Application of Acrel-6000/B Electrical Fire Monitoring System in Suning New Town, Pingjiang New Town

This paper briefly describes the composition principle of the electrical fire monitoring system, and analyzes the design basis and related specifications of the electrical fire monitoring system in the application. Finally, through the introduction of Ankerui residual current electric fire monitoring system in Suzhou Pingjiang New City Suning Electric Project, the realization of the function of electrical fire monitoring system and its significance are expounded.
Yang Junjun

Ankerui Electric Co., Ltd. Shanghai Jiading



0 Preface

Electrical fire generally refers to the thermal energy that is discharged due to faulty electrical lines, electrical equipment and power supply and distribution equipment, such as high temperature, arc, electric spark and non-faulty energy; for example, the hot surface of electric heating equipment, with combustion conditions Fires caused by ignition of the body or other combustibles, including fires caused by lightning and static electricity. Electrical fires mainly include the following four aspects: electric leakage fire, short-circuit fire, overload fire, and excessive contact resistance.

The "China Fire Statistical Yearbook" of the Fire Department of the Ministry of Public Security shows that among the fire accidents in 2010, electrical fires ranked first, and the proportion of them was on the rise, causing heavy losses. In fact, electrical fires have become the main cause of fire safety, not only in many times, but also in large losses, and have remained high for many years.

The proportion of electrical fire accidents has increased year by year, which is worrying. For the severe electrical fire situation, early prediction, early warning, and forecasting have become the top priority of fire protection work, and the occurrence of electrical fires at the source has become the focus of attention. The task of preventing and effectively curbing electrical fires is imminent. Relevant national departments have successively formulated or revised relevant standards and regulations, and required to set up an electrical fire monitoring and alarm system in the building.



1 reference standard

In recent years, in order to increase the intensity of electrical fire monitoring and prevention, the state has successively formulated or revised a number of relevant standards and regulations to strengthen the prevention of electrical fires. There are:

1.1 is GB50045-95 (2005 edition) "High-rise civil building design fire code", which stipulates in clause 9.5.1: high-rise building fire hazard, personnel intensive places should be set up a leakage fire alarm system.

1.2 is GB50016-2006 "Code for Fire Protection of Building Design", which is specified in Article 11.2.7: The following places should be equipped with residual current action electrical fire monitoring system. These venues include various types of theaters, galleries, warehouses, residential communities, hospitals, shops, schools, and more.

1.3 The national standard "Building electrical fire prevention requirements and testing methods" also clearly requires that "the residual current action protector that automatically cuts off the power or alarm should be set at the power input end".

1.4 The product of electrical fire monitoring system should meet: GB14287.1-2005 "Electrical fire monitoring equipment", GB14287.2-2005 "Residual current type electric fire monitoring detector", GB14287.3-2005 "Temperature type electric fire monitoring detector"

1.5 Installation and operation of electrical fire monitoring system should meet GB13955-2005 "Residual current action protection device installation and operation"

1.6 The power supply of the electrical fire monitoring system shall meet the requirements of GB50052 "Design Specification for Power Supply and Distribution System"

1.7 The design of the electrical fire monitoring system shall meet the requirements of the Design Method of Electrical Fire Monitoring System (Interim Provisions)



2 system components

According to the national standard GB14287-2005 "Electrical fire monitoring system" and related specifications "Electrical fire monitoring system design method" (interim regulations), the basic components of the electrical fire monitoring system should include: electrical fire monitoring equipment, residual current electrical fire It consists of three basic product categories: monitoring detectors and temperature-measuring electrical fire monitoring detectors.

2.1 Residual current type electrical fire monitoring detector is composed of monitoring detector and residual current transformer (two pairs of plug-in type and closed type); temperature-type electric fire monitoring detector is composed of monitoring detector and temperature measuring sensor composition.

2.2 Residual current type Electrical fire monitoring system adopts a layered and distributed structure, which consists of station management layer, network communication layer and field equipment layer. Each electrical fire monitoring detector is directly connected to the electrical fire monitoring host through the shielded twisted pair cable through the shielded twisted pair RS485 interface and the MODBUS communication protocol bus type connection.

2.2.1 The field device layer is mainly used to connect various types of instruments and protection devices for electrical parameter acquisition and measurement in the network, and is also a necessary basic component for constructing the monitoring system. Not only shoulders the burden of collecting data, but also the terminal component that executes background control commands.

2.2.2 Communication control layer is mainly composed of communication server, interface conversion device and bus network. This layer is a bridge for data information exchange. Different interface conversion devices provide various interfaces such as RS232, RS422, RS485, SPABUS, etc., and Ethernet. The networking mode is flexible, supporting peer-to-peer communication, fieldbus network, Ethernet, etc. Configuration network. The communication server is mainly used to directly transfer various control commands of the host computer to the on-site instrument and meter, and is responsible for collecting, classifying and storing the data information returned by the field instrument, such as voltage/current and other electrical parameters and input switch state. Modify the internal parameters of the instrument or various operation commands for controlling the opening/closing of the relay; the microcomputer protection device is mainly to ensure the normal operation of the upper computer and avoid the interference or damage caused by the unstable signal in the network; the interface conversion device This is because there is a difference in the communication interface between the field instrument or other series of devices and the host computer, and conversion is required to exchange data.

