CN112736749A

CN112736749A - KYN high tension switchgear intelligence control system

Info

Publication number: CN112736749A
Application number: CN202110085265.6A
Authority: CN
Inventors: 庄志忠; 杨开怀; 邹泽昌; 叶惠娟; 缪秋莲; 张继东
Original assignee: FUJIAN SYNPOWER ELECTRIC EQUIPMENT CO LTD; Fujian Chuanzheng Communications College
Current assignee: FUJIAN SYNPOWER ELECTRIC EQUIPMENT CO LTD; Fujian Chuanzheng Communications College
Priority date: 2021-01-22
Filing date: 2021-01-22
Publication date: 2021-04-30
Anticipated expiration: 2041-01-22
Also published as: CN112736749B

Abstract

The invention provides an intelligent control system of a KYN high-voltage switch cabinet, which is characterized by comprising the following components: the intelligent controller is respectively connected with a circuit breaker energy storage motor, a chassis handcart driving mechanism, a grounding knife switch driving mechanism and a circuit breaker opening and closing driving mechanism, and a grounding knife switch closing limit switch, a grounding knife switch opening limit switch, a chassis handcart rolling-in limit switch, a chassis handcart withdrawing limit switch, a circuit breaker energy storage limit switch, a circuit breaker closing limit switch and a circuit breaker opening limit switch which are installed in a KYN high-voltage switch cabinet. The intelligent control of operations such as shaking in and out of a KYN high-voltage switch cabinet chassis handcart, switching on and off of a grounding knife switch, energy storage and switching on and off of a circuit breaker and the like is realized, the structure is simple, the maintenance is convenient, the adaptability is strong, the automation degree is high, and the working reliability is high.

Description

KYN high tension switchgear intelligence control system

Technical Field

The invention belongs to the technical field of switch cabinets, and particularly relates to an intelligent control system of a KYN high-voltage switch cabinet.

Background

The existing KYN high-voltage switch cabinet is not high in intelligent and automatic degree, when chassis handcart shaking-in and exiting, grounding switch on-off, breaker on-off and other operations need to be carried out, the manual operation is needed to be carried out, the in-place degree of the operation needs to be judged through experience, and the existing KYN high-voltage switch cabinet is complex and not reliable enough.

In the prior art, although some improvements are proposed in chinese patents CN 201320584298-a handcart type circuit breaker equipped with an electric chassis device, CN 201822019671-a vacuum circuit breaker with a mechanical interlocking device, etc., it is difficult to systematically solve the above problems, and there are still great defects in convenience and usability when used.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides the intelligent control system of the KYN high-voltage switch cabinet, the intelligent operation system of the KYN high-voltage switch cabinet is constructed through an intelligent controller (such as a PLC (programmable logic controller) and the like), and the intelligent control system is simple in structure, convenient to maintain, strong in adaptability, high in automation degree and high in working reliability.

The technical scheme is as follows:

the utility model provides a KYN high tension switchgear intelligence control system which characterized in that includes: the intelligent controller is respectively connected with the circuit breaker energy storage motor, the chassis handcart driving mechanism, the grounding knife switch driving mechanism and the circuit breaker opening and closing driving mechanism, and a grounding knife switch closing limit switch, a grounding knife switch opening limit switch, a chassis handcart swing-in limit switch, a chassis handcart withdrawing limit switch, a circuit breaker energy storage mechanism limit switch, a circuit breaker closing limit switch and a circuit breaker opening limit switch which are arranged in a KYN high-voltage switch cabinet;

the breaker energy storage motor is connected with the breaker; the chassis handcart driving mechanism is connected with a worm gear transmission mechanism of the chassis handcart; the grounding knife switch driving mechanism is connected with the grounding knife switch transmission mechanism; and the opening coil and the closing coil of the circuit breaker opening and closing driving mechanism are respectively connected with the circuit breaker.

Preferably, the grounding knife switch driving mechanism, the chassis handcart driving mechanism and the breaker energy storage mechanism are driven by motors.

Preferably, the intelligent control cabinet also comprises a front door lock limit switch and a rear door lock limit switch which are arranged on the cabinet door and connected with the intelligent controller.

