CN204536529U - Adopt the power metering and monitoring device of number bus multiple spot distribution collection technology - Google Patents

Abstract

The utility model relates to the electric energy metrical long-distance monitorng device adopting number bus multiple spot distribution collection technology, the metering device signal collection number of cables that effectively can solve electric energy is large, cost is high, the problem of signal accuracy difference, technical scheme is, comprise a supervising device, at least two signal acquisition module and connect the number bus of described signal acquisition module and supervising device, the input end of signal acquisition module is connected through the output terminal of signal cable with monitored high-voltage electric-energy meter corresponding device, the output terminal of signal acquisition module is provided with digital bus interface, digital bus interface is connected with the input end of supervising device through number bus, the utility model novel structure is unique, advantages of simple, greatly reduce apparatus system cost, signal antijamming capability also strengthens greatly, and the decay of signal does not affect signal accuracy, has obvious technical advantage and economic advantages.

Description

Adopt the power metering and monitoring device of number bus multiple spot distribution collection technology

Technical field

The utility model relates to high voltage supply using electricity system, particularly a kind of power metering and monitoring device adopting number bus multiple spot distribution collection technology.

Background technology

Electric energy is that modern society applies the most general energy.The foundation that the measuring apparatus of electric energy is settled accounts as power consumption, always by power supply, electricity consumption both sides are paid attention to.Therefore, road is a mass of electric power meter to Live wires, and wherein, the electric power meter that place installs at high voltage substation, high pressure transmission & distribution power station, high voltage supply system critical point etc., owing to relating to the metering of huge electricity, has critical effect especially.How ensureing that these electric power meters accurately and reliably run, is the significant concern focus of electric system and user.Adopting supervising device to monitor these electric power meters, is a kind of Control Technique risen at present.

The power metering and monitoring device of high-tension circuit usually by monitored high-voltage electric-energy meter corresponding device (as voltage transformer (VT), current transformer, electric energy meter etc.) and connection line form.For voltage transformer (VT), current transformer, their effect is the low-voltage, the small area analysis that the high voltage in power circuit, big current are transformed in electric energy meter input range.The voltage transformer (VT) installed due to the place such as high voltage substation, transmission & distribution power station, electric power system critical point, current transformer are usually located at outdoor electric line place, electric energy meter is then arranged on indoor Pan Guichu usually, have often hundreds of meters of distances between mutual inductor and electric energy meter, the power metering and monitoring device for monitoring electric power meter needs to gather voltage transformer (VT), the signal such as voltage, electric current, phase place of current transformer output terminal and the signal such as voltage, electric current, phase place of electric energy meter input end respectively.

As shown in Figure 1, this supervising device of supervising device 5(for monitoring these electric power meters is prior art, as the HDMS-2000 Watthour meter remote monitoring system of Henan Hongzheng Electric Technology Co., Ltd., the long-range verification management system for monitoring of 809 serial measuring apparatus etc. of Xiamen Hongxiang Electric Power Equipment Co., Ltd.) need to gather respectively voltage transformer (VT), (2 groups in Fig. 1, are provided with current transformer, be respectively 2 voltage transformer (VT) 1a and 2 current transformer 1b) voltage of output terminal, electric current, the voltage of the signals such as phase place and electric energy meter input end, electric current, the signals such as phase place.Adopt existing supervising device (comprising the equipment of collection signal), generally be configured near indoor dish cabinet place electric energy meter 3, in order to gather the signal of outdoor voltage transformer (VT), current transformer output port, configuration is needed signal to be sent to the signal cable of supervising device from each voltage transformer (VT), current transformer.

In three-phase electrical power system, the electric power meter in each high voltage power distribution loop needs configuration one group of 3 current transformer (being configuration 2 current transformers sometimes); The electric power meter in some high voltage power distribution loops can public one group of three voltage transformer (VT).Because electric line has many bars usually, the mutual inductor of installation is also a lot, and need the signal cable quantity of configuration a lot, transmitting range is very long, has increased substantially the cost of power metering and monitoring apparatus system; The signal such as voltage, electric current transmitted due to signal cable is again analog quantity, and the loss that long range propagation brings, interference reduce the accuracy of signal, have impact on the performance of power metering and monitoring device.

Summary of the invention

For above-mentioned situation, for overcoming the defect of prior art, the object of the utility model is just to provide a kind of power metering and monitoring device adopting number bus multiple spot distribution collection technology, and the metering device signal collection number of cables that effectively can solve electric energy is large, cost is high, the problem of signal accuracy difference.

The technical scheme that the utility model solves is, comprise a supervising device, at least two signal acquisition module and connect the number bus of described signal acquisition module and supervising device, the input end of signal acquisition module is connected through the output terminal of signal cable with monitored high-voltage electric-energy meter corresponding device, the output terminal of signal acquisition module is provided with digital bus interface, digital bus interface is connected with the input end of supervising device through number bus, from the voltage that high-voltage electric-energy meter corresponding device collects, current signal is converted to digital signal by signal acquisition module, and exported by digital bus interface and be sent to supervising device via number bus, digitized signal due to what transmit in signal transmission circuit, the decay of signal does not affect signal accuracy, signal antijamming capability also strengthens greatly.

