CN204116505U - DC distribution load monitoring and metering system - Google Patents

Abstract

The utility model discloses a kind of DC distribution load monitoring and metering system, comprise main measurement module, branch road measure monitor module and human-computer interaction module, described main measurement module is connected with branch road measure monitor module communication, and described human-computer interaction module and main measurement module communicate to connect.By being equipped with main measurement module and branch road measure monitor module, in data center machine room direct-flow distribution system, be in rectifier, between accumulator and DC load.Realize the active and standby inlet wire electrical measurement of DC distribution equipment and metering, and allot each load condition monitoring of branch road and load power measurement and metrology.

Description

DC distribution load monitoring and metering system

Technical field

The utility model relates to controller switching equipment detection field, particularly, relates to a kind of DC distribution load monitoring and metering system.

Background technology

Current machine room direct-flow distribution system consumer increases gradually, and existing most of distribution system to allot circuitry number less, and be not easy to expansion, function ratio is more single, is not easy to installation and maintenance.

Most of distribution system does not have requirement analytic function and active and standby road inlet wire status detection function, not there is inquiry main road and branch road random time section (unit: sky) electric energy, especially often can not provide due to the reason such as restriction in chip-stored space allot the accurate energy consumption inquiry of branch road random time section (unit: sky) to allotting the more metering system of circuitry number.

Utility model content

The purpose of this utility model is, for the problems referred to above, propose a kind of DC distribution load monitoring and metering system, to reach the active and standby inlet wire electrical measurement of DC distribution equipment and metering, and allot the object of each load condition monitoring of branch road and load power measurement and metrology.

For achieving the above object, the technical solution adopted in the utility model is:

A kind of DC distribution load monitoring and metering system, comprise main measurement module, branch road measure monitor module and human-computer interaction module, described main measurement module is connected with branch road measure monitor module communication, and described human-computer interaction module and main measurement module communicate to connect;

Described main measurement module comprises the first single-chip microcomputer, clock back-up source unit, alarm output unit, inlet wire state detection unit, storage unit, mainboard communication unit, power supply unit of voltage regulation, first power conversion unit and main road data acquisition unit, described clock back-up source unit, inlet wire state detection unit, the output terminal of power supply unit of voltage regulation and main road data acquisition unit is all electrically connected with the input end of the first single-chip microcomputer, described mainboard communication unit is connected with the first single-chip microcomputer two-way communication, the output terminal of described first single-chip microcomputer is electrically connected with the input end of alarm output unit, the output terminal of described first power conversion unit is electrically connected with the input end of power supply unit of voltage regulation and the power end of Hall element respectively, the output terminal of described Hall element is electrically connected with the input end of main road data acquisition unit,

Described branch road measure monitor module comprises second singlechip, subplate communication unit, second source converting unit, module dial-up unit, membership detecting unit and branch data collecting unit, described second source converting unit is electrically connected with the power end of second singlechip, described second source converting unit is electrically connected with the first power conversion unit, described module dial-up unit, the output terminal of membership detecting unit and branch data collection list is all electrically connected with the input end of second unit machine, the output terminal of described second singlechip is electrically connected with the input end of subplate communication unit, the described input end of membership detecting unit is electrically connected with the input end of shunt,

Described mainboard communication unit is connected with subplate communication unit communication.

The technical solution of the utility model has following beneficial effect:

The technical solution of the utility model, by being equipped with main measurement module and branch road measure monitor module, in data center machine room direct-flow distribution system, is in rectifier, between accumulator and DC load.Realize the active and standby inlet wire electrical measurement of DC distribution equipment and metering, and allot each load condition monitoring of branch road and load power measurement and metrology.And the resistance of power conversion unit and power conversion unit and capacitance are limited accurately, thus make the data of measurement and metrology more accurate, make system cloud gray model more stable.Main measurement module and branch road measure monitor module are printed on different circuit boards respectively, the convenient expansion to system.

Below by drawings and Examples, the technical solution of the utility model is described in further detail.

