CN209087185U - A kind of emulation collector suitable for emulation training - Google Patents

Abstract

The utility model is a kind of emulation collector suitable for emulation training, including collector mainboard and simulated failure control panel, the collector mainboard includes carrier wave microprocessor, carrier module, the first RS485 module, display module and the power module for collector main board power supply, carrier module, RS485 communication module and display module are connected with carrier wave microprocessor respectively, the simulated failure control panel includes the 2nd RS485 module, microprocessor and I/O module, and the 2nd RS485 module and I/O module are connected with microprocessor respectively.The utility model has the advantages that: have crash simulation, the simulation of RS485 communication abnormality and bearer communication exception analog functuion；It is exported by I/O and realizes collector crash function, circuit structure is simple；Simulated failure control panel controls collector mainboard and realizes fault simulation, and collector basic function and simulated failure function are not interfere with each other.

Description

A kind of emulation collector suitable for emulation training

Technical field

The utility model relates to collector field more particularly to a kind of emulation collectors suitable for emulation training.

Background technique

With the construction of smart grid, remote meter reading is widely used, but has also discovered in use many It will often find that in problem, especially debugging process and copy obstructed phenomenon, because the dress table at scene meets electrician and operation and maintenance people The limitation of member's technical level can not do complete, system Trouble Report to obstructed phenomenon is copied, can not more handle solution, because This connects electrician and operation maintenance personnel's technical level to improve dress table, understands and is familiar with the working principle of collector, work as scene Collector can be correct accident analysis and presentment system, complete Trouble Report, electric system personnel and Biao when breaking down Producer technical staff carries out in-depth study by all kinds of problems that Trouble Report collector can occur, while also saving for each net Utilities Electric Co. and collector manufacturing enterprise application extension, technical research etc. provide a large amount of practical basis.Emulation acquisition Some typical faults in the existing typical power grid run case in device combination electricity consumption scene and collector use carry out on device Analog demenstration and analysis understand Field Force, are familiar with the failure at scene, by training, learning, understanding and being familiar with collector Working principle.

Existing collector, cannot achieve crash and RS485 communication abnormality and carrier communication abnormal function, and student can not lead to The study of simulation stage is crossed to grasp discovery collector meter reading accident analysis positioning.

Summary of the invention

The utility model is mainly solved the problems, such as to cannot achieve crash, RS485 communication abnormality and carrier communication exception, be mentioned A kind of emulation suitable for emulation training that can have crash, RS485 communication abnormality and carrier communication exception analog functuion is supplied Collector.

The technical scheme adopted by the utility model to solve the technical problem is as follows: a kind of emulation suitable for emulation training is adopted Storage, including collector mainboard and simulated failure control panel, the collector mainboard include carrier wave microprocessor, carrier wave mould Block, the first RS485 module, display module and the power module for collector main board power supply, carrier module, RS485 communication module It is connected respectively with carrier wave microprocessor with display module, the simulated failure control panel includes the 2nd RS485 module, micro process Device and I/O module, the 2nd RS485 module and I/O module are connected with microprocessor respectively.

Collector mainboard has the function of the function such as normal collector, including carrier meter reading, carrier-current relaying in the utility model Can, collector mainboard operating status is reacted by display module.

Scheme as a preference of the above scheme, the collector mainboard by the first RS485 module respectively with mould Quasi- Fault Control plate is connected with other emulators, the simulated failure control panel pass through the 2nd RS485 module respectively with adopt Storage mainboard is connected with other emulators.Simulated failure control panel is by the 2nd RS485 module received from other emulators Simulated failure order, the carrier wave microprocessor for controlling collector mainboard by the 2nd RS485 module and the first RS485 module is temporary Stop processing RS485 communication request and realize the simulation of RS485 communication abnormality, collector mainboard is imitated by the first RS485 module with other True equipment communication.

The reseting pin of scheme as a preference of the above scheme, the carrier wave microprocessor is connected with I/O module. Simulated failure control panel realizes simulation of crashing by the carrier wave microprocessor reset that I/O module controls collector mainboard.

