CN104714502A - Control system - Google Patents

Abstract

The invention provides a control system. The control system comprises an auxiliary current transformer unit, a communication unit, a processing unit, a display unit, a first control unit and a power supply unit. The auxiliary current transformer unit is used for controlling load equipment according to a control command sent by the processing unit, collecting operating parameters of the load equipment, and sending the operating parameters to the processing unit through the communication unit. The communication unit is used for communicating the auxiliary current transformer unit with the processing unit. The processing unit is used for receiving the control command sent by the first control unit, sending the control command to the auxiliary current transformer unit, receiving the operating parameters sent by the auxiliary current transformer unit, and sending the operating parameters to the display unit for display. The display unit is used for displaying the operating parameters. The first control unit is used for generating the control command and sending the control command to the processing unit. The power supply unit is used for supplying a working power source to the auxiliary current transformer unit, the processing unit, the display unit and the first control unit. Thus, the working efficiency and reliability of an auxiliary transmission system are improved in a centralized control and management mode.

Description

Control system

Technical field

The present invention relates to network control technology, particularly relate to a kind of control system.

Background technology

Along with expanding economy, the requirement of railway transportation capability is improved gradually, the demand of railway locomotive is also increased day by day.Circuit running test must be carried out, to ensure the realization of the traveling of locomotive and traction, braking characteristic when every platform locomotive dispatches from the factory.Usual employing locomotive stationary rolling test rig, is controlled it by simple and effective method, makes it to play specific speed and tractive force or damping force, tests out the complete characteristic curve of locomotive.

Existing rolling rig generally comprises main transmission, accessory drive system and control system.Wherein, accessory drive system mainly completes heat radiation and the refrigerating function of the equipment such as motor and regulator cubicle.The mode of existing accessory drive system many employings decentralised control and management, that is, the control box near equipment place or equipment manipulates it.The running status of equipment can be observed comparatively intuitively according to steering order.

But, use the mode of decentralised control and management, in process of the test, often need operating personnel to arrive multiple position to operate, easily produce the phenomenon of leaking operation or maloperation, the low and inefficiency of reliability.

Summary of the invention

The invention provides a kind of control system, for being improved work efficiency and the reliability of accessory drive system by the mode of centralized control and management.

The invention provides a kind of control system, wherein, comprise the AuCT unit, communication unit, processing unit, display unit, the first control module that connect successively, and the power supply unit be connected with described AuCT unit, described processing unit, described display unit and described first control module respectively;

Wherein, described AuCT unit is used for the control command control load equipment sent according to described processing unit, gathers the operational factor of described load equipment, and by described communication unit, described operational factor is sent to described processing unit;

Described communication unit is used for described AuCT unit is communicated with described processing unit;

The described control command that described processing unit sends for receiving described first control module, and described control command is sent to described AuCT unit, receive the described operational factor that described AuCT unit sends, and send to described display unit to show described operational factor;

Described display unit is for showing described operational factor;

Described control command for generating described control command, and is sent to described processing unit by described first control module;

Described power supply unit is used for providing working power to described AuCT unit, described processing unit, described display unit and described first control module.

Control system as above, wherein, described AuCT unit comprises at least one AuCT; Each described AuCT is connected with described communication unit by Ethernet cable.

Control system as above, wherein, is all connected by double-unit traction controller cable between described communication unit, described processing unit, described display unit with described first control module.

Control system as above, wherein, described first control module comprises far-end input and output RIOM assembly, the first switch module and the first indicating lamp component; Described RIOM assembly comprises gateway module, On-off signal DI module and output switch parameter DO module, described gateway module, described DI module and described DO module are connected by controller local area network CAN cable successively, described DI module is connected by rigid line with described first switch module, and described DO module is connected by rigid line with described first indicating lamp component;

Wherein, described gateway module is used for making described DI module, described DO module communicates with described display unit; Described DI module is for gathering the switching information of described first switch module and generating described control command; Described DO module is for driving described first indicating lamp component.

Control system as above, wherein, described first switch module comprises the first on off control switch corresponding with each described AuCT, knob and the first reset button are selected in the first frequency conversion;

Wherein, described first on off control switch is for controlling startup and the stopping of described AuCT; Described first frequency conversion selects knob to be used for selecting the output frequency of described AuCT; Described first reset button is used for carrying out reset operation when described AuCT fault to the control circuit of described AuCT.

