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Fanhai Sanjiang
Fire Alarm Control Panel
JB-QBL-9116E
USER'S MANUAL
SHENZHEN FANHAI SANJIANG ELECTRONICS CO.,LTD.
Address: Floor 3, Guangcai Xintiandi Mansion, Nanshan
Avenue, Nanshan District, Shenzhen, China
Post code: 518054
Tel: +86 (755) 86226969
Fax: +86 (755) 86223939
Service Hotline: 400-7700-119
Website:
www.fhsjdz.com
I
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Related Manuals for SHENZHEN FANHAI SANJIANG ELECTRONICS JB-QBL-9116E
Summary of Contents for SHENZHEN FANHAI SANJIANG ELECTRONICS JB-QBL-9116E
- Page 1 Fanhai Sanjiang Fire Alarm Control Panel JB-QBL-9116E USER’S MANUAL SHENZHEN FANHAI SANJIANG ELECTRONICS CO.,LTD. Address: Floor 3, Guangcai Xintiandi Mansion, Nanshan Avenue, Nanshan District, Shenzhen, China Post code: 518054 Tel: +86 (755) 86226969 Fax: +86 (755) 86223939 Service Hotline: 400-7700-119 Website: www.fhsjdz.com...
- Page 2 Version: 5066160421 Preface JB-QBL-9116E fire alarm control unit is a new generation of intelligent and integrated fire alarm and linkage control unit designed by Shenzhen Fanhai Sanjiang Electronics Co., Ltd. The company strictly follows the requirements and spirit of GB 4717-2005 Fire Alarm Control Unit and...
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Page 3: Table Of Contents
Contents Chapter 1 System Overview........................1 1.1 System introduction.........................1 1.2 System features..........................1 1.3 System connection diagram......................2 1.4 Introduction to system equipments....................2 1.5 Technical parameters of system products................... 3 1.5.1 Power supply.........................3 1.5.2 System operating environment..................3 1.5.3 Peripheral equipment......................3 Chapter 2 Engineering Installation and Dimension of the System............ - Page 4 4.4.4 SP-Test Start/Stop......................44 4.4.5 Auto Register........................44 4.4.6 Disable Current Alarm....................... 45 4.4.7 Query Disable Device......................45 4.4.8 Cancel All Disable......................46 4.4.9 Query Current Delay......................46 4.4.10 Ethernet Check.........................47 4.5 Special............................. 47 4.5.1 USB backup........................47 4.5.2 USB loading........................48 4.5.3 Special fault.........................49 4.5.4 Bus check..........................
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Page 5: Chapter 1 System Overview
100-fold and 1000-fold increase, respectively, compared to traditional technologies JB-QBL-9116E is provided with 7" color display screen (LCD), with a display resolution of 800×480. The operation interface imitates Windows menus and window interfaces and is almost the same as the computer operating and using habits, thus facilitates the learning. -
Page 6: System Connection Diagram
1.3 System connection diagram Figure 1-1 System connection diagram 1.4 Introduction to system equipments As shown in Figure 1-1,in order to familiarize you with this system, the equipments are introduced briefly in the following sections. The fire control system is composed of the following main constituent parts: Main control part The main control part is responsible for processing and analyzing the data messages... -
Page 7: Technical Parameters Of System Products
Display component The display component provides main output interface for alarm message and routine maintenance and query interface. Input device The system transplants the computer standard peripheral interface, panel buttons or USB-interfaced keyboard / button as input devices, which brings much convenience for the user to set up and maintain the system. -
Page 8: Chapter 2 Engineering Installation And Dimension Of The System
Chapter 2 Engineering Installation and Dimension of the System 2.1 Outline and dimension diagram of products Outline and dimension of JB-QBL-9116E Figure 2‑1 Case dimension 2.2 System installation 2.2.1 Items check Before installation, check the field equipment at first. After opening the packing box, check... -
Page 9: Chapter 3 System Debugging And Use
3.2 System operating instructions 3.2.1 Functions of the panel The layout of JB-QBL-9116E panel is as follows: Figure 3-1 Layout diagram of the panel The design of panel contains the basic functions of alarm enquiries and control. The... - Page 10 ① Indication function: Figure 3-2 Indication function zone Silk-screen Light Function description characters color The indicator light will be on when the mainboard is normally supplied by the host (or standby power supply). The illuminating of the indicator light does not indicate other system components POWER Green (except for the mainboard) are normally supplied, that...