As a kind of preferred embodiment of above scheme, the carrier module includes carrier transmitting-receiving circuit and voltage zero-cross inspection Slowdown monitoring circuit, carrier transmitting-receiving circuit and voltage zero-crossing detection circuit are connected with carrier wave microprocessor respectively.Voltage mistake in carrier module Carrier communication abnormal function is realized in zero detection circuit and the cooperation of carrier transmitting-receiving circuit.

As a kind of further preferred embodiment of above scheme, the carrier transmitting-receiving circuit includes inductance L1, L2, L6, Diode D2, D3, D4, D5, D8, D9, bilateral diode D6, triode Q1, Q3, Q4, Q5, Q6, resistance R9, R10, R13, R14, R18, R19, R23, capacitor C4, C6, C7, C15, C16, C17, C18, C19, C20, C21, an analog signal input port SIGIN, One digital signal output PSK_OUT, power supply VCC, VHH, are grounded GND1, GND2, firewire L, zero curve N and several conducting wires, mould Quasi- signal input SIGIN is connected with capacitor C16, the capacitor C16 other end respectively with inductance L6, capacitor C17, capacitor C15 and three The collector of pole pipe Q1 is connected, and the capacitor L6 other end is connected with resistance R13, and resistance R13, capacitor C17, the capacitor C15 other end are equal It is connected with power supply VCC, triangular pipe Q1 emitter is connected with resistance R18 and capacitor C20 respectively, and resistance R18 and capacitor C20 connect GND1, the base stage of triode Q1 are connected with resistance R19, resistance R23 and capacitor C19 respectively, another termination VCC of resistance R19, resistance Another termination GND1 of R23, the capacitor C19 other end respectively with diode D9 anode, diode D8 cathode, inductance L1, capacitor C18 and Resistance R14 is connected, and diode D9 cathode, diode D8 anode, inductance L1 and capacitor C18 connect GND1, the resistance R14 other end point It is not connected with the second pin of bilateral diode D6, inductance L2 and transformer T2, another termination GND1 of bilateral diode D6, transformation The 4th pin of device T2 meets GND1, and the first pin of transformer T2 meets capacitor C21, and the capacitor C21 other end is connected with firewire L, becomes The third pin of depressor T2 is connected with zero curve N, and the inductance L2 other end is connected with battery C4, the capacitor C4 other end respectively with diode D2 anode, diode D3 cathode are connected with the emitter of triode Q4, Q3, and diode D2 cathode meets VHH, and diode D3 anode connects GND2, triode Q4 collector meet VHH, and triode Q3 collector meets GND2, the base stage of triode Q3, Q4 respectively with triode The collector of Q5, Q6 are connected, and triode Q5 emitter meets VHH, and base stage is connected with resistance R9, diode D4 anode respectively, two poles Pipe D4 meets VHH, and resistance R9 is connected with capacitor C6, and the capacitor C6 other end is connected with digital signal delivery outlet PSK_OUT, triode Q6 Emitter meets GND2, and triode Q6 base stage is connected with diode D5 cathode, resistance R10 respectively, and diode D5 anode meets GND2, electricity The resistance R10 other end is connected with capacitor C7, and the capacitor C7 other end is connected with digital signal delivery outlet PSK_OUT.Firewire L, zero curve N with Alternating voltage is connected.

As a kind of further preferred embodiment of above scheme, described inductance L2, L6 are ribbon core inductance, and L1 is sky Electrocardio sense, diode D4, D5 are zener diode, and triode Q3, Q5 are PNP type triode, and triode Q1, Q4, Q6 are NPN type Triode.

