Draft CCS, SOS, SOE Business Center
- Added: 29.09.2012
- Size: 20 MB
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Description
Project's Content
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1-6-Титл_СЦВК.doc
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7-19-Общая пояснительная записка.doc
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30,31,32,33,34,35,36,37-Схема подключения СКД и ОС.dwg
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Лист Согл.doc
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План расположения СКД Аврора 4 этаж.dwg
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План расположения СКД Аврора 5 этаж.dwg
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План расположения СОС Аврора 4 этаж.dwg
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План расположения СОС Аврора 5 этаж.dwg
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План расположения СЦВ Аврора 4 этаж.dwg
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План расположения СЦВ Аврора 5 этаж.dwg
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Планировки.dwg
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Структурная схема АКСБиД.dwg
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Additional information
The basis for the development of the working project,
Design Input
2.1 The working design is based on:
Technical Specification for Development of Integrated Safety System. The working design is developed taking into account the following requirements:
Construction Norms and Regulations 110195 - "The instruction about an order of development, coordination, a statement and structure of the project documentation on construction of the enterprises, buildings and constructions";
SN 51278 - "Instructions for designing buildings and structures for electronic computing machines";
OSTN 60093 - "Industry Construction and Technological Standards for Installation of Communication Facilities and Devices";
VSN 33293 - "Instruction on the design of electrical installations of enterprises and telecommunication facilities, wire broadcasting, radio broadcasting and television";
P M0162001 SWEAT (RD 15334.0-03.15000) - "Interindustry rules on labor protection (safety rule) at operation of electroinstallations";
SanPiN 2.2.4.54896 - "Hygienic requirements for microclimate of production premises";
NPB 11099 - "List of buildings, structures, premises and equipment to be protected by automatic fire extinguishing and detection units";
NPB 10595 - "Determination of categories of rooms and buildings by explosion and fire hazard";
RD 45.1202000 (R&D 1122000) - "Process Design Standards..";
PUE - "Electrical Installation Rules";
and other regulatory documents.
Technological solutions
3.1 Automated Safety System Complex
3.1.1 Automated Security System Complex (SSS) is designed to provide security and control access to guarded premises, as well as video monitoring of the situation.
3.1.2 Automated Set of Safety Systems consists of:
• Digital video monitoring systems;
• Access control systems (ACS);
• Security alarm systems (SIS);
• Server dispatch system.
3.2 Server (pom. 4039)
3.2.1 Server facility located on the 4th floor of the building in pom. 4039 and is intended for location of main equipment of safety systems of ISS.
3.2.2 The server room contains a rack with SCR and Access Control and Security Alarm Systems (ECS and OS) servers, a PW5000 controller, a technical signal dispatch and leak control system, as well as power supplies installed on the floor of the equipment.
3.3 Security room (pom. 5023)
3.3.1 Facility security room located on the 5th floor in pom. 5023, is intended for arrangement of safety systems equipment of ISS.
3.3.2 The security room houses the system administrator and operator workstations, the PW5000 Controller, as well as power supplies installed on the equipment floor.
3.4 Room 5085
3.4.1 Room 5085 of the facility, located on the 5th floor, is intended for accommodation of ACS equipment.
3.4.2 Room 5085 houses the PW5000 Controller as well as power supplies installed on the equipment floor.
3.5 Digital Video Monitoring System
3.5.1 Digital video monitoring system is designed to organize continuous round-the-clock video monitoring and recording of the situation in guarded rooms.
3.5.2 Digital video monitoring system provides the following tasks:
- Control of visitors "passage through the entrances to the premises of the building;
- Monitoring of personnel operation;
- Monitoring of required areas of the object with recording of video information on the video server.
3.5.3 Digital video monitoring system is made on the basis of 19 black-and-white CD9210/LV video cameras of internal version and 6 color WV CD9210/LV video cameras of external version of Baxall Company in housings with heating of HEM30, 2 video servers VIPHiLive II-24 and automated workstation of video monitoring and control.
3.5.4 Baxall's black and white CD9210/LV video camera has the following specifications:
- matrix 1/3 "Sony HyperHAD;
- Horizontal resolution - 580 lines (high);
- Signal to noise ratio - 50 dB;
- Sensitivity 0.1 lx;
- 1230 V AC power supply 50 Hz or 1140 V DC;
- Power consumption 4 W;
- Operating ambient temperature from 10 0С to 50 0С;
- Dimensions 66x60x123 mm;
- Weight 0.35 kg.
3.5.5 The SCR server provides recording, processing, archiving, display and transmission of video information to the operator's workstation.
3.5.6 "Inspector +" software is installed on the SCR server. The total speed of recording/displaying video data for each video channel is VIGHi Live II24 - 5.8 frames per second. The size of the video archive is 500 GB.
3.5.7 VIPHi Live II24 servers provide the following functions:
- Simultaneous display on the screen of two video monitors of the operator's workstation up to 24 video cameras;
- Recording video data at the same time on all video cameras to internal disk drives of the SCR server according to the ring principle, when the most "fresh" video data replace the oldest;
- Video recording continuously, by motion detector signal or by operator command;
- Individual settings for each video camera conditions, priority, duration and speed of recording video frames;
- Pre-alarm recording with setting of its duration and recording tempo;
- Contrasting. Increase clarity for object detail;
- Zoom the image;
- Frame printing;
- Export video (avi, jpeg);
- Chroma switching. Displays the format in which the image from this camera will be displayed and processed;
- Fine tuning of the detector. By applying a mask, any areas of the image can easily be excluded from the analysis process, which allows you to detect movements in some parts of the frame and ignore in others;
- Adjustment of detector sensitivity depending on the type of objects moving in the field of vision of video cameras (people, animals, cars, etc.). After that, the system will respond only to objects of a given type, preventing false positives;
- Select the recording method: manually and automatically, when activity occurs in the frame. Automatically and manually adjust the color, brightness, and contrast of each camera;
- Registration of only emergency situations and events preceding them. Recording only alarm information on the disc;
- Flexible setting of video camera maintenance priority, duration and recording rate;
- Recording of events preceding the moment of detection of foreign object in the field of vision of video cameras;
- Using the DELTAWAVELET algorithm (ISS development), which provides video compression twenty or more times without visible distortion, in real time. Setting the compression ratio individually for each video channel (the size of one frame varies from 1 to 15 KB);
- View the video archive without stopping video monitoring. By frame and fast viewing of video recording. Search for frames by date, time, camera number;
- Multilevel system for differentiating access to archived data of the SES server.