Preferably, the earthing knife switch closing limit switch, the earthing knife switch opening limit switch, the chassis handcart shaking-in limit switch, the chassis handcart withdrawing limit switch, the circuit breaker energy storage mechanism limit switch, the circuit breaker closing limit switch, the circuit breaker opening limit switch, the front door lock limit switch and the rear door lock limit switch are all travel limit switches at least provided with one opening and one closing contact.

Preferably, the intelligent controller adopts an HIC-220/A central controller.

Preferably, the intelligent controller is connected with the key module.

Preferably, each motor and separating brake coil and closing coils are connected respectively through a plurality of 24V auxiliary relays to the intelligent control ware, wherein, auxiliary relay KA0, KA1 control earthing knife switch motor are just reversing, auxiliary relay KA2, KA3 are used for controlling chassis handcart motor and just reverse, auxiliary relay KA4 is used for controlling opening and stopping of circuit breaker energy storage motor, and auxiliary relay KA6, KA7 are used for controlling the break-make of circuit breaker separating brake coil and closing coils respectively.

Preferably, the normally open contacts of the grounding knife switch closing limit switch and the grounding knife switch opening limit switch are connected with the input point of the intelligent controller, and the normally closed contacts are respectively connected in series with the intermediate relay KA0 and the intermediate relay KA 1;

normally open contacts of the chassis handcart rolling-in limit switch and the chassis handcart withdrawing limit switch are connected with an input point of the intelligent controller, and the normally closed contacts are respectively connected with the intermediate relay KA2 and the intermediate relay KA3 in series;

a normally open contact of the circuit breaker energy storage limit switch is connected with an input point of the intelligent controller, and the normally closed contact is connected with the intermediate relay KA4 in series;

the normally open contacts of the breaker closing limit switch and the breaker opening limit switch are connected with the input point of the intelligent controller, and the normally closed contacts are connected in series with the intermediate relay KA6 and the intermediate relay KA7 respectively.

Preferably, the intelligent controller collects the operating environment temperature of the KYN high-voltage switch cabinet, the chassis handcart motor current, the grounding switch motor current and the alternating-current three-phase voltage for monitoring.

Preferably, the input points AD0, AD1, AD2 and AD3 of the intelligent controller are analog quantity acquisition points of a temperature isolator, a chassis handcart motor current transmitter, a grounding switch motor current transmitter and an alternating current three-phase voltage transmitter respectively, and are used for monitoring the environment temperature, the motor running state and whether the three phases are balanced or not.

The invention and the preferred scheme realize the intelligent control of operations such as shaking in and out of a KYN high-voltage switch cabinet chassis handcart, switching on and off of a grounding knife switch, energy storage and switching on and off of a circuit breaker and the like, and have the advantages of simple structure, convenient maintenance, strong adaptability, high automation degree and high working reliability.

Drawings

The invention is described in further detail below with reference to the following figures and detailed description:

fig. 1 is a schematic view of an overall structure of a KYN high-voltage switch cabinet according to an embodiment of the invention;

FIG. 2 is a schematic diagram of the system driver power connection according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of the wiring of the intelligent controller system according to the embodiment of the invention;

FIG. 4 is a schematic diagram of the system driving motor wiring according to the embodiment of the present invention;

in the figure: 1-power switch button; 2-an intelligent controller; 3-an energy storage transfer switch; 4-remote/local control switch; 5-main bus and branch bus; 6-main bus wall bushing; 7-contact box; 8-a current transformer; 9-a grounding switch drive mechanism; 10-limit switch of grounding switch; 11-a feeder cable; 12-a rear door limit switch; 13-a lightning arrester; 14-secondary cable channel; 15-earthing switch transmission mechanism; 16-chassis hand truck drive mechanism; 17-chassis handcart limit switch; 18-a switching-off coil; 19-a switching-on coil; 20-an energy storage motor; 21-a circuit breaker; 22-front door limit switch;

a: a bus chamber; b: a circuit breaker chamber; c: a cable chamber; d: an instrument room.