Accompanying drawing explanation

Fig. 1 is the DC distribution load monitoring described in the utility model embodiment and metering system theory diagram;

Fig. 2 to Figure 36 is the electronic circuitry of the main measurement module described in the utility model embodiment;

Figure 37 to Figure 62 is the electronic circuitry of the branch road measure monitor module described in the utility model embodiment.

Embodiment

Below in conjunction with accompanying drawing, preferred embodiment of the present utility model is described, should be appreciated that preferred embodiment described herein is only for instruction and explanation of the utility model, and be not used in restriction the utility model.

As shown in Figure 1, a kind of DC distribution load monitoring and metering system, comprise main measurement module, branch road measure monitor module and human-computer interaction module, and main measurement module is connected with branch road measure monitor module communication, and human-computer interaction module and main measurement module communicate to connect;

Main measurement module comprises the first single-chip microcomputer, clock back-up source unit, alarm output unit, inlet wire state detection unit, storage unit, mainboard communication unit, power supply unit of voltage regulation, first power conversion unit and main road data acquisition unit, clock back-up source unit, inlet wire state detection unit, the output terminal of power supply unit of voltage regulation and main road data acquisition unit is all electrically connected with the input end of the first single-chip microcomputer, mainboard communication unit is connected with the first single-chip microcomputer two-way communication, the output terminal of the first single-chip microcomputer is electrically connected with the input end of alarm output unit, the output terminal of the first power conversion unit is electrically connected with the input end of power supply unit of voltage regulation and the power end of Hall element respectively, the output terminal of Hall element is electrically connected with the input end of main road data acquisition unit,

Branch road measure monitor module comprises second singlechip, subplate communication unit, second source converting unit, module dial-up unit, membership detecting unit and branch data collecting unit, second source converting unit is electrically connected with the power end of second singlechip, second source converting unit is electrically connected with the first power conversion unit, module dial-up unit, the output terminal of membership detecting unit and branch data collection list is all electrically connected with the input end of second unit machine, the output terminal of second singlechip is electrically connected with the input end of subplate communication unit, the input end of membership detecting unit is electrically connected with the input end of shunt,

Mainboard communication unit is connected with subplate communication unit communication.Measurement module and the concrete electronic circuitry of branch road measure monitor module are as shown in Fig. 2 to Figure 62.

As shown in figure 36, first power conversion unit comprises power conversion chip, the upper parallel diode D15 and diode D16 of input pin-Vin of power conversion chip, diode D15 is all connected with the input pin-Vin of power conversion chip with the anode of diode D16, connect between the output end vo 1+ pin of power conversion chip and the GND1 pin of power conversion chip LED 1 and resistance R91, the negative electrode of LED 1 is connected with resistance R91, and the series circuit that LED 1 and resistance R91 form is in parallel with electric capacity EC4; Connect between the output end vo 3-pin of power conversion chip and the output terminal COM pin of power conversion chip LED 2 and resistance R96, the negative electrode of LED 2 is connected with resistance R96, and the series circuit that LED 2 and resistance R96 form is in parallel with electric capacity EC5; Connect between the output end vo 2+ pin of power conversion chip and the output terminal COM pin of power conversion chip LED 3 and resistance R103, the negative electrode of LED 3 is connected with resistance R103, and the series circuit that LED 3 and resistance R103 form is in parallel with electric capacity EC6.

The resistance of resistance R91 is 2.7K Ω, and the capacitive reactance of the capacitive reactance of the resistance of electricity group R96 to be the resistance of 8.2 K Ω, resistance R103 be 8.2 K Ω, electric capacity EC4 to be the capacitive reactance of 100 μ F, electric capacity EC5 be 47 μ F, electric capacity EC6 is 47 μ F.First single-chip microcomputer adopts STM32F103ZET6 chip, and second singlechip adopts STM8S208RBT6 chip.Main measurement module adopts RS485 communication interface to be connected with branch road measure monitor module.The input end of main road data acquisition unit arranges TLP281 photoelectric coupled circuit.Storage unit adopts FM24W256 ferroelectric memory and SST39VF32 Nor Flash storer.Alarm output unit adopts circuit of LED and relay alarm output circuit.Branch road measure monitor module and branch road measure monitor module are printed on different pcb boards respectively, and branch road measure monitor module is multiple.Power supply unit of voltage regulation adopts LM1117 voltage stabilizing chip.