Scheme as a preference of the above scheme, the zero cross detection circuit include resistance R30, R31, diode D1, linear optical coupling U5, firewire L01, zero curve N01 and several conducting wires, the one end resistance R8 are connected with firewire L01, the other end respectively with The cathode of diode D1 is connected with the first pin of linear optical coupling U5, and the one end resistance R9 is connected with zero curve N01, the other end respectively with The anode of diode D1 is connected with the second pin of linear optical coupling, linear optical coupling U5 third pin ground connection, the first pin and carrier wave Microprocessor is connected.Firewire L01, zero curve N01 are connected with alternating voltage.

The utility model has the advantages that: have crash simulation, the simulation of RS485 communication abnormality and bearer communication simulation function extremely Energy；It is exported by I/O and realizes collector crash function, circuit structure is simple；It is real that simulated failure control panel controls collector mainboard Existing fault simulation, collector basic function and simulated failure function are not interfere with each other.

Detailed description of the invention

Fig. 1 is a kind of schematic diagram of the utility model.

Fig. 2 is a kind of circuit diagram of carrier transmitting-receiving circuit.

Fig. 3 is a kind of circuit diagram of zero cross detection circuit.

The first RS485 module 6- of 1- power module 2- carrier module 3- carrier wave micro treatment module 4- display module 5- 2nd RS485 module 7- microprocessor 8-I/O module 9- other emulators.

Specific embodiment

Below with reference to the embodiments and with reference to the accompanying drawing being further described to the technical solution of the utility model.

Embodiment:

A kind of emulation collector suitable for emulation training of the present embodiment, as shown in Figure 1, including collector mainboard and simulation Fault Control plate, the collector mainboard include carrier wave microprocessor 3, carrier module 2, the first RS485 module 5, display mould Block 4 and power module 1 for collector main board power supply, carrier module, RS485 communication module and display module are micro- with carrier wave respectively Processor is connected, and the simulated failure control panel includes the 2nd RS485 module 6, microprocessor 7 and I/O module 8, and second RS485 module and I/O module are connected with microprocessor respectively.The collector mainboard by the first RS485 module 5 respectively with Simulated failure control panel is connected with other emulators 9, and the simulated failure control panel is distinguished by the 2nd RS485 module 6 It is connected 9 with collector mainboard and other emulators.The reseting pin of the carrier wave microprocessor is connected with I/O module 8.

Collector mainboard has the function of the function such as normal collector, including carrier meter reading, carrier-current relaying in the utility model Can, collector mainboard operating status is reacted by display module.Simulated failure control panel is by the 2nd RS485 module received from it The simulated failure order of its emulator controls collector by the 2nd RS485 module and the first RS485 module and I/O module Mainboard operation, collector mainboard are communicated by the first RS485 module with other emulators.