Described high-voltage electric-energy meter corresponding device comprises at least 1 voltage transformer (VT), at least 1 current transformer and at least 1 electric energy meter, voltage transformer (VT), current transformer is connected with the input end of signal acquisition module through signal cable respectively with the output terminal of electric energy meter, from the voltage that current transformer and voltage transformer (VT) collect, current signal is converted to digital signal by coupled signal acquisition module, and exported by digital bus interface and be sent to supervising device via number bus, the signal acquisition module be connected with electric energy meter is by the voltage of electric energy meter input end, current signal is converted to digital signal, and exported by digital bus interface and be sent to supervising device via number bus, the utility model adopts a kind of brand-new number bus distribution collection technology, collect voltage transformer (VT) respectively, the numerical value of current transformer and each signal of electric energy meter output terminal is (as voltage, electric current, phase place, impedance loop etc.), achieve the signals collecting requirement required for power metering and monitoring apparatus system.

The utility model novel structure is unique, advantages of simple: near the voltage transformer (VT) belonging to electric power meter that multiple spot distributed signal acquisition module is arranged on each bar high-voltage electric power circuit respectively nearby and current transformer, makes the length of the signal cable connecting mutual inductor and signal acquisition module greatly shorten; Connect longer its price of number bus of the length of each signal acquisition module and supervising device main body well below signal cable, greatly reduce apparatus system cost; In the system with multiple signal acquisition module, each signal acquisition module can common numbers bus, reduce further system cost; What transmit in the number bus that length is longer is digitized signal, signal antijamming capability also strengthens greatly, the decay of signal does not affect signal accuracy, with directly transmit compared with simulating signal prior art power metering and monitoring device, signal measurement accuracy can improve a grade, greatly widen the application of monitor data, the application distinctive distribution collection technology of the utility model and number bus technological maheup power metering and monitoring device, be a kind of brand new technical scheme, there are obvious technical advantage and economic advantages.

Accompanying drawing explanation

Fig. 1 is the structure frame connection diagram of existing power metering and monitoring device.

Fig. 2 is frame connection diagram of the present utility model.

Fig. 3 is the frame connection diagram of the utility model signal acquisition module.

Embodiment

Below in conjunction with accompanying drawing, embodiment of the present utility model is described in further detail.

Provided by Fig. 2-3, the utility model comprises a supervising device 5, at least two signal acquisition module 2 and connect the number bus 4 of described signal acquisition module 2 and supervising device 5, the input end of signal acquisition module 2 is connected through the output terminal of signal cable 6 with monitored high-voltage electric-energy meter corresponding device respectively, the output terminal of signal acquisition module 2 is provided with digital bus interface, digital bus interface is connected through the input end of number bus 4 with supervising device 5, from the voltage that high-voltage electric-energy meter corresponding device collects, current signal is converted to digital signal by signal acquisition module, and exported by digital bus interface and be sent to supervising device 5 via number bus, digitized signal due to what transmit in signal transmission circuit, the decay of signal does not affect signal accuracy, signal antijamming capability also strengthens greatly.

For ensureing result of use, between the output terminal of described high-voltage electric-energy meter corresponding device and the input end of signal acquisition module (2), the length of signal cable is less than the length of number bus between signal acquisition module 2 output terminal and supervising device 5.

Described signal acquisition module 2 comprises the signal conversion module, multi-way switch, AD converter and the microprocessor that are connected successively, and described multi-way switch (also known as MUX) is commercially available prod, if model is the multi-way switch of MAX309, described AD converter is commercially available prod, and the model as Ya De promise semiconductor production is the AD converter of AD7606 (*), and the model that and for example Texas Instrument produces is the AD converter of ADS8556, just simulating signal can be converted to digital signal, described microprocessor is commercially available prod (prior art), and the model of the method semiconductor production that complies with one's wishes is the microprocessor of STM32F407VET6 (*), and the model that and for example altera corp produces is the microprocessor of EP4CE6F17C8, the output terminal of microprocessor is provided with digital bus interface, the input end of signal conversion module is connected with the output terminal of monitored high-voltage electric-energy meter corresponding device, the high voltage that high-voltage electric-energy meter corresponding device exports by signal conversion module or big current signal are converted to low-voltage, after small area analysis, selected by multi-way switch, order delivers to AD converter, AD converter is by voltage, current signal is converted to digital signal, microprocessor processes this digital signal, obtain the numerical value of each road signal, and according to system communication stipulations, be transported in number bus by digital bus interface, described signal conversion module is prior art, high voltage or big current signal can be converted to low-voltage, small area analysis, as signal conversion module big current being converted to small area analysis that current transformer is formed, what be and for example made up of resistance is the signal conversion module of small voltage by large voltage transitions,