Detailed Description

In order to make the features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail as follows:

as shown in fig. 1 to 4, the device system scheme provided by this embodiment is based on an improvement of an existing KYN high-voltage switch cabinet, and the inside of the KYN high-voltage switch cabinet mainly includes a bus chamber a, a breaker chamber B, a cable chamber C, an instrument chamber D, and the like, wherein the main bus and branch bus 5, the main bus wall bushing 6, the contact box 7, the current transformer 8, the feeder cable 11, the lightning arrester 13, the secondary cable channel 14, the breaker 21, and the like are existing devices.

The improvement part that this embodiment provided mainly includes: the intelligent controller 2 with the color touch screen is arranged on the front side of the KYN high-voltage switch cabinet, the circuit breaker energy storage motor 20, the chassis handcart driving mechanism 16, the grounding knife switch driving mechanism 9 and the circuit breaker opening and closing driving mechanism are respectively connected with the intelligent controller 2, and the grounding knife switch limit switch 10 (comprising a grounding knife switch closing limit switch and a grounding knife switch opening limit switch), the chassis handcart limit switch 17 (comprising a chassis handcart swing-in limit switch and a chassis handcart exit limit switch) and a circuit breaker in-place dividing and closing sensor (comprising a circuit breaker closing limit switch and a circuit breaker opening limit switch), the circuit breaker energy storage limit switch, a rear threshold limit switch 12 and a front door limit switch 22 are arranged in the KYN high-voltage switch cabinet.

The ground switch driving mechanism, the chassis handcart driving mechanism and the breaker energy storage mechanism are driven by motors. Each limit switch adopts a travel limit switch at least provided with an open contact and a close contact.

The front door and the rear door closing limit switches, the grounding knife switch and closing limit switches, the chassis handcart shaking in and out limit switches and the circuit breaker and closing in-place sensors which are arranged in the cabinet input the position state information data into the intelligent controller and output the position state information data to the intermediate relay through collection and processing to control the operation of the energy storage motor, the grounding knife switch motor, the chassis handcart motor and the circuit breaker opening and closing electromagnetic coil. The input terminal of the motor and the coil is connected with an AC-to-DC 220V power supply, and the AC-to-DC 220V-to-24V power supply is connected with the input terminal of the intelligent controller.

As shown in fig. 1, wherein the circuit breaker energy storage motor is connected with the circuit breaker energy storage mechanism; the chassis handcart driving mechanism is connected with a worm gear transmission mechanism of the chassis handcart; the grounding knife switch driving mechanism is connected with the grounding knife switch transmission mechanism 15; the opening coil 18 and the closing coil 19 of the circuit breaker opening and closing driving mechanism are respectively connected with the circuit breaker.

In the embodiment, the intelligent controller adopts an HIC-220/A intelligent controller which is provided with a touch screen for convenient operation and is externally connected with an alternating current 220V to direct current 24V power supply.

As shown in fig. 1, in this embodiment, the intelligent controller is further connected to a key module, and the key module includes: the power switch button 1, the energy storage change-over switch 3 and the remote/local control switch 4 realize one-key control of opening and closing of the high-voltage switch cabinet; the configuration buttons in the touch screen are used for respectively controlling the starting and stopping of the circuit breaker energy storage motor, the chassis handcart driving mechanism, the grounding knife switch driving mechanism and the circuit breaker opening and closing driving mechanism; the system also comprises an emergency stop button, an operation state indication, a current voltage temperature indication and the like.

In this embodiment, the worm and gear transmission mechanism of the chassis handcart may be replaced by the one described in CN201320584298, a handcart type circuit breaker configured with an electric chassis handcart device, and the earthing switch transmission mechanism 15 may specifically adopt the one described in CN201420566130, earthing switch transmission mechanism.

FIG. 2 is a system driving power supply wiring diagram: the power supplies of a chassis handcart, a circuit breaker energy storage and grounding knife switch driving motor and a circuit breaker opening and closing coil are 220V direct-current power supplies, a system intelligent controller is connected with a 24V direct-current power supply, the two direct-current power supplies are connected with an alternating-current 220V power supply in a high-voltage cabinet, an emergency stop button SQ0 is connected in series at a fire wire end, and once the motor stalling or other abnormal conditions occur, the emergency stop button is pressed down to cut off the system power supply.