Technical solutions of the utility model function is as follows:

1, all electricity in real-time measurement system: two-way main road voltage, two-way main road electric current, two-way main road power, two-way main road electric energy, allot branch current, allot branch road electric energy, electric parameter measurement and the display such as accumulative electric energy.

2, Real-Time Monitoring is allotted membership, is had that system is under-voltage, the more function such as pressure, undercurrent, overcurrent and branch trouble alarm.

3, system has fault audible and visual alarm and group relay alarm output, can press SET key cut bell item by item to alarm item when there being alarm, and pressing SET key at normal (non-alarm status) can reset to cutting bell alarm item; Individual system can support the use from the shunt of the Hall element of different no-load voltage ratio parameter and different no-load voltage ratio parameter.

4, system has random time section (unit: sky) and inquires about active and standby inlet wire and allot the function of branch road energy consumption, and has and monthly inquire about two-way main road and allot branch road history electric energy.

5, system has active and standby inlet wire and allots branch current requirement, maximum current requirement, power demand, peak power requirement function of statistic analysis.

6, system has active and standby road inlet wire status real time monitor and power alarm restriction alarm function.

7, system has detailed warning information and stores and query function, maximumly realizes 512 warning information and stores, and has warning information Protection Counter Functions.

8, system provides one group of RS485 interface that to communicate with hyper terminal, facilitates query facility running status.

9, system adopts RS485 point-to-multipoint reaction type communication mode, and each primary module is maximum can cascade 5 secondary modules, and each secondary module can allot 24 road branch roads, and namely the maximum 120 road branch road power status that realize detect and electric energy metricals.

10, LCD320*240 liquid crystal display is adopted, full Chinese display interface, the operation such as greatly facilitate inquiry, arrange.

11, RS485, RS232 communication interface is provided can to select and host computer communication mode for user.

12, energy saved system setting value and recorded information after power-off, have incoming call self-starting function.

13, system designs based on high-performance 32-bit MCU, is used for storage allots branch road energy information by FMSC bus extension 32M Nor flash storage chip.

DC distribution load monitoring and metering system collection two-way main road voltage, two-way main road electric current, two-way main road power, two-way main road electric energy, allot branch current, allot branch road electric energy, electric parameter measurement and the displays such as accumulative electric energy, and system is under-voltage, the more function such as pressure and branch trouble alarm and one, and can monthly and inquire about main road by random time section and allot branch road history electric energy, system can be arranged allots branch road way, allot branch road shunt no-load voltage ratio, Hall element no-load voltage ratio, the parameters such as mailing address, and there is the functions such as electric energy clearing, system is maximum can cascade 5 branch road measure monitor modules, namely maximumly 120 road branch road electric energy metricals are realized, system provides RS485, RS232 communication interface can be selected and host computer communication mode for user.

DC distribution load monitoring and metering system are used for, in data center machine room direct-flow distribution system, being in rectifier, between accumulator and DC load.For the active and standby inlet wire electrical measurement of DC distribution equipment and metering, and allot the monitoring of branch road each load condition and measure with load power, measure.

Last it is noted that the foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, although be described in detail the utility model with reference to previous embodiment, for a person skilled in the art, it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein portion of techniques feature.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. a DC distribution load monitoring and metering system, it is characterized in that, comprise main measurement module, branch road measure monitor module and human-computer interaction module, described main measurement module is connected with branch road measure monitor module communication, and described human-computer interaction module and main measurement module communicate to connect;