3.5.8 Power supply of SCR servers, workstation and power supply units (PU) of video cameras is carried out from the electrical network of guaranteed power supply of the alternating current building with frequency of 50 Hz with nominal voltage of 220V.
3.5.9 Power supply of video cameras is performed from BIR 24V. All video system BPU are located in control rooms. Power supply of thermocouples is provided by BP 24V.
Access control system
3.6.1 Access control system (ACS) is designed for automated control of people's entrance and exit to guarded premises.
3.6.2 Access control system provides:
- Control and registration of the fact and time of entry of people into protected premises. People leaving the guarded premises are not registered;
- Quick analysis of archival data and preparation of reports on the fact, the time of passage through any door equipped with the RMS, the time of arrival and departure, as well as the time of people in the room;
- Creation and operational change of employee database, levels and time of their access;
- Control of temporary restrictions of people's passage through points of passage during the day, week, month, on holidays and weekends;
- Operational control of access points: locking, unlocking doors.
3.6.3 The access control system is implemented using PW5000 controllers manufactured by Honeywell Security. The PW5000 controller is equipped with modules of various functional purposes and consists of:
- metal housing CN5K1ENC1 with power supply and accumulator for installation of up to 9 different functional modules;
- main module PW5K1C consisting of: 32-bit microprocessor, 6 high-speed communication ports, non-volatile memory for storing a database for 20,000 cards and 5,000 events (expanded to 100,000 access cards and 35,000 events), real-time hours with automatic daylight saving time/winter time, definition of leap years and support of various time zones, two inputs to monitor the opening of the housing, backup battery;
- CN5K1EN network card for connecting the PW5000 controller to the LAN using TCP/IP;
- CN5K1R2 functional access control module designed to monitor and control access through 2 access points with input control and free output or through 1 access point with input - output control. It provides connection of 2 card readers with the Weigand interface, has 2 relay outputs for controlling locks and actuators, 2 inputs for controlling the opening of the housing, outputs for controlling the LED with three states and the reader buzzer, an integrated voltage stabilizer for powering the readers;
- CN5K1IN security alarm function module designed to organize up to 16 security alarm loops, 2 relay outputs for control of actuators;
- Power and data loops for the CN5K1ENC1 chassis designed to combine up to 9 CN5K1ENC1 enclosures into a chain without using the main PW5K1IC module and CN5K1EN network card.
3.6.4 PW5000 controllers operate under the control of the RMS server and OS. In case of loss of communication with the RMS server and OS, the PW5000 controllers operate autonomously. The exchange of information between the RMS server and OS and controllers is carried out over a LAN with TCP/IP protocol through a network card (PW5K1EN board on the side of the PW5000 controller and a network card on the side of the RMS server).
3.6.5 The RMS and OS server with WINPAK PRO International software is designed to control the access control system for people to the territory and to the guarded premises of the building, to control the security alarm system, to automatically record "alarm" events and to output information to the display means.
3.6.6 WINPAK PRO International software provides:
- Control, monitoring and programming of RMS;
- Import images for object plans from graphic files of different formats;
- Creation of separate windows for viewing alarm, system and all messages;
- Setting up to 99 levels of priority for displaying messages;
- Add and remove maps group;
- Reporting of various events in the system, including personnel working hours;
- Reports on the programming parameters of the devices included in the system. Select and sort messages according to different criteria
- Limitation of validity of cards;
- Creation of double-sided bedges for printing on plastic cards;
- Setting up to 8 card formats for each PW5000 controller, which allows you to specify specific positions of data placement on cards and use readers of almost any types and manufacturers with an arbitrary number of bits (bits) on the card;
-Rusified interface with the possibility of additional customizing of the program interface, including menus, program windows and system messages.
3.6.7 Doors of premises to be restricted shall be equipped with non-contact card readers of PRPROXPNT model (without codebreaker panel) or PRPROXHROK model (with codebreaker panel) manufactured by HID, TS68 fitters of DORMA and AL300 electromagnetic locks.
3.6.8 PW5000 controllers are powered by 50 Hz AC computer power supply with a nominal voltage of 220V.
3.6.9 Power supply of the SKD actuation mechanisms (electromagnetic locks) is carried out from blocks of sources of redundant food (BIRP 12V1.6A). All BPU are equipped with 7A/h storage batteries, which provides power supply to actuators in case of loss of 220V AC main power supply for at least 3 hours.
30,31,32,33,34,35,36,37-Схема подключения СКД и ОС.dwg
План расположения СКД Аврора 4 этаж.dwg
План расположения СКД Аврора 5 этаж.dwg
План расположения СОС Аврора 4 этаж.dwg
План расположения СОС Аврора 5 этаж.dwg
План расположения СЦВ Аврора 4 этаж.dwg
План расположения СЦВ Аврора 5 этаж.dwg
Планировки.dwg
Структурная схема АКСБиД.dwg