The intelligent controller system wiring diagram is shown in FIG. 3: the intelligent controller L, N is connected with a 24V direct-current power supply through a contact, a grounding knife switch closing limit switch SQ0, a grounding knife switch opening limit switch SQ1, a chassis handcart swing-in limit switch SQ2, a chassis handcart swing-out limit switch SQ3, a breaker energy storage limit switch SQ4, a breaker energy storage switch S1, a breaker closing limit switch SQ6, a breaker opening limit switch SQ7, a high-voltage cabinet front door lock limit switch SQ8 and a rear door lock limit switch SQ8, the controller starts a power button SD, a local/remote control breaker opening and closing switch, the intelligent controller is respectively connected with input points X8, X8 and X8 KA, the intelligent controller inputs position state information data of the intelligent controller into the intelligent controller, the intelligent controller controls the intermediate relay 8 and the grounding knife switch through processing output points Y8, Y8 and X8, Y8 and Y8, KA3 controls a chassis handcart motor, an output point Y4 controls an energy storage motor for an intermediate relay KA4, and output points Y6 and Y7 control breaker on-off electromagnetic coils for intermediate relays KA6 and KA 7. Meanwhile, the controller input points AD0, AD1, AD2 and AD3 are analog quantity acquisition points of a temperature isolator, a chassis handcart motor current transmitter, a grounding knife switch motor current transmitter and an alternating current three-phase voltage transmitter, and can monitor the environment temperature, the motor running state and whether the three phases are balanced or not. The monitoring system can collect the running environment temperature of the high-voltage switch cabinet KYN, the chassis handcart motor current, the grounding knife switch motor current and the alternating current three-phase voltage for monitoring.

The wiring diagram of the system driving motor is shown in FIG. 4: the intermediate relays KA0 and KA1 control forward and reverse rotation of the grounding knife switch motor, the intermediate relays KA2 and KA3 control forward and reverse rotation of the chassis handcart motor, the KA4 controls the energy storage motor, and the intermediate relays KA6 and KA7 control the opening and closing coils of the circuit breaker.

Normally open contacts of limit switches of the grounding knife switch, the chassis handcart and the energy storage driving mechanism are connected with an input point of the intelligent controller, and the normally closed contacts are connected with the intermediate control relay so as to cut off a motor power supply after the control mechanism is in place.

The switching-on and switching-off operation of a KYN circuit breaker of the high-voltage switch cabinet is controlled on the spot through a spot/remote change-over switch on the front surface of the high-voltage switch cabinet, and the switching-on and switching-off operation of the KYN circuit breaker of the high-voltage switch cabinet can be controlled remotely by selecting a remote switch, so that the functions of information exchange with relay protection and coordination and automatic control, information exchange with other automation devices, communication with a dispatching control center and a centralized control center and the like are realized.

The intelligent controller is used for inputting instructions through a touch screen configuration button, acquiring position state information of a front door closing limit switch, a rear door closing limit switch, a grounding knife switch and closing limit switch, a chassis handcart shaking-in and withdrawing limit switch, a circuit breaker opening and closing and energy storage in-place sensor, which are installed in the cabinet, inputting the position state information into the intelligent controller for processing, outputting and controlling a grounding knife switch motor and closing, a chassis handcart motor shaking-in and withdrawing, and a circuit breaker coil to operate in an opening and closing mode, and monitoring the operation state of the circuit breaker coil through a display screen indicator lamp.

In order to ensure the safety of the running system of the driving mechanism of the grounding knife switch motor and the closing, chassis handcart motor swinging in and out, breaker electromagnetic coil and the closing and energy storage motor, each mechanism is provided with a limit switch and also sets time delay in-place time, and once the driving mechanism is not in place in preset time under the conditions of motor stalling and other accidents, the power supply is automatically cut off, a tight stop button can be pressed down, and the system displays faults.