2.2.3 Management The measurement and control layer is for the management of the monitoring network, which is directly facing the user. This layer is also the uppermost part of the system, mainly consisting of electrical fire monitoring system software and necessary hardware equipment such as computers, printers, UPS, etc. The software part has a good human-computer interaction interface, and reads various kinds of data information collected by the front-end machine through the data transmission protocol, and automatically performs calculation and processing, and reflects the operation state of the scene by means of graphics, digital display, sound, etc., and Accept the operation command of the manager, send and detect the execution status of the operation in real time to ensure the normal operation of the power supply unit.



3 system characteristics and working principle

The characteristic of the electrical fire monitoring system is that the residual current electrical monitoring is an advanced pre-alarm system. Unlike the traditional automatic fire alarm system, the early warning of the electrical fire monitoring system is to avoid losses, while the traditional automatic fire alarm system is to reduce losses. Therefore, this means that whether it is a new or rebuilt project, especially the unit that has installed the automatic fire alarm system, the root cause of the electrical fire monitoring system still needs to be installed.

The electrical fire monitoring system measures two physical quantities of residual current and temperature.

The residual current measurement is based on Kirchhoff's current law: at the same time, the sum of the current vectors flowing into and out of a node in the circuit is zero. Taking the TN-S system as an example, A/B/C/N is simultaneously passed through the residual current transformer. When there is no leakage in the system, the current vector sum of the residual current transformer flowing into and out is zero. At this time, the residual current The secondary current induced by the transformer is also 0; when a relatively large earth leakage occurs, the current vector sum of the current transformer flowing into and out of the residual current is no longer zero, and its magnitude is equal to the current flowing from the earth, that is, the leakage current. The leakage signal is transmitted to the electrical fire detector through the secondary wiring of the residual current transformer, and is sent to the CPU after operation amplification, A/D conversion, and after a series of algorithms, the amplitude of the change is analyzed and judged, and The alarm set value is compared. If the set value is exceeded, an audible and visual alarm signal is sent and sent to the background electrical fire monitoring device.

The temperature measurement uses a temperature sensor, which is generally measured using a Pt100 sensor. This type of temperature sensor is stable in temperature measurement and has a wide measuring range. It is suitable for monitoring cable temperature and ambient temperature in the field. When the temperature changes, the resistance value of Pt100 changes in the same proportion. The resistance signal is transmitted to the electrical fire detector. After a series of signal conversion and calculation, the final result is compared with the temperature alarm setting. If the value exceeds the fixed value. An audible and visual alarm signal is sent and sent to the background electrical fire monitoring device.



4 System design considerations and methods

4.1 Electrical fire monitoring system mainly monitors two types of objects, residual current and temperature, and should pay attention to the basic points in design.

4.1.1 About residual current

Since the principle of residual current monitoring uses Kirchhoff's current law, there are certain requirements for the form of the low-voltage power distribution system to be applied. At present, low-voltage power distribution systems that can apply residual current transformers are: TT system, IT system, TN-S system, and cannot be used in TN-C system. For users who will design and install an electrical fire monitoring system, whether it is a new project or an old engineering project, first check the system grounding form of the user's low-voltage power distribution system. Otherwise, design and install the residual current transformer. Detection is simply not possible.

Regarding the AC220V single-phase power supply system, the residual current transformer only needs to cover the L/N power lines, but the neutral line N is not allowed to be grounded again. For the AC380V three-phase power supply system, due to the three-phase three-wire system, three-phase four-wire system, three-phase five-wire system, etc., the residual current transformer is simultaneously sheathed to the A/B/C three-phase power line according to the specific situation. Or cover the A/B/C/N line at the same time. Similarly, the neutral line N is not allowed to be grounded again, and the protection line PE must not pass through the transformer.

When the system grounding type is TN-C type, the industrial automation network must be converted into a TN-S type, TN-CS type or partial TT type system before the residual current detecting device can be installed.

4.1.2 About temperature

Temperature measurement has nothing to do with the form of system grounding. It mainly considers the temperature of key parts of low-voltage power distribution equipment including cables, and is generally applied in secondary protection lines. The temperature probe Pt100 can adopt the contact arrangement method. When the object to be detected is an insulator, the temperature sensor of the detector should be directly disposed on the surface of the object to be detected. When the object to be tested is the temperature change inside the power distribution cabinet, a non-contact arrangement can be adopted, which is close to the heat generating component.

4.2 Point allocation in system design

According to the national standard GB13955-2005 "Residual current action protection device installation and operation" in the provisions of 4.4 on the classification protection, when installing the residual current fire monitoring device, the steps of the point allocation principle are:

4.2.1 Study and analyze the relevant drawings of the controlled low-voltage AC380V/220V distribution line, investigate and verify the distribution of building electrical, and determine the location of power distribution equipment (such as power distribution cabinets, boxes, disks, cables, etc.). Each monitoring detector is assigned to the corresponding power distribution equipment to determine the number of detectors and avoid resetting waste.

