数据库,所述验证模块包括一唯一特征信息,所述控制模块调用验证数据库的库内数据与该唯一特征信息比对,若比对成功则控制模块允许对电容器或电抗器的参数进行调节。 The wireless intelligent compensation monitoring device according to 1, characterized in the claims: further comprising a control module coupled to and obtains the corresponding permission verification module stores authentication database and information data, the authentication module comprises a unique characteristic information, the authentication control module invokes database library data with the unique feature information comparison, if the comparison is successful, the control module enables adjustment of the characteristics of the capacitor or the reactor.
3.—种电抗器,其特征是:包括权利要求1至2所述的无线智能补偿监控装置。 3.- kinds of reactors, wherein: a wireless intelligent monitoring compensating apparatus according to claim 1 to 2.
4.一种电容器,其特征是:包括权利要求1至2所述的无线智能补偿监控装置。 A capacitor, characterized in that: a wireless intelligent compensation monitoring device according to claim 1-2.
5.—种无线智能补偿监控系统,其特征是:包括若干具有如权利要求1至2所述的无线智能补偿监控装置的电抗器与若干具有如权利要求1至2所述的无线智能补偿监控装置的电容器,还包括耦接于无线通讯模块以实现与电容器或电抗器无线通讯的控制终端与用于存储控制终端接收到的数据以及控制终端所输出的数据的存储数据库; 所述控制终端通过无线通讯模块以将调节数据发送至控制模块并将调节数据存储至存储数据库,所述控制模块响应于调节数据以对电容器或电抗器进行调节。 5.- kinds of wireless intelligent compensation monitoring system, characterized in that: a plurality claim having one to two compensating reactor wireless intelligent monitoring device and having a plurality of wireless intelligent monitoring said compensated as claimed in claim 1 to 2 capacitor means, further comprising a wireless communication module coupled to implement a control terminal of the capacitor or reactor wireless communication terminal and for storing control data received and stored in the terminal database control output data; said control terminal by wireless communication module to adjust data transmission to the control module and stores adjustment data stored in the database, the control module in response to the adjustment data for adjustment of the capacitor or reactor.
6.根据权利要求5所述的无线智能补偿监控系统,其特征是:还包括管理平台,所述使用者通过管理平台以获取对应权限,并在该用户权限内以对存储数据库内的调节数据进行调节、查询与调用。 The wireless intelligent monitoring system of compensation according to claim 5, characterized in that: further comprising a management platform, the management platform by the user to obtain a corresponding permissions, and to regulate the storage of data in the database user permissions adjusted query and call.
7.根据权利要求6所述的无线智能补偿监控系统,其特征是:所述控制终端包括客户端与维护端;所述客户端与维护端均通过管理平台以获取相应的权限;所述客户端通过与之对应的唯一特征信息以获取查询的权限,所述维护端通过与之对应的唯一特征信息以获取查询、调用与调节的权限。 The wireless intelligent monitoring system according to the compensation claim 6, wherein: the control and maintenance terminal comprises a client terminal; and the client terminal are maintained by the management platform to obtain the appropriate authority; the client characterized by the unique terminal information of the corresponding query to obtain permission, the unique features of the maintenance by the end of the corresponding query to obtain information, and call regulation authority.
8.根据权利要求5所述的无线智能补偿监控系统,其特征是:所述控制终端包括一基准值数据M与偏差值数据N,将控制终端通过无线通讯模块所接收到检测数据与基准值数据M比对;若检测数据在M±N范围内,则控制终端调取存储数据库内的调节数据以对电容器或电抗器进行自动调节;反之,则控制终端将检测数据反馈至技术人员。 The wireless intelligent monitoring system of compensation according to claim 5, characterized in that: said control terminal comprises a reference value and the deviation value data of the M data N, the control terminal receiving the detected data with the reference value via the wireless communication module data M alignments; if the detection data in the M ± N range, the control terminal retrieved adjustment data in the storage database for automatic adjustment of the capacitor or reactor; otherwise, the control terminal detection data is fed back to the art.
9.根据权利要求8所述的无线智能补偿监控系统,其特征是:所述检测模块还包括用于检测电容器、电抗器的温度并将温度信号依次传输给控制模块、控制终端的温度检测单元,所述控制终端包括一温度基准值信号,当温度信号大于温度基准值信号时,则控制终端通过无线通讯模块以控制控制模块断开对应的电容器或电抗器。 Wireless Intelligent compensation monitoring system according to claim 8, wherein: said module further comprises means for detecting the temperature of the temperature detection signal of the capacitor, the reactor is sequentially transmitted to the control module, the control terminal of the temperature detecting means said control terminal comprises a reference value of a temperature signal when the temperature signal is greater than the temperature reference value signals, the control terminal via the wireless communication module to the corresponding control module to turn off the capacitor or reactor.
10.一种无线智能自动补偿方法,其特征是:包括以下步骤: S1、所述控制终端通过无线通讯模块接收检测模块所检测到的检测数据; S2、所述检测数据与基准值数据M进行比对;若检测数据不在M±N范围内,则将检测数据反馈至维护端,并执行步骤S3;反之,执行步骤S4 S3、所述控制终端将检测数据存储至存储数据库以作为基准值数据M,且将与之对应的调节数据通过无线通讯模块传输至控制模块以对电容器或电抗器进行调节,并将该调节数据存储至存储数据库以供控制终端调用,返回步骤SI; S4、所述控制终端调用存储数据库中与基准值数据M对应的调节数据,并通过无线通讯模块传输至控制模块以对电容器或电抗器进行自动调节。 10. A wireless intelligent automatic compensation method, which is characterized in: comprising the steps of: Sl, the control terminal of the wireless communication module receives the detection data detected by the detection module by; S2, the detection data with reference data values ​​for M comparison; detecting if the data is not M ± N range, the detected data is fed to the maintenance terminal, and performs step S3; otherwise, go to step S4 S3, the control terminal stores the detection data stored in the database as a reference value data and M, and the corresponding adjustment data for transmission through the wireless communication module to the control module for adjusting the capacitor or reactor, and the adjustment data stored in a database for storing call control terminal returns to step SI; S4, the call control terminal database stored adjustment data and the reference value data corresponding to M, and transmitted to the control module to the capacitor or reactor automatically adjusted via the wireless communication module.
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CN106228114B (en) * 2016-07-08 2019-04-26 震惶科技(成都)有限公司 A kind of household electrical appliances device for automatically regulating with identity recognition function
CN106203345B (en) * 2016-07-08 2019-07-23 广东三人行管理咨询股份有限公司 A kind of image control device with identification verification function

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