Carrier module includes carrier transmitting-receiving circuit and voltage zero-crossing detection circuit, and carrier transmitting-receiving circuit and voltage zero-cross detect Circuit is connected with carrier wave microprocessor 3 respectively.As shown in Fig. 2, carrier transmitting-receiving circuit includes inductance L1, L2, L6, diode D2, D3, D4, D5, D8, D9, bilateral diode D6, triode Q1, Q3, Q4, Q5, Q6, resistance R9, R10, R13, R14, R18, R19, R23, capacitor C4, C6, C7, C15, C16, C17, C18, C19, C20, C21, an analog signal input port SIGIN, a number Signal output PSK_OUT, power supply VCC, VHH are grounded GND1, GND2, and firewire L, zero curve N and several conducting wires, analog signal are defeated Entrance SIGIN is connected with capacitor C16, the capacitor C16 other end respectively with inductance L6, capacitor C17, capacitor C15 and triode Q1 Collector be connected, the capacitor L6 other end is connected with resistance R13, resistance R13, capacitor C17, the capacitor C15 other end with power supply VCC It is connected, triangular pipe Q1 emitter is connected with resistance R18 and capacitor C20 respectively, and resistance R18 and capacitor C20 meet GND1, triode Q1 Base stage be connected respectively with resistance R19, resistance R23 and capacitor C19, another termination VCC of resistance R19, another termination of resistance R23 GND1, capacitor the C19 other end respectively with diode D9 anode, diode D8 cathode, inductance L1, capacitor C18 and resistance R14 phase Even, diode D9 cathode, diode D8 anode, inductance L1 and capacitor C18 meet GND1, the resistance R14 other end respectively with it is two-way Diode D6, inductance L2 are connected with the second pin of transformer T2, and the of bilateral diode D6 another termination GND1, transformer T2 Four pins meet GND1, and the first pin of transformer T2 meets capacitor C21, and the capacitor C21 other end is connected with firewire L, transformer T2's Third pin is connected with zero curve N, and the inductance L2 other end is connected with battery C4, the capacitor C4 other end respectively with diode D2 anode, Diode D3 cathode is connected with the emitter of triode Q4, Q3, and diode D2 cathode meets VHH, and diode D3 anode meets GND2, and three Pole pipe Q4 collector meets VHH, and triode Q3 collector meets GND2, the base stage of triode Q3, Q4 collection with triode Q5, Q6 respectively Electrode is connected, and triode Q5 emitter meets VHH, and base stage is connected with resistance R9, diode D4 anode respectively, and diode D4 meets VHH, Resistance R9 is connected with capacitor C6, and the capacitor C6 other end is connected with digital signal delivery outlet PSK_OUT, and triode Q6 emitter connects GND2, triode Q6 base stage are connected with diode D5 cathode, resistance R10 respectively, and diode D5 anode meets GND2, and resistance R10 is another One end is connected with capacitor C7, and the capacitor C7 other end is connected with digital signal delivery outlet PSK_OUT.Inductance L2, L6 are ribbon core electricity Sense, L1 are air core inductor, and diode D4, D5 are zener diode, and triode Q3, Q5 are PNP type triode, triode Q1, Q4, Q6 is NPN type triode.

As shown in figure 3, zero cross detection circuit includes resistance R30, R31, diode D1, linear optical coupling U5, firewire L01, zero Line N01 and several conducting wires, the one end resistance R8 are connected with firewire L01, the other end respectively with the cathode and linear optical coupling of diode D1 The first pin of U5 is connected, and the one end resistance R9 is connected with zero curve N01, the other end respectively with the anode and linear optical coupling of diode D1 The second pin be connected, linear optical coupling U5 third pin ground connection, the first pin is connected with carrier wave microprocessor.

The specific embodiments described herein are merely examples of the spirit of the present invention.The utility model institute Belonging to those skilled in the art can make various modifications or additions to the described embodiments or using similar Mode substitute, but without departing from the spirit of the present application or beyond the scope of the appended claims.

Be not precluded although being used more herein the terms such as power module, display module using other terms can It can property.The use of these terms is merely for the convenience of describing and explaining the nature of the invention；It is construed as appointing The additional limitation of what one kind is all contrary to the spirit of the present invention.

Claims (7)

1. a kind of emulation collector suitable for emulation training, it is characterized in that: including collector mainboard and simulated failure control panel, The collector mainboard includes carrier wave microprocessor (3), carrier module (2), the first RS485 module (5), display module (4) And the power module (1) for collector main board power supply, carrier module, RS485 communication module and display module are micro- with carrier wave respectively Processor is connected, and the simulated failure control panel includes the 2nd RS485 module (6), microprocessor (7) and I/O module (8), 2nd RS485 module and I/O module are connected with microprocessor respectively.

2. the emulation collector according to claim 1 suitable for emulation training, it is characterized in that: the collector mainboard It is connected respectively with simulated failure control panel and other emulators (9) by the first RS485 module (5), the simulated failure Control panel is connected with collector mainboard and other emulators (9) respectively by the 2nd RS485 module (6).

3. the emulation collector according to claim 1 suitable for emulation training, the reset of the carrier wave microprocessor Pin is connected with I/O module (8).