4.2.2 Determine the hierarchical protection. In order to reduce the range of power failure caused by the occurrence of personal electric shock accidents and ground faults, three-stage (or two-stage) residual current protection devices of different capacities are usually installed at different locations of the power supply line to form hierarchical protection. According to the power load and line conditions, it is generally divided into two or three levels of protection, suitable for urban and rural first and second level protection.

Among them, important routes should include security, fire, emergency power, channel lighting and important places that do not allow power outages.

4.2.3 In the secondary protection, all the switches shall be equipped with a residual current fire monitoring detector, that is, at the power supply end of the line (first level protection) and the branch head end (second stage also called end protection). Install the residual current detector and connect it to the electrical fire monitoring system for fire monitoring and alarming purposes only.

4.2.4 In the three-level protection, the residual current detector and the action protection device shall be installed at the third-level (ie end protection) switch, but the electrical fire monitoring system shall not be connected in order to prevent personal electric shock.

4.2.5 Temperature detection is based on the basic principle that heat is generated when the power distribution equipment is abnormal.

1) Transformer low-voltage side outlet terminal, transformer body temperature (wind temperature, oil temperature, water temperature) test point, load switch contact.

2) Incoming and outgoing busbar contacts, automatic switch (circuit breaker, knife switch) contacts, large current conductor concentrated parts, and cable docking points of each power distribution cabinet (box).

3) The main joint of the female joint cabinet and the switch contacts of the knife.

4) Compensation capacitor terminal and transfer switch contact.

5) According to the total number of points installed, select the corresponding wall hanging, vertical or piano.

5 System parameter configuration

5.1 Alarm value setting range

According to the national standard GB14287.2-2005, the alarm value of the residual current type electrical fire monitoring detector is set between 20~1000mA. According to this requirement, the residual current action value at the power supply main line is generally set to 400~800mA, and the residual current action value on the power branch line is set to 100~400mA. Generally, the residual current type electrical fire monitoring detection is set at the actual site. The alarm value of the device shall not be less than 2 times the maximum value of the leakage current during normal operation of the protected electrical circuit and equipment, and not more than 1000 mA. The alarm setting value of the electrical fire detector should take into account the normal leakage current of the power distribution system and the electrical equipment.

5.2 Refer to the cable temperature rise alarm setting reference, according to the "Power Cable Design Specification" for cable temperature requirements

5.2.1 High temperature places above 60 °C should be selected according to the requirements of high temperature and duration and insulation type. Heat-resistant PVC, XLPE or Ethylene-propylene rubber insulation and other heat-resistant cables should be used. Insulated cable. It is not advisable to use ordinary PVC insulated cables in high temperature places.

5.2.2 The ambient temperature of the continuous allowable current carrying capacity of the cable shall be determined according to the multi-year average of the meteorological temperature of the area of ​​use and shall comply with the regulations. When laying indoor cable trenches, the ambient temperature is the average daily maximum temperature of the hottest month of the site plus 5 °C.

5.2.3 The temperature rise of the cable is related to the laying and heat dissipation conditions.



6 system design examples

Suzhou Suning Life Plaza Project is located in the new business district of Pingjiang New City, Suzhou. The project site is adjacent to Renmin Road in the east, Suzhan Road in the south, Hehe Street in the north and Qixi Street in the west. The land area is 18089.7m2 and the total construction area is 42482.38m2. The building is 24 meters high and has a frame structure. Among them, the project has 2 floors underground and 5 floors above ground. The ground is commercial and boutique shops, and the underground is car garage and bicycle store.

Suzhou Pingjiang New City Suning Electric Electrical Fire Monitoring System consists of electrical fire monitoring device Acrel-6000/B, leakage fire detector ARCM200BL-J1, ARCM200BL-J4, ARCM200L-J8 leakage current transformer AKH-0.66L.

The Acrel-6000 electrical fire monitoring system is an industrial grade that is independently developed by the company to receive field devices such as residual current electrical fire detectors to achieve alarm, monitoring, control, and management of protected electrical circuits. Hardware/software system. The system is applied to the fire control center of large shopping malls, living quarters, production bases, office buildings, shopping malls and other areas, and telemetry, remote adjustment, remote control and remote signaling of detectors scattered in the building are convenient for monitoring and management. The system uses a standard Modbus field bus to connect detectors with communication functions. When the detected parameter in the field protection circuit exceeds the alarm set value, it can send out alarm signals and control signals, can indicate the alarm part and save the alarm. information.

Suzhou Pingjiang New City Suning Electric Project has a total of ARCM200BL-J1 residual current fire detectors, ARCM200BL-J4 residual current fire detectors, and ARCM200L-J8 residual current fire detectors, installed in the floor distribution box. At the line. The on-site fire detector is connected to the Acrel-6000/B wall-mounted electrical fire monitoring system of the control center by bus. The system has the advantages of convenient installation and transportation, high cost performance and convenient maintenance.



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