CN202547015U - Automatic control energy saving system for 10 kV power distribution station - Google Patents

Abstract

In a 10kV substation automatic control energy-saving system, by setting several SF6 gas detection sensors to detect the leakage of SF6 gas in the distribution substation, and several temperature and humidity detection sensors to detect the temperature and humidity inside and outside the distribution substation, the central The control host provides the collected environmental data; after centralized judgment, the central control host drives the air conditioner control unit to realize the functions of air conditioner on/off and temperature adjustment, and also drives the exhaust fan control unit to automatically turn on the fan for ventilation when the air conditioner does not need to be turned on Ventilation work; especially when the SF6 gas in the distribution station exceeds the limit or the temperature and humidity exceed the limit, open the exhaust fan and the shutters for ventilation; the utility model can save resources, save energy and reduce emissions, and realize intelligent indoor environment monitoring, control and alarm .

Description

10kV Substation Automatic Control Energy Saving System

technical field

The utility model relates to an automatic control system, in particular to an automatic control energy-saving system for a 10kV distribution station.

Background technique

Energy conservation, emission reduction and energy conservation and environmental protection have become important things that every citizen and every enterprise should actively implement. However, in order to consider ventilation, the current 10kV substation adopts a ventilation system that does not have an automatic shutdown function. Therefore, the air conditioning and ventilation systems often run at the same time, which makes the temperature adjustment effect of the air conditioner relatively poor and causes a great waste of resources.

Utility model content

The purpose of this utility model is to provide an automatic control energy-saving system for a 10kV distribution station. By designing and reforming the control system of the thermal insulation air-conditioning and ventilation system of the distribution station, it can ensure airtightness when no ventilation is needed. When ventilating, the fan can be turned on and the air conditioner can be turned off to achieve energy saving and emission reduction. At the same time, for the leakage of SF6 (sulfur hexafluoride) harmful gas, the on-site control unit detects the generation of SF6 alarm signal, alarms when the limit is exceeded, and opens the exhaust fan and louver for ventilation and exhaust to ensure safety. This energy-saving system can also take into account the work needs of on-site staff, and achieve intelligent indoor environment monitoring and control.

The technical solution of the utility model is to provide an automatic control energy-saving system for a 10kV power distribution station, the system is provided with a central control host, the central control host is constructed by a programmable industrial control PLC module, and is connected to the central control host The following devices connected through the industrial field bus and the interface are linked and controlled to adjust the temperature, humidity and ventilation in the 10kV distribution station:

A set of air conditioner control unit, which is driven by the central control host, and controls the opening and closing of one or more air conditioners connected to the air conditioner control unit;

A set of exhaust fan control unit, which is driven by the central control host, and controls the opening and closing of one or more exhaust fans connected to the exhaust fan control unit;

A set of on-site sensor measurement unit, which is driven by the central control host, provides collected environmental data to the central control host; the on-site sensor measurement unit further includes several SF6 gas leakage detection detection substations. Gas detection sensors, and several temperature and humidity detection sensors for detecting the temperature and humidity inside and outside the distribution station.

The system converts the input 220V AC mains power into various types of DC power signals required by the system through the set power supply and backup power system.

The central control host connects and drives the air-conditioning control unit through an industrial control unit, an isolated drive module, and a relay-AC contactor combination module arranged in sequence; the industrial control unit connects and communicates with the central control host through an RS485 bus .

The central control host is connected to and drives the exhaust fan control unit through an industrial control unit, an isolation drive module, and a relay module arranged in sequence; the industrial control unit is connected and communicates with the central control host through an RS485 bus.

The industrial control unit, the isolated drive module and the relay module are integrated in an isolated relay output card, and the isolated relay output card is connected and communicated with the central control host through the RS485 bus.

The exhaust fan includes a fan in the shape of an axial flow fan, and the outlet of the exhaust fan is provided with shutters that are automatically opened or closed according to the drive of the exhaust fan control unit.

The temperature and humidity detection sensor is integrated with a data collector, an isolation transmission and an alarm signal generation module to process the data signal;

The temperature and humidity detection sensor is connected and communicated with the central control host by setting a bus interface with RS485 output.