Control system as above, wherein, described first indicating lamp component comprises the first startup pilot lamp, first frequency selects pilot lamp and Fisrt fault pilot lamp;

Wherein, described first starts pilot lamp for showing the state of described AuCT; Described first frequency selects pilot lamp to be used for showing the state of the output frequency of described AuCT; Described Fisrt fault pilot lamp is used to indicate described AuCT whether fault.

Control system as above, wherein, described power supply unit comprises the first supply module and the second supply module; Wherein, described first supply module is used for providing working power to described processing unit, described display unit and described first control module; Described second supply module is used for providing working power to described AuCT unit.

Control system as above, wherein, described control system also comprises the second control module; Described second control module comprises second switch assembly and the second indicating lamp component; Described second switch assembly is all connected with each described AuCT by rigid line with described second indicating lamp component.

Control system as above, wherein, described second switch assembly comprises the second on off control switch corresponding with each described AuCT, knob, the second reset button and control mode switch switch are selected in the second frequency conversion;

Wherein, described second on off control switch is for controlling startup and the stopping of described AuCT; Described second frequency conversion selects knob to be used for selecting the output frequency of described AuCT; Described second reset button is used for carrying out reset operation when described AuCT fault to the control circuit of described AuCT; Described control mode switch switch is used for switching between the first control model and the second control model.

Control system as above, wherein, described second indicating lamp component comprises the second startup pilot lamp, second frequency selects pilot lamp and the second malfunction indicator lamp;

Wherein, described second starts pilot lamp for showing the state of described AuCT; Described second frequency selects pilot lamp to be used for showing the state of the output frequency of described AuCT; Described second malfunction indicator lamp is used to indicate described AuCT whether fault.

Control system as above, wherein, carrying out control by described first control module is described first control model, and carrying out control by described second control module is described second control model.

Control system as above, wherein, described first indicating lamp component also comprises the second control model pilot lamp, is used to indicate described second control model; Described second indicating lamp component also comprises the first control model pilot lamp, is used to indicate described first control model.

Control system provided by the invention, comprise the AuCT unit, communication unit, processing unit, display unit, the first control module that connect successively, and the power supply unit be connected with described AuCT unit, described processing unit, described display unit and described first control module respectively; Wherein, described AuCT unit is used for the control command control load equipment sent according to described processing unit, gathers the operational factor of described load equipment, and by described communication unit, described operational factor is sent to described processing unit; Described communication unit is used for described AuCT unit is communicated with described processing unit; The described control command that described processing unit sends for receiving described first control module, and described control command is sent to described AuCT unit, receive the described operational factor that described AuCT unit sends, and send to described display unit to show described operational factor; Described display unit is for showing described operational factor; Described control command for generating described control command, and is sent to described processing unit by described first control module; Described power supply unit is used for providing working power to described AuCT unit, described processing unit, described display unit and described first control module.Thus work efficiency and the reliability of accessory drive system is improved by the mode of centralized control and management.

Accompanying drawing explanation

Fig. 1 is the structural representation of control system embodiment one of the present invention;

Fig. 2 is the structural representation of power supply unit in control system embodiment one of the present invention;

Fig. 3 is the structural representation of communication unit in control system embodiment one of the present invention;

Fig. 4 is the structural representation of the first control module in control system embodiment one of the present invention;

Fig. 5 is the structural representation of the first switch module in control system embodiment one of the present invention;

Fig. 6 is the structural representation of the first indicating lamp component in control system embodiment one of the present invention;

Fig. 7 is the structural representation of control system embodiment two of the present invention;

Fig. 8 is the structural representation of the second control module in control system embodiment two of the present invention;

Fig. 9 is the structural representation of second switch assembly in control system embodiment two of the present invention;

Figure 10 is the structural representation of the second indicating lamp component in control system embodiment two of the present invention.

Embodiment

Fig. 1 is the structural representation of control system embodiment one of the present invention; Fig. 2 is the structural representation of power supply unit in control system embodiment one of the present invention; Fig. 3 is the structural representation of communication unit in control system embodiment one of the present invention; Fig. 4 is the structural representation of the first control module in control system embodiment one of the present invention; Fig. 5 is the structural representation of the first switch module in control system embodiment one of the present invention; Fig. 6 is the structural representation of the first indicating lamp component in control system embodiment one of the present invention.Referring to figs. 1 through Fig. 6, the control system 10 that the present embodiment provides can comprise the AuCT unit 100, communication unit 200, processing unit 300, display unit 400, first control module 500 that connect successively, and the power supply unit 600 be connected with AuCT unit 100, processing unit 300, display unit 400 and the first control module 500 respectively.