- Page 11 The indicator light is temporarily useless. RESERVE Yellow The indicator light is temporarily useless. RESERVE ② Key functional zone: Figure 3-3 Key function zone 1) KEYBOARD function key (with light key) Originally, the panel keys are under OFF state at power-on, KEYBOARD indicator light is off.
- Page 12 Press MUTE key to mute the sounds of interior buzzer, fire indicating panel and graphic display device in the fire control room. Under mute state, the buzzer and other audible alarm apparatus will be restarted in case of any new alarm. MUTE key is the only key without password protection in the system.
- Page 13 10) RESERVE function key RESERVE In manual status, pressing switch to automatic status, meanwhile the "auto" indicator lights up; switch to manual status after pressing again and the indicator is out. In RESERVE CAN-Net, press on one host, then the status of all hosts is changed at the same time.
- Page 14 Figure 3-5 linkage unit function zone If the key switch of the system is allowed, press START to enable corresponding control panels of the bus switched in, and meanwhile the indicator light is lit. On the contrary, press STOP to disable corresponding control panels of the bus switched in. ...
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Page 15: Start-Up And Power-On
Figure 3‑7 Display interface The following describes the conventional display bars on the screen, which will be displayed no matter what state the screen is in. There are 4 conventional display bars on the display screen, as shown in the following figure: ... -
Page 16: Login Operation Of The Users
Figure 3‑9 Normal prompt interface of the system operation The prompt interface means the system has entered into the monitoring status. 3.2.3 Login operation of the users Login in refers to the process of entering password by the users and identifying by the system. - Page 17 Login operation Under not-logged-in state, press C 、A on USB keyboard simultaneously, or press "*" key at the left bottom corner of the panel, and pop up the password input window (as shown below). Press E key on USB keyboard or "OK" key on the panel keyboard after NTER entering the password.
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Page 18: Special Function Keys Of The System
Under not-logged-in state, the user may only execute "MUTE" operation and other operations are not allowed. 3.2.4 Special function keys of the system The system adopts the standard USB keyboard compatible with PC and defines the following special function keys. The function keys corresponding to keyboard are set on the panel keyboard and the specific contents are as follows: Function keys Shortcuts... -
Page 19: Input Of Characters
emergencies have been detected and must be disposed preferentially. At this moment, F1 key is in vain. However, the system debugger and the super user may enter into the setting interface under fire alarm and feedback state as the system decides it is under debugging or maintenance state currently. - Page 20 3.2.5.1 Quanpin input method: Only support word input, not support word group input; Enter rightful phonetic alphabets and press S key to prompt the lookup floating window PACE (as shown in Figure below); + and Select according to word number 1-9 and press keys to turn pages for the lookup character window;...
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Page 21: Chapter 4 System Configuration Details
Chapter 4 System Configuration Details This chapter will describe operation of the submenus related to the system configuration including system setup, bus setup and linkage setup. The following figure is the list of menu setup. Figure 4‑1 List of menu setup 4.1 System setup Click on S menu and pop up the submenu, as shown in Figure below:... -
Page 22: Zone Setup, Building Setup, Floor Setup
Figure 4‑3 Time setup interface In the networking system of multiple hosts, as the host time is required to be the same, all hosts in the system will take time of the concentrator as criterion. This means other hosts will align with the time setup of the concentrator automatically and synchronously, the system time will be synchronized to time of the concentrator even if other hosts have set the time. - Page 23 and the system will consider 3F and 5F are adjacent and all linkages can be scrolled normally. Zone setup:the zone can be named in "position description"; the initialization value in the figure is "zone 1-N". Figure 4‑4 Zone setup interface ...
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Page 24: Network Setup
Figure 4-6 Floor design interface The building can be renamed in the "position description" column in the form of building setup, which makes the alarm message easier to read, for example, if building 1 is named as "science building", the alarm message would be changed as follows: Fire alarm at room 28, F8, building 1→Fire alarm at room 28, F8, science building If the location information of each detector or module shall be completely independent, the... - Page 25 changes. CAN Internet: The transmission rate set for all hosts in the network must be the same, the networked hosts must be acknowledged and the host number shall differ from each other. The Network setup interface is as follows: Figure 4-7 Network setup interface with CAN After modification of Network setup information, the machine can operate normally only after power-on again.
- Page 26 bus, the higher the reliability. It is suggested to use a lower transmission rate for the transmission distance greater than 1000m. For the application with larger length of networked bus and great number of networked host, that is, length requirement and number requirement are contradictory, it is suggested to give priority to length requirement and use lower transmission rate.