The SF6 gas detection sensor processes the data signal through the sequentially arranged data collector or comparator, the isolation transmission and the alarm signal module; the SF6 gas detection sensor is connected and communicated with the central control host through the bus interface provided .

A digital input card is connected between the relay output end of the SF6 gas detection sensor and the central control host, and the digital input card sends the alarm signal of the SF6 gas detection sensor to the central control host.

The system is also provided with an alarm unit connected to the control host, an electronic calendar, a collection and recording device for environmental data, and a man-machine display operation device; the alarm unit is further provided with an SF6 gas overrun alarm module and temperature and humidity Overrun alarm module.

Compared with the prior art, the utility model described in the 10kV distribution station automatic control energy-saving system has the advantages that: the utility model drives the air-conditioning control unit through the central control host to realize the functions of air-conditioning on/off and temperature adjustment; The exhaust fan control unit automatically turns on the fan to perform ventilation when the air conditioner does not need to be turned on; especially when the SF6 gas in the distribution station exceeds the limit or the temperature and humidity exceed the limit (the temperature and humidity exceed the limit value can be set through the software on site), The system gives control commands to open the exhaust fan and shutters for ventilation; the system provides various alarm signals, and the necessary alarm signals include SF6 alarm, temperature and humidity overrun signal, etc. Therefore, the utility model can save resources, save energy and reduce emissions. Realize intelligent indoor environment monitoring, control and alarm.

Description of drawings

Fig. 1 is a schematic diagram of the system principle and composition structure of the automatic control energy-saving system of the 10kV distribution station of the present invention.

Detailed ways

As shown in Figure 1, the 10kV distribution station automatic control energy-saving system of the utility model mainly includes the following parts: a central control host 10, which is used to complete the collection of various signals, intelligently judge and send various signals according to the program. control instructions and various alarm signals, and is designed with signal acquisition, recording devices and various I/O expansion functions; a set of air conditioner control unit 20 can control the opening and closing of one or more air conditioners, and can set each The temperature and humidity environment where the air conditioner works; a set of exhaust fan control unit 30, which can control the opening and closing of the exhaust fan; a set of field sensor measurement unit, including several SF6 gas detection sensors 42 and several temperature and humidity detection sensors 41, used to measure The temperature/humidity/gas leakage in the substation provides data support for the central control host 10 to make intelligent decisions.

Through the industrial field bus and interface, the reliable connection between the above-mentioned several devices is completed. For example, in this embodiment, a distributed industrial RS-485 bus and interface are used to realize. When the baud rate is 9600bps, the reliable transmission distance can reach 1200 meters.

The utility model is equipped with a power supply and a backup power system, which converts the input 220V AC mains power into various DC power supply signals required by the automatic control energy-saving system of the 10kV power distribution station.

Specifically, the central control host 10 is composed of a high-performance industrial control PLC as the core hardware platform, and is composed of self-designed control software. Main frequency processor and corresponding memory. The central control host 10 is mainly responsible for collecting the alarm signals of the temperature sensor and the SF6 gas detection sensor 42, and realizing the intelligent linkage control function of the air conditioner, exhaust fan and exhaust fan shutters. The central control host 10 is also equipped with an electronic calendar, a clock, a collection and recording device for temperature and harmful gas concentration, and an alarm unit. At the same time, according to the requirements of the overall plan, the design of the host system's short-term power failure reliable operation (PLC can power off and store related parameters), memory space, I/O port expansion, A/D acquisition, RS485 serial port communication, etc. is considered. . The relevant intelligent control software program completes the functions of collecting and analyzing various signals and issuing control commands independently, and provides a friendly man-machine display interface.

According to the needs of on-site operation and maintenance of the substation, the central control host 10 is equipped with a human-machine display operation device, such as a 7-inch MCGS LCD touch screen, which belongs to the third-level industrial anti-interference level, and can operate with long life and low power consumption. The MCGS LCD touch screen can set the temperature adjustment range of the substation, the number of start and stop of the exhaust fan, the alarm of SF6 gas leakage and other parameters through the software, which is convenient for the operation of the relevant maintenance personnel. The MCGS type LCD touch screen is integrated with the above-mentioned electronic calendar and data collection and recording device, and the relevant information and alarm content can be recorded through the flash memory, which is convenient for U disk export.