Based on the system apparatus provided above, the present embodiment provides the following specific control methods:

the circuit breaker energy storage motor is used for stretching a closing or opening spring when being started so as to enable the closing or opening spring to have corresponding potential energy;

the chassis handcart driving mechanism is used for driving a worm gear transmission mechanism of a chassis handcart to enable the chassis handcart to shake in and out, and when the position of the chassis handcart triggers a limit switch for shaking in and out of the chassis handcart, the intelligent controller controls the chassis handcart driving mechanism to stop working;

the grounding knife switch driving mechanism is used for driving the grounding knife switch transmission mechanism to control the opening and closing of the grounding knife switch, when the grounding knife switch and the closed limit switch are triggered, the grounding knife switch is indicated to be in place, and the grounding knife switch driving mechanism stops working;

the circuit breaker opening and closing driving mechanism enables the circuit breaker to be opened or closed by switching on the opening coil or the closing coil, and determines whether the opening or closing is in place or not by the opening and closing in-place sensor of the circuit breaker, and the opening and closing in-place sensor serves as a judgment basis for cutting off a power supply of the opening coil or the closing coil.

The handcart of the chassis of the circuit breaker is shaken into the operation: the circuit breaker 21 is input at a brake separating position, namely SQ7, the grounding knife switch 15 is in a breaking state, namely SQ1 input, a front door, a rear door closing state, namely SQ8 and SQ9 input, and the circuit breaker chassis handcart is shaken into configuration button input on the touch screen, at the moment, a circuit breaker chassis handcart motor starts to rotate forwards, a driving mechanism speed reducer and a turbine worm transmission mechanism push the circuit breaker chassis handcart from a test position/a breaking position to a working position, namely a shaken limiting switch SQ2 normally open contact is closed and input into an intelligent controller X2, meanwhile, the normally closed contact is broken and a motor control circuit is cut off, and the touch screen prompts that the system is in a fault state if the delay time is 10S and the working position is not reached.

The circuit breaker chassis handcart quits operation: the circuit breaker 21 is input at a brake separating position, namely SQ7, the grounding knife switch 15 is in a breaking state, namely SQ1 input, a front door, a rear door closing state, namely SQ8 and SQ9 input, and the circuit breaker chassis handcart on the touch screen is quitted from configuration button input, at the moment, a motor of the circuit breaker chassis handcart starts to rotate reversely, a driving mechanism speed reducer and a turbine worm transmission mechanism enable the circuit breaker chassis handcart to retreat to a breaking position/test position, namely a withdrawing limiting switch SQ3 normally-open contact is closed and input to an intelligent controller X3, meanwhile, the normally-closed contact is disconnected to cut off a motor control circuit, the time delay is 10S, the breaking position/test position is not yet, and the touch screen prompts that the.

The opening operation of the grounding knife switch: the circuit breaker 21 is input at a switching-off position, namely SQ7, the limit switch SQ3 which is input at a switching-off position, namely the handcart of the chassis of the circuit breaker retreats to a switching-off position/a test position, the front door and the rear door are closed, namely SQ8 and SQ9 are input, and the grounding knife switch is input by a switching-off configuration button on the touch screen, at the moment, the motor of the grounding knife switch starts to rotate forwards, the grounding knife switch 15 is in a switching-off state, namely the SQ1 normally-open contact is closed and input into the intelligent controller X1, meanwhile, the normally-closed contact is disconnected to cut off a motor control circuit, and.

Switching on the grounding knife switch: the circuit breaker 21 is input at a switching-off position, namely SQ7, the limit switch SQ3 which is input at a switching-off position and exits at a test position, namely SQ8 and SQ9 which are input at a closing state of a front door and a rear door and input at a closing configuration button of the grounding knife switch on the touch screen, at the moment, the motor of the grounding knife switch is started and reversely rotated, the grounding knife switch 15 is in a switching-on grounding state, namely the SQ0 normally-open contact is closed and input into the intelligent controller X0, meanwhile, the normally-closed contact is disconnected to cut off a motor control circuit, and the time delay 10S is not switched on in place, so that.