Described high-voltage electric-energy meter corresponding device comprises at least 1 voltage transformer (VT) 1a, at least 1 current transformer 1b and at least 1 electric energy meter 3, voltage transformer (VT) 1a, current transformer 1c is connected through the input end of signal cable 6 with signal acquisition module 2 respectively with the output terminal of electric energy meter 3, from the voltage that current transformer and voltage transformer (VT) collect, current signal is converted to digital signal by coupled signal acquisition module, and exported by digital bus interface and be sent to supervising device 5 via number bus, the signal acquisition module be connected with electric energy meter is by the voltage of electric energy meter input end, current signal is converted to digital signal, and exported by digital bus interface and be sent to supervising device 5 via number bus, the utility model adopts a kind of brand-new method, thus collect voltage transformer (VT), the numerical value of current transformer and each signal of electric energy meter output terminal is (as voltage, electric current, phase place, impedance loop etc.), achieve the signals collecting requirement required for power metering and monitoring apparatus system.

Because the requirement of real-time of signal acquisition module is not high, the data volume that acquisition module exports is little, adopt serial communication just can meet system requirements, consider that transmitting range is generally hundreds of rice, so embodiment can adopt the serial data bus of RS485/RS422 standard, the numeric type bus of other standards also can be adopted.

In three-phase electrical power system, the electric power meter in each high voltage power distribution loop needs configuration 3 current transformers (being configuration 2 current transformers sometimes) and three voltage transformer (VT).The signal gathered in each current transformer side comprises voltage signal and current signal, also will gather voltage signal and current signal in each phase of voltage transformer (VT).Each signal acquisition point (corresponding to a high voltage power distribution loop) needs collection 3 voltage signals and 3 current signals like this.

Existing measurement monitoring apparatus design, because each collection signal needs a pair signal wire, each signal acquisition point just needs 6 pairs of signal wires.Because the distance of signal acquisition point distance detection device often has hundreds of rice again, gather number of cables very large; Again because the job specifications of electric system requires to use sheathed cable, these gather cable costly.According to distance 300 meters of calculating, general intermediate distribution substation has 20-30 collection points, and signal cable length reaches 6000-9000 rice, and expense is about 10-15 ten thousand yuan.

Adopt power metering and monitoring device of the present utility model, signal acquisition module adds that the expense of signal cable and number bus is about 25% of the power metering and monitoring device signal cable expense of prior art design, consider the saving of engineering cost again, each intermediate distribution substation on average can save the expense of more than 100,000 yuan.By often economizing average 800 distribution substations estimation, the whole nation can be created and be saved billions of economic benefits.

Adopt the utility model power metering and monitoring device, overcome in the power metering and monitoring device adopting prior art design, the signal such as voltage, electric current gathered is analog electric signal, the loss of signal that long range propagation brings, the interference of introducing reduce the accuracy of signal, technical indicator is obviously declined, have impact on the defect of the performance of monitoring; Therefore the power metering and monitoring device of the utility model design is adopted, technical indicator can improve a measurement standard grade, provide more accurately more reliable information support to the application system of monitor data, potential application benefit cannot be estimated especially, has good Social and economic benef@.

Claims (4)

1. one kind adopts the power metering and monitoring device of number bus multiple spot distribution collection technology, it is characterized in that, comprise a supervising device (5), at least two signal acquisition module (2) and connect the number bus (4) of described signal acquisition module (2) and supervising device (5), the input end of signal acquisition module (2) is connected through the output terminal of signal cable (6) with monitored high-voltage electric-energy meter corresponding device, the output terminal of signal acquisition module (2) is provided with digital bus interface, digital bus interface is connected through the input end of number bus (4) with supervising device (5).

2. the power metering and monitoring device of employing number bus multiple spot distribution collection technology according to claim 1, it is characterized in that, between the output terminal of described high-voltage electric-energy meter corresponding device and the input end of signal acquisition module (2), the length of signal cable is less than the length of number bus between signal acquisition module (2) output terminal and supervising device (5).

3. the power metering and monitoring device of employing number bus multiple spot distribution collection technology according to claim 1, it is characterized in that, described signal acquisition module (2) comprises the signal conversion module, multi-way switch, AD converter and the microprocessor that are connected successively, the output terminal of microprocessor is provided with digital bus interface, and the input end of signal conversion module is connected with the output terminal of monitored high-voltage electric-energy meter corresponding device.

4. the power metering and monitoring device of employing number bus multiple spot distribution collection technology according to claim 1, it is characterized in that, described high-voltage electric-energy meter corresponding device comprises at least 1 voltage transformer (VT) (1a), at least 1 current transformer (1b) and at least 1 electric energy meter (3), and voltage transformer (VT) (1a), current transformer (1c) are connected through the input end of signal cable (6) with signal acquisition module (2) respectively with the output terminal of electric energy meter (3).