The air conditioner control unit 20 in the utility model adopts a special control box controlled by 485 to set the temperature and working modes of cooling, heating, and dehumidification of the two air conditioners; unit, isolation drive, relay-AC contactor combination and other modules to connect the air conditioner control unit 20, and drive the air conditioner control unit 20 to complete the control function of on and off of the air conditioner, and realize the temperature control in the substation. The industrial control unit communicates with the central control host 10 through the RS485 bus, and if the air conditioner control unit 20 fails, a corresponding alarm signal is given through the industrial control unit.

The exhaust fan control unit 30 in the utility model can be connected with the central control host 10 through an RS485 bus through an Advantech ADAM-5069 relay output card with isolation. The relay output card with isolation realizes the functions of the industrial control unit, isolation drive, relay and other modules required between the exhaust fan control unit 30 and the central control host 10 . Under the normal operating temperature state in summer, the air conditioner is in the working state, and the exhaust fan control unit 30 in the utility model is automatically closed. A fan with the shape of an axial flow fan is used in the exhaust fan, and an automatic opening louver is installed on its outlet. The louver opens automatically when the fan is turned on, and automatically closes when the fan stops to achieve airtightness. When the substation equipment fails and releases harmful gas SF6, the SF6 concentration reaches a certain level and is detected by the SF6 gas detection sensor 42 and reported to the central control host 10, then controls the exhaust fan shutter sealing device and the exhaust fan to open, and shuts down the air conditioner . If the exhaust fan control unit 30 fails, a corresponding alarm signal will be given.

The temperature and humidity detection sensor 41 in this embodiment is selected from industrial grade products, which can work reliably and stably for several years. For example, the AW3485Y type used has temperature and humidity sensors, analog or digital data collectors, isolation Transmission and alarm signal generation module and other functions. The AW3485Y temperature and humidity detection sensor 41 also has an RS485 output bus interface, which can directly output electrical signals to the PLC central control host 10, and the central control host 10 completes signal collection and judgment, which is very convenient to use. In addition to arranging the indoor temperature and humidity detection sensor 41, several outdoor temperature and humidity detection sensors 41 can also be installed at the same time.

Between the SF6 gas detection sensor 42 and the central control host 10, generally, a data collector or a comparator, an isolation transmission and alarm signal module, and a bus interface module are arranged. In the present embodiment, a ADAM-5052 digital input card of Advantech is set to receive the alarm signal of the SF6 gas detection sensor 42, and the digital input card is connected to the relay output terminal of the SF6 gas detection sensor 42 and the Between the central control host 10.

The alarm units described in this embodiment can be divided into two categories: SF6 emergency alarm and temperature and humidity over-limit prompt alarm, both of which are given in the form of indicator lights on the software interface. The SF6 emergency alarm signal is provided by the detection equipment of Shanghai Baihe Company. The system accepts the relay on-off signal given by the alarm and triggers the alarm output. The temperature and humidity over-limit prompt alarm is judged comprehensively by the system based on the collected temperature and humidity signals, and can be set and eliminated in the software interface.

In summary, the working conditions of the automatic control energy-saving system of the 10kV distribution station described in the utility model are as follows:

a) When the air conditioner does not start, the blinds will be opened automatically to keep ventilation with the outside world. If the temperature exceeds the limit, the fan will be started for a certain period of time to enhance ventilation, and then shut down to prevent the fan from burning out. After a certain period of time, if the temperature still exceeds the limit, the fan will be started again, and the cycle will be repeated.

b) When the indoor temperature is high in summer, etc., the blinds will be closed automatically, and the air conditioner will be controlled to start according to the temperature to keep the indoor temperature not exceeding the upper limit. Keep the air conditioner on. If the air conditioner fails or the temperature continues to exceed the upper limit for a certain period of time, turn off the power supply of the air conditioner, open the shutters, and change to the fan opening mode (same as a) to enhance air circulation. The action mode of the air conditioner is the same as above when the humidity exceeds the limit.

c) In any season, when the SF6 gas detector detects that the SF6 gas concentration in the distribution station exceeds the limit alarm, control the air conditioner to close, and the shutters and exhaust fans to open until the gas concentration is lower than the limit value.

d) When the SF6 gas exceeds the limit or the temperature and humidity exceed the limit, the energy-saving system will alarm the operating personnel.