4. the emulation collector according to claim 1 suitable for emulation training, it is characterized in that: the carrier module includes Carrier transmitting-receiving circuit and voltage zero-crossing detection circuit, carrier transmitting-receiving circuit and voltage zero-crossing detection circuit respectively with carrier wave micro process Device (3) is connected.

5. the emulation collector according to claim 4 suitable for emulation training, it is characterized in that: the carrier transmitting-receiving circuit Including inductance L1, L2, L6, diode D2, D3, D4, D5, D8, D9, bilateral diode D6, triode Q1, Q3, Q4, Q5, Q6, electricity Hinder R9, R10, R13, R14, R18, R19, R23, capacitor C4, C6, C7, C15, C16, C17, C18, C19, C20, C21, a mould Quasi- signal input SIGIN, digital signal output a PSK_OUT, power supply VCC, VHH, are grounded GND1, GND2, firewire L, Zero curve N and several conducting wires, analog signal input port SIGIN are connected with capacitor C16, the capacitor C16 other end respectively with inductance L6, electricity Appearance C17, capacitor C15 are connected with the collector of triode Q1, and the capacitor L6 other end is connected with resistance R13, resistance R13, capacitor C17, the capacitor C15 other end are connected with power supply VCC, and triangular pipe Q1 emitter is connected with resistance R18 and capacitor C20 respectively, electricity Resistance R18 and capacitor C20 meets GND1, and the base stage of triode Q1 is connected with resistance R19, resistance R23 and capacitor C19 respectively, resistance R19 Another termination GND1 of another termination VCC, resistance R23, the capacitor C19 other end respectively with diode D9 anode, diode D8 cathode, Inductance L1, capacitor C18 are connected with resistance R14, and diode D9 cathode, diode D8 anode, inductance L1 and capacitor C18 connect GND1, resistance the R14 other end are connected with the second pin of bilateral diode D6, inductance L2 and transformer T2 respectively, two-way two pole Another termination GND1 of pipe D6, the 4th pin of transformer T2 meet GND1, and the first pin of transformer T2 meets capacitor C21, capacitor C21 The other end is connected with firewire L, and the third pin of transformer T2 is connected with zero curve N, and the inductance L2 other end is connected with battery C4, capacitor The C4 other end is connected with the emitter of diode D2 anode, diode D3 cathode and triode Q4, Q3 respectively, diode D2 cathode VHH is met, diode D3 anode meets GND2, and triode Q4 collector meets VHH, and triode Q3 collector meets GND2, triode Q3, Q4 Base stage be connected respectively with the collector of triode Q5, Q6, triode Q5 emitter meets VHH, base stage respectively with resistance R9, two poles Pipe D4 anode is connected, and diode D4 meets VHH, and resistance R9 is connected with capacitor C6, the capacitor C6 other end and digital signal delivery outlet PSK_OUT is connected, and triode Q6 emitter meets GND2, and triode Q6 base stage is connected with diode D5 cathode, resistance R10 respectively, Diode D5 anode meets GND2, and the resistance R10 other end is connected with capacitor C7, the capacitor C7 other end and digital signal delivery outlet PSK_ OUT is connected.

6. the emulation collector according to claim 5 suitable for emulation training, it is characterized in that: described inductance L2, L6 For ribbon core inductance, L1 is air core inductor, and diode D4, D5 are zener diode, and triode Q3, Q5 are PNP type triode, three Pole pipe Q1, Q4, Q6 are NPN type triode.

7. the emulation collector according to claim 4 suitable for emulation training, it is characterized in that: the zero passage detection electricity Road includes resistance R30, R31, diode D1, linear optical coupling U5, firewire L01, zero curve N01 and several conducting wires, the one end resistance R8 with Firewire L01 be connected, the other end is connected with the first pin of the cathode of diode D1 and linear optical coupling U5 respectively, the one end resistance R9 and Zero curve N01 is connected, and the other end is connected with the second pin of the anode of diode D1 and linear optical coupling respectively, linear optical coupling U5 third Pin ground connection, the first pin are connected with carrier wave microprocessor.