Wherein, the control command control load equipment of AuCT unit 100 for sending according to processing unit 300, gathers the operational factor of load equipment, and by communication unit 200, operational factor is sent to processing unit 300; Communication unit 200 communicates with processing unit 300 for making AuCT unit 100; The control command that processing unit 300 sends for receiving the first control module 500, and control command is sent to AuCT unit 100, receive the operational factor that AuCT unit 100 sends, and operational factor sent to display unit 400 to show; Display unit 400 is for showing operational factor; Control command for generating control command, and is sent to processing unit 300 by the first control module 500; Power supply unit 600 is for providing working power to AuCT unit 100, processing unit 300, display unit 400 and the first control module 500.

Concrete, as shown in Figure 2, power supply unit 600 comprises the first supply module 601 and the second supply module 602; Wherein, the first supply module 601 provides working power for giving processing unit 300, display unit 400 and the first control module 500; Second supply module 602 provides working power for giving AuCT unit 100.

In practical application, first supply module 601 can for exchanging (Alternating Current, be called for short: the AC) power supply of 220V, processing unit 300, display unit 400 are all connected with AC220V power supply by wire with the power input interface of the first control module 500; Second supply module 602 can be the power supply of AC380V, and the power input interface of AuCT unit 100 connects AC380V power supply by wire, and the power output interface of AuCT unit 100 connects load equipment by wire.

Concrete, AuCT unit 100 comprises at least one AuCT; Each AuCT is connected with communication unit 200 by Ethernet cable.Communication unit 200, processing unit 300, between display unit 400 and the first control module 500 all by MVB (Multifunction VehicleBus, be called for short: MVB) cable connect.

In practical application, what AuCT inputted is AC380V normal voltage, exports the three-phase alternating current into variable ratio frequency changer transformation.AuCT can realize starting the variable-frequency variable-voltage of load equipment, to reduce impact on prime electrical network when load equipment starts, makes load equipment can normal startup optimization.AuCT can according to control command, realizes the selection of AuCT output frequency, the reset of the on off control of AuCT and AuCT controls; And realize He Ne laser instruction and the instruction of start and stop state.The network control interface type of AuCT is ethernet type.

As shown in Figure 3, communication unit 200 comprises ethernet concentrator 201 and MVB gateway 202, the network control interface of each AuCT is all connected to ethernet concentrator 201 by Ethernet cable, ethernet concentrator 201 is by proposed standard (Recommended Standard, be called for short: RS) 232 interfaces are connected to MVB gateway 202, MVB gateway 202 and are connected to processing unit 300 by MVB cable.

Processing unit 300 can carry out the management of MVB cable, realize network data processing function, (RemoteInput/Output Module is called for short: the RIOM) process of assembly instruction and the process of display unit 400 instruction for the process of the such as input and output instruction of AuCT unit 100, far-end input and output.

Further, as shown in Figure 4, the first control module 500 can comprise RIOM assembly 510, first switch module 520 and the first indicating lamp component 530; RIOM assembly 510 comprises gateway module, On-off signal (Digital Input, be called for short: DI) module, output switch parameter (Digital Output, be called for short: DO) module, gateway module is connected with display unit 400 by MVB cable, gateway module, DI module and DO module are successively by controller local area network (Controller Area Network, be called for short: CAN) cable connects, DI module is connected by rigid line with the first switch module 520, and DO module is connected by rigid line with the first indicating lamp component 530; Wherein, gateway module is used for making DI module, DO module communicates with display unit 400; DI module is for gathering the switching information of the first switch module 520 and generating control command; DO module is for driving the first indicating lamp component 530.It should be noted that, gateway module can carry out the conversion of MVB agreement and CAN protocol, thus realizes DI module, communication between DO module and display unit 400.

Concrete, as shown in Figure 5, the first switch module 520 can comprise first on off control switch 521, first frequency conversion corresponding with each AuCT and select knob 522 and the first reset button 523; Wherein, the first on off control switch 521 is for controlling startup and the stopping of AuCT; First frequency conversion selects knob 522 for selecting the output frequency of AuCT; First reset button 523 is for carrying out reset operation to the control circuit of AuCT when AuCT fault.