- Page 27 Figure 4-9 Connection schematic diagram of host networking Ethernet Internet: The networked hosts must be at the same net work segment. It must be acknowledged that which hosts are in the network. The host number and IP Address should be differentfrom each other. And each networked host equals as a personal computer.
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Page 28: Password Setup
Figure 4-11 Network setup interface with Ethernet Modifying method: First ,select address of the host in drop-down box of "Host number", click the "Send alarm to sub- host" and will display"√" at the left blank box ,select "Ethernet" in the Network Md options, set different IP Addr as "192.168.1.1" and set the same Mask as "255.255.255.0"at each control panel. -
Page 29: Ext.-Connected Fip Setup
The 485-bus indicating panel setup panel is as follows; refer to instructions on detector module setup for indicating panel setup of detector bus: Figure 4‑13 Indicating panel setup interface 1 Find the address of 485 bus indicating panel to be registered. Click on "Registration" column to show "√". -
Page 30: Printer Setup
Figure 4‑14 Power setup interface Methods of modifying: click on "Registration" column of the corresponding power to show "√", press OK button to save the setup and exit, otherwise press Cancel button to retain the original setup and exit. The user is not suggested to cancel the registration of host power supply unless special debugging is required. -
Page 31: Can-Bus
If the system is in alarm (whether it’s trouble or fire alarm), LCD Auto-off function will become invalid and LCD latches on. So dispose abnormity ASAP to ensure the longevity of LCD. 4.2 CAN-bus The submenu of bus setup is as follows: Figure 4‑17 Bus setup menu 4.2.1 IO-Board setup Modification: Choose IO-Board, click in "register", "... - Page 32 The following section describes the line-by-line sheet setup of detector/module. As setup of the system imitates the spreadsheet of Windows operation interface, most of the operations are completed by the mouse, which operates drop-down box, horizontal scroll bar and vertical scroll bar.
- Page 33 Figure 4‑20 Setup of building number, floor number and room number As shown in the figure, the building number is selected through the drop-down box and the input of floor number and room number is similar. The locations of detector/module can be described in detail by the character string of position description;...
- Page 34 Figure 4‑22 Position description setup When "Pinyin input method" is prompted at the left bottom corner of the figure, it means "Pinyin input method" is in use currently and Chinese characters can be input by this. 10 Chinese characters or 20 English characters can be input into "position description" column for each detector/module, as their display information at the time of alarm output.
- Page 35 them are ticked) and are set according to floor number and room number of address 1 and options selected in the drop-down list after it (i.e. "same", "ascending order" and "descending order"; "same" by default); if ascending order is checked in the drop-down list, the floor number of equipment at address 1 is 2, the floor number of equipment at address 2 is 3 and the floor number of equipment at address 3 is 4, and so on, which is also suitable for the room number.
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Page 36: Working Mode Setup
Other columns can be set in the same way. 4.2.3 Working mode setup The function of work mode setup allows the user to change work mode of any equipment on the bus and can change work mode of all the 324 equipment on a circuit one-time. The work mode setup interface is as follows: Figure 4-26 Work mode setup Select interface board number, circuit number and work modes to be changed in the... -
Page 37: System Linkage Setup
Figure 4-30 Linkage setup menu 4.3.1 System linkage setup The following section gives a brief description of common issues of linkage setup with the system linkage as an example.The interface of system linkage setup is as follows: Figure 4‑31 System linkage setup interface The setup interface is divided into 3 areas: condition setting area, result output area and target selection area... - Page 38 Each page (i.e. display of the entire screen) corresponds to a linkage condition. The setup flow of a linkage condition is as follows: Step 1: condition setting Four buttons (Prev, Next, Add and Del) and a text input box are set above the condition setting area, which are used for inquiring, adding or deleting linkage conditions.
- Page 39 Figure 4-34 Output result If it is indicated that the linkage condition is true, two modules (module 1 and module 2) will be requested for action. The two modules control fire pumps. In the linkage interface, only the module address number can be selected, the equipment controlled by the module shall be set at the detector/module setup form.
- Page 40 Figure 4-33 Selection of input type The 5 types commonly used by the system are presented by check boxes and 4 drop-down selection boxes are given for selection of any equipment type. If the types to be selected exceed 9, a linkage condition can be set additionally, pointing to the same output results. The selection of linkage alarms is as shown in the figure below: Figure 4-34 Linkage alarm selection The default value of linkage alarm is 01, which means the condition is satisfied when any...
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Page 41: Zone Linkage Setup
"fire pump" as the output result, after that, the linkage relation is completely set. The system supports complex linkage of any 99 points at most. A complete linkage condition