Described main measurement module comprises the first single-chip microcomputer, clock back-up source unit, alarm output unit, inlet wire state detection unit, storage unit, mainboard communication unit, power supply unit of voltage regulation, first power conversion unit and main road data acquisition unit, described clock back-up source unit, inlet wire state detection unit, the output terminal of power supply unit of voltage regulation and main road data acquisition unit is all electrically connected with the input end of the first single-chip microcomputer, described mainboard communication unit is connected with the first single-chip microcomputer two-way communication, the output terminal of described first single-chip microcomputer is electrically connected with the input end of alarm output unit, the output terminal of described first power conversion unit is electrically connected with the input end of power supply unit of voltage regulation and the power end of Hall element respectively, the output terminal of described Hall element is electrically connected with the input end of main road data acquisition unit,

Described branch road measure monitor module comprises second singlechip, subplate communication unit, second source converting unit, module dial-up unit, membership detecting unit and branch data collecting unit, described second source converting unit is electrically connected with the power end of second singlechip, described second source converting unit is electrically connected with the first power conversion unit, described module dial-up unit, the output terminal of membership detecting unit and branch data collection list is all electrically connected with the input end of second unit machine, the output terminal of described second singlechip is electrically connected with the input end of subplate communication unit, the described input end of membership detecting unit is electrically connected with the input end of shunt,

Described mainboard communication unit is connected with subplate communication unit communication.

2. DC distribution load monitoring according to claim 1 and metering system, it is characterized in that, described first power conversion unit comprises power conversion chip, the upper parallel diode D15 and diode D16 of input pin-Vin of described power conversion chip, described diode D15 is all connected with the input pin-Vin of power conversion chip with the anode of diode D16, connect between the output end vo 1+ pin of described power conversion chip and the GND1 pin of power conversion chip LED 1 and resistance R91, the negative electrode of described LED 1 is connected with resistance R91, the series circuit that LED 1 and resistance R91 form is in parallel with electric capacity EC4, connect between the output end vo 3-pin of described power conversion chip and the output terminal COM pin of power conversion chip LED 2 and resistance R96, the negative electrode of described LED 2 is connected with resistance R96, and the series circuit that LED 2 and resistance R96 form is in parallel with electric capacity EC5, connect between the output end vo 2+ pin of described power conversion chip and the output terminal COM pin of power conversion chip LED 3 and resistance R103, the negative electrode of described LED 3 is connected with resistance R103, and the series circuit that LED 3 and resistance R103 form is in parallel with electric capacity EC6.

3. DC distribution load monitoring according to claim 2 and metering system, it is characterized in that, the resistance of described resistance R91 is 2.7K Ω, the resistance of described resistance R96 is 8.2 K Ω, the resistance of described resistance R103 is 8.2 K Ω, the capacitive reactance of described electric capacity EC4 is 100 μ F, and the capacitive reactance of described electric capacity EC5 is the capacitive reactance of 47 μ F, electric capacity EC6 is 47 μ F.

4. according to the arbitrary described DC distribution load monitoring of claims 1 to 3 and metering system, it is characterized in that, described first single-chip microcomputer adopts STM32F103ZET6 chip, and described second singlechip adopts STM8S208RBT6 chip.

5. DC distribution load monitoring according to claim 4 and metering system, is characterized in that, described main measurement module adopts RS485 communication interface to be connected with branch road measure monitor module.

6. DC distribution load monitoring according to claim 4 and metering system, is characterized in that, the input end of described main road data acquisition unit arranges TLP281 photoelectric coupled circuit.

7. DC distribution load monitoring according to claim 4 and metering system, is characterized in that, described storage unit adopts FM24W256 ferroelectric memory and SST39VF32 Nor Flash storer.

8. DC distribution load monitoring according to claim 4 and metering system, is characterized in that, described alarm output unit adopts circuit of LED and relay alarm output circuit.

9. DC distribution load monitoring according to claim 4 and metering system, is characterized in that, described branch road measure monitor module and branch road measure monitor module are printed on different pcb boards respectively, and described branch road measure monitor module is multiple.

10. DC distribution load monitoring according to claim 4 and metering system, is characterized in that, described power supply unit of voltage regulation adopts LM1117 voltage stabilizing chip.