As shown in Figure 6, the first indicating lamp component 530 can comprise the first startup pilot lamp 531, first frequency selects pilot lamp 532, Fisrt fault pilot lamp 533; Wherein, first starts pilot lamp 531 for showing the state of AuCT; First frequency selects pilot lamp 532 to show for the state of the output frequency to AuCT; Fisrt fault pilot lamp 533 is used to indicate AuCT whether fault.

It should be noted that, first starts pilot lamp 531 can light when AuCT starts, and extinguishes when AuCT is out of service; First frequency selects pilot lamp 532 can be shown by the output frequency that the light of different colours is different to AuCT, such as, when the output frequency of AuCT is 50Hz, first frequency selects pilot lamp 532 can show red light, when the output frequency of AuCT is 100Hz, first frequency selects pilot lamp 532 can show yellow light; Fisrt fault pilot lamp 533 can light when AuCT fault, extinguishes after AuCT resets.The present embodiment does not limit this.

During actual use, the control system that the present embodiment provides specifically can be applied on remote console, staff can carry out control operation by the first switch module 520 on remote console, concrete, staff can select knob to select the output frequency of AuCT by the first frequency corresponding with each AuCT, and selects pilot lamp 532 to carry out state display by first frequency; By the startup of the first on off control switch 521 pair AuCTs corresponding with each AuCT with out of servicely to control, and start pilot lamp 531 by first and carry out state display; When there being AuCT to occur operation troubles, the Fisrt fault pilot lamp 533 corresponding with this AuCT lights, staff is after discovery Fisrt fault pilot lamp 533 lights, reset operation can be carried out by the control circuit of corresponding first reset button 523 pairs of AuCTs, after reset operation completes, Fisrt fault pilot lamp 533 extinguishes.Switching information corresponding to aforesaid operations all can by DI module acquires to, and generate corresponding control command according to the switching information gathered and send to AuCT; When after the normal startup optimization of accessory drive system, each AuCT gathers operational factor, and be sent to processing unit 300 through communication unit 200, after data processing, be sent to display unit 400 show, thus the Long-distance Control completed accessory drive system, and work efficiency and reliability high.

The technical scheme of the present embodiment, the AuCT unit, communication unit, processing unit, display unit, the first control module that connect successively are set in the controls, and the power supply unit be connected with AuCT unit, processing unit, display unit and the first control module respectively; Wherein, AuCT unit is used for the control command control load equipment sent according to processing unit, gathers the operational factor of load equipment, and by communication unit, operational factor is sent to processing unit; Communication unit is used for AuCT unit is communicated with processing unit; The control command that processing unit sends for receiving the first control module, and control command is sent to AuCT unit, receive the operational factor that AuCT unit sends, and send to display unit to show operational factor; Display unit is for showing operational factor; Control command for generating control command, and is sent to processing unit by the first control module; Power supply unit is used for providing working power to AuCT unit, processing unit, display unit and the first control module.Thus work efficiency and the reliability of accessory drive system is improved by the mode of centralized control and management.

Fig. 7 is the structural representation of control system embodiment two of the present invention; Fig. 8 is the structural representation of the second control module in control system embodiment two of the present invention; Fig. 9 is the structural representation of second switch assembly in control system embodiment two of the present invention; Figure 10 is the structural representation of the second indicating lamp component in control system embodiment two of the present invention.With reference to Fig. 7 to Figure 10, on the basis of above-described embodiment, the control system that the present embodiment provides can also comprise the second control module 700; As shown in Figure 8, the second control module 700 comprises second switch assembly 710 and the second indicating lamp component 720; Second switch assembly 710 is all connected with each AuCT by rigid line with the second indicating lamp component 720.

Concrete, as shown in Figure 9, second switch assembly 710 can comprise second on off control switch 711, second frequency conversion corresponding with each AuCT and select knob 712, second reset button 713 and control mode switch switch 714; Wherein, the second on off control switch 711 is for controlling startup and the stopping of AuCT; Second frequency conversion selects knob 712 for selecting the output frequency of AuCT; Second reset button is used for carrying out reset operation when AuCT fault to the control circuit of AuCT; Control mode switch switch 714 for switching between the first control model and the second control model.