Switching-on operation of the circuit breaker: the input of a limit switch SQ4 of the circuit breaker energy storage mechanism, the input of a limit switch SQ2 of a handcart of a chassis of the circuit breaker, which is shaken in when the handcart reaches a working position, the input of a disconnecting position of a grounding knife switch, which is SQ1, the input of a front door and a rear door closing state, which is SQ8 and SQ9, and the input of a circuit breaker closing configuration button on a touch screen, the circuit breaker closing electromagnetic coil is electrified at the moment, and the operating mechanism.

The circuit breaker is opened: the circuit breaker energy storage mechanism limit switch SQ4 inputs + the closing state of the front door and the rear door, namely SQ8 and SQ9 inputs + the circuit breaker opening configuration button input on the touch screen, at the moment, the circuit breaker opening electromagnetic coil is electrified, and the control mechanism is opened.

The present invention is not limited to the above-mentioned preferred embodiments, and all other various types of KYN high-voltage switch cabinet intelligent control systems can be derived by anyone based on the teaching of the present invention.

Claims

1. The utility model provides a KYN high tension switchgear intelligence control system which characterized in that includes: the intelligent controller is respectively connected with the circuit breaker energy storage motor, the chassis handcart driving mechanism, the grounding knife switch driving mechanism and the circuit breaker opening and closing driving mechanism, and a grounding knife switch closing limit switch, a grounding knife switch opening limit switch, a chassis handcart swing-in limit switch, a chassis handcart withdrawing limit switch, a circuit breaker energy storage limit switch, a circuit breaker closing limit switch and a circuit breaker opening limit switch which are arranged in the KYN high-voltage switch cabinet;

2. The KYN high voltage switch cabinet intelligent control system of claim 1, wherein: the ground switch driving mechanism and the chassis handcart driving mechanism are driven by motors.

3. The KYN high voltage switch cabinet intelligent control system of claim 1, wherein: the intelligent cabinet door lock also comprises a front door lock limit switch and a rear door lock limit switch which are arranged on the cabinet door and connected with the intelligent controller.

4. The KYN high voltage switch cabinet intelligent control system of claim 3, wherein: earthing knife switch combined floodgate limit switch, earthing knife switch separating brake limit switch, chassis handcart shake in limit switch, chassis handcart withdraw from limit switch, circuit breaker energy storage limit switch, circuit breaker combined floodgate limit switch, circuit breaker separating brake limit switch to and qianmen lock limit switch and back lock limit switch all adopt the travel limit switch who has an open one at least and close the contact.

5. The KYN high voltage switch cabinet intelligent control system of claim 1, wherein: the intelligent controller adopts an HIC-220/A intelligent controller.

6. The KYN high voltage switch cabinet intelligent control system of claim 1, wherein: the intelligent controller is connected with the key module.

7. The KYN high voltage switch cabinet intelligent control system of claim 2, wherein: each motor and separating brake coil and closing coils are connected respectively through a plurality of auxiliary relay to the intelligent control ware, wherein, auxiliary relay KA0, KA1 control ground connection sword switch motor are just reversing, and auxiliary relay KA2, KA3 are used for controlling chassis handcart motor just reversing, and auxiliary relay KA4 is used for controlling opening and stopping of circuit breaker energy storage motor, and auxiliary relay KA6, KA7 are used for controlling the break-make of circuit breaker separating brake coil and closing coils respectively.

8. The KYN high voltage switch cabinet intelligent control system of claim 7, wherein: normally open contacts of the grounding knife switch closing limit switch and the grounding knife switch opening limit switch are connected with an input point of the intelligent controller, and the normally closed contacts are respectively connected in series with the intermediate relay KA0 and the intermediate relay KA 1;

9. The KYN high voltage switch cabinet intelligent control system of claim 2, wherein: the intelligent controller collects the operating environment temperature of the KYN high-voltage switch cabinet, the chassis handcart motor current, the grounding knife switch motor current and the alternating-current three-phase voltage for monitoring.

10. The KYN high voltage switch cabinet intelligent control system of claim 9, wherein: the input points AD0, AD1, AD2 and AD3 of the intelligent controller are analog quantity acquisition points of a temperature isolator, a chassis handcart motor current transmitter, a grounding switch motor current transmitter and an alternating current three-phase voltage transmitter respectively, and the environment temperature, the motor running state and whether three phases are balanced or not are monitored.