Although the content of the present invention has been described in detail through the above preferred embodiments, it should be recognized that the above description should not be considered as a limitation of the present invention. Various modifications and substitutions of the present utility model will be obvious to those skilled in the art after reading the above content. Therefore, the protection scope of the present utility model should be defined by the appended claims.

Claims (10)

1. A 10kV substation automatic control energy-saving system, characterized in that, The system is provided with a central control host (10), the central control host (10) is constructed by a programmable industrial control PLC module, and the following is connected to the central control host (10) through an industrial field bus and an interface A number of devices are linked to control to adjust the temperature, humidity and ventilation in the 10kV distribution station: A set of air conditioner control unit (20), which is driven by the central control host (10), and controls the opening and closing of one or more air conditioners connected to the air conditioner control unit (20); A set of exhaust fan control unit (30), which is driven by the central control host (10), and controls the opening and closing of one or more exhaust fans connected to the exhaust fan control unit (30); A set of on-site sensor measurement unit, which is driven by the central control host (10) to provide the collected environmental data to the central control host (10); the on-site sensor measurement unit further includes detection of SF6 gas in the distribution station A plurality of SF6 gas detection sensors (42) for leakage, and a plurality of temperature and humidity detection sensors (41) for detecting the temperature and humidity inside and outside the power distribution station. 2. 10kV substation automatic control energy-saving system as claimed in claim 1, is characterized in that, The system converts the input 220V AC mains power into various types of DC power signals required by the system through the set power supply and backup power system. 3. 10kV substation automatic control energy-saving system as claimed in claim 1, is characterized in that, The central control host (10) connects and drives the air conditioner control unit (20) through an industrial control unit, an isolated drive module, and a relay-AC contactor combination module arranged in sequence; the industrial control unit communicates with the air conditioner through the RS485 bus The central control host (10) connects and communicates. 4. 10kV substation automatic control energy-saving system as claimed in claim 1, is characterized in that, The central control host (10) connects and drives the exhaust fan control unit (30) through an industrial control unit, an isolated drive module, and a relay module arranged in sequence; the industrial control unit communicates with the central control host (10) through an RS485 bus. ) to connect and communicate. 5. 10kV substation automatic control energy-saving system as claimed in claim 4, is characterized in that, The industrial control unit, the isolated drive module and the relay module are integrated in an isolated relay output card, and the isolated relay output card is connected and communicated with the central control host (10) through the RS485 bus. 6. The 10kV substation automatic control energy-saving system as claimed in claim 1 or 4 or 5, characterized in that, The exhaust fan includes a fan in the shape of an axial flow fan, and the outlet of the exhaust fan is provided with shutters that are automatically opened or closed according to the drive of the exhaust fan control unit (30). 7. 10kV substation automatic control energy-saving system as claimed in claim 1, is characterized in that, The temperature and humidity detection sensor (41) is integrated with a data collector, an isolation transmission and an alarm signal generation module to process data signals; The temperature and humidity detection sensor (41) is connected and communicated with the central control host (10) by setting a bus interface with RS485 output. 8. The 10kV substation automatic control energy-saving system as claimed in claim 1, characterized in that, The SF6 gas detection sensor (42) processes the data signal through the sequentially arranged data collector or comparator, isolation transmission and alarm signal module; the SF6 gas detection sensor (42) communicates with the The central control host (10) connects and communicates. 9. 10kV substation automatic control energy-saving system as claimed in claim 8, is characterized in that, A digital input card is connected between the relay output terminal of the SF6 gas detection sensor (42) and the central control host (10), and the digital input card takes the alarm signal of the SF6 gas detection sensor (42) sent to the central control host (10). 10. The 10kV substation automatic control energy-saving system as claimed in claim 1, characterized in that, The system is also provided with an alarm unit connected to the control host, an electronic calendar, a collection and recording device for environmental data, and a man-machine display operation device; the alarm unit is further provided with an SF6 gas overrun alarm module and temperature and humidity Overrun alarm module.