As shown in Figure 10, the second indicating lamp component 720 can comprise the second startup pilot lamp 721, second frequency selects pilot lamp 722, second malfunction indicator lamp 723; Wherein, second starts pilot lamp 721 for showing the state of AuCT; Second frequency selects pilot lamp 722 to show for the state of the output frequency to AuCT; Second malfunction indicator lamp 723 is used to indicate AuCT whether fault.

In practical application, second switch assembly 710 and the second indicating lamp component 720 can be arranged on local AuCT cashier's office in a shop, to realize the local centralized control to accessory drive system.

It should be noted that, carrying out control by the first control module 500 is the first control model, and carrying out control by the second control module 700 is the second control model.Optional, the first indicating lamp component 530 in first control module 500 can also comprise the second control model pilot lamp, be used to indicate the second control model, i.e. local control model, when the staff before remote console sees that the second control model pilot lamp lights, can be informed in workshop and have staff to carry out control operation to accessory drive system, then the staff before remote console will not operate; Accordingly, the second indicating lamp component 720 in second control module 700 can also comprise the first control model pilot lamp, be used to indicate the first control model, i.e. distance control mode, when the staff in workshop sees that the second control model pilot lamp lights, have staff to carry out control operation to accessory drive system before can being informed in remote console, then the staff in workshop will not operate.

In the process that reality uses, according to applying working condition, local control model or distance control mode can be selected by control mode switch switch 714 cashier's office in a shop at AuCT.When selecting local control model, the first switch module 520 lost efficacy, and second switch assembly 710 is effective; When selecting distance control mode, the first switch module 520 is effective, and second switch assembly 710 lost efficacy; But no matter select local control model or distance control mode, the first indicating lamp component 530 and the second indicating lamp component 720 all effective.Concrete, generally select local control model during debugging and maintenance, during normal use, generally select distance control mode.

If select local control model, then carry out control operation by AuCT second switch assembly 710 cashier's office in a shop.Select the output frequency of knob 712 pairs of AuCTs to select by the second frequency conversion corresponding with each AuCT, and select pilot lamp 532 and second frequency to select pilot lamp 722 to carry out state display by first frequency simultaneously; By the startup of the second on off control switch 711 pair AuCTs corresponding with each AuCT with out of servicely to control, and start pilot lamp 531 and second by first and start pilot lamp 721 and carry out state display simultaneously; When there being AuCT to occur operation troubles, the Fisrt fault pilot lamp 533 corresponding with the AuCT broken down and the second malfunction indicator lamp 723 all light, staff carries out reset operation by the second reset button to the control circuit of AuCT, after having operated, Fisrt fault pilot lamp 533 and the second malfunction indicator lamp 723 are all extinguished.

If selection distance control mode, then carry out control operation by the first switch module 520 on remote console.Select the output frequency of knob 522 pairs of AuCTs to select by the first frequency conversion corresponding with each AuCT, and select pilot lamp 532 and second frequency to select pilot lamp 722 to carry out state display by first frequency simultaneously; By the startup of the first on off control switch 521 pair AuCTs corresponding with each AuCT with out of servicely to control, and start pilot lamp 531 and second by first and start pilot lamp 721 and carry out state display simultaneously; When there being AuCT to occur operation troubles, the Fisrt fault pilot lamp 533 corresponding with the AuCT broken down and the second malfunction indicator lamp 723 all light, staff carries out reset operation by the control circuit of the first reset button 523 pairs of AuCTs, after having operated, Fisrt fault pilot lamp 533 and the second malfunction indicator lamp 723 are all extinguished.

When after the normal startup optimization of accessory drive system, each AuCT gathers operational factor, and be sent to processing unit 300 through communication unit 200, after data processing, be sent to display unit 400 show, thus the Long-distance Control completed accessory drive system, and work efficiency and reliability high.

The technical scheme of the present embodiment, two kinds of control models can be passed through, make staff according to actual condition, switch between local control model and distance control mode, the needs of the Long-distance Control when needs that this locality when having taken into account debugging and maintenance controls and normal use, thus work efficiency and the reliability of accessory drive system is improved by the mode of centralized control and management.

Last it is noted that above each embodiment is only in order to illustrate technical scheme of the present invention, be not intended to limit; Although with reference to foregoing embodiments to invention has been detailed description, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein some or all of technical characteristic; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the scope of various embodiments of the present invention technical scheme.

Claims (12)

1. a control system, it is characterized in that, comprise the AuCT unit, communication unit, processing unit, display unit, the first control module that connect successively, and the power supply unit be connected with described AuCT unit, described processing unit, described display unit and described first control module respectively;

Wherein, described AuCT unit is used for the control command control load equipment sent according to described processing unit, gathers the operational factor of described load equipment, and by described communication unit, described operational factor is sent to described processing unit;

Described communication unit is used for described AuCT unit is communicated with described processing unit;

The described control command that described processing unit sends for receiving described first control module, and described control command is sent to described AuCT unit, receive the described operational factor that described AuCT unit sends, and send to described display unit to show described operational factor;

Described display unit is for showing described operational factor;

Described control command for generating described control command, and is sent to described processing unit by described first control module;

Described power supply unit is used for providing working power to described AuCT unit, described processing unit, described display unit and described first control module.

2. control system according to claim 1, is characterized in that, described AuCT unit comprises at least one AuCT; Each described AuCT is connected with described communication unit by Ethernet cable.

3. control system according to claim 2, is characterized in that, is all connected by double-unit traction controller cable between described communication unit, described processing unit, described display unit with described first control module.

4. control system according to claim 3, is characterized in that, described first control module comprises far-end input and output RIOM assembly, the first switch module and the first indicating lamp component; Described RIOM assembly comprises gateway module, On-off signal DI module and output switch parameter DO module, described gateway module, described DI module and described DO module are connected by controller local area network CAN cable successively, described DI module is connected by rigid line with described first switch module, and described DO module is connected by rigid line with described first indicating lamp component;

Wherein, described gateway module is used for making described DI module, described DO module communicates with described display unit; Described DI module is for gathering the switching information of described first switch module and generating described control command; Described DO module is for driving described first indicating lamp component.

5. control system according to claim 4, is characterized in that, described first switch module comprises the first on off control switch corresponding with each described AuCT, knob and the first reset button are selected in the first frequency conversion;

Wherein, described first on off control switch is for controlling startup and the stopping of described AuCT; Described first frequency conversion selects knob to be used for selecting the output frequency of described AuCT; Described first reset button is used for carrying out reset operation when described AuCT fault to the control circuit of described AuCT.

6. control system according to claim 4, is characterized in that, described first indicating lamp component comprises the first startup pilot lamp, first frequency selects pilot lamp and Fisrt fault pilot lamp;

Wherein, described first starts pilot lamp for showing the state of described AuCT; Described first frequency selects pilot lamp to be used for showing the state of the output frequency of described AuCT; Described Fisrt fault pilot lamp is used to indicate described AuCT whether fault.

7. control system according to claim 1, is characterized in that, described power supply unit comprises the first supply module and the second supply module; Wherein, described first supply module is used for providing working power to described processing unit, described display unit and described first control module; Described second supply module is used for providing working power to described AuCT unit.

8., according to the arbitrary described control system of claim 1-7, it is characterized in that, described control system also comprises the second control module; Described second control module comprises second switch assembly and the second indicating lamp component; Described second switch assembly is all connected with each described AuCT by rigid line with described second indicating lamp component.

9. control system according to claim 8, is characterized in that, described second switch assembly comprises the second on off control switch corresponding with each described AuCT, knob, the second reset button and control mode switch switch are selected in the second frequency conversion;

Wherein, described second on off control switch is for controlling startup and the stopping of described AuCT; Described second frequency conversion selects knob to be used for selecting the output frequency of described AuCT; Described second reset button is used for carrying out reset operation when described AuCT fault to the control circuit of described AuCT; Described control mode switch switch is used for switching between the first control model and the second control model.

10. control system according to claim 8, is characterized in that, described second indicating lamp component comprises the second startup pilot lamp, second frequency selects pilot lamp and the second malfunction indicator lamp;

Wherein, described second starts pilot lamp for showing the state of described AuCT; Described second frequency selects pilot lamp to be used for showing the state of the output frequency of described AuCT; Described second malfunction indicator lamp is used to indicate described AuCT whether fault.

11. control system according to claim 9, is characterized in that, carrying out control by described first control module is described first control model, and carrying out control by described second control module is described second control model.

12. control system according to claim 11, is characterized in that, described first indicating lamp component also comprises the second control model pilot lamp, are used to indicate described second control model; Described second indicating lamp component also comprises the first control model pilot lamp, is used to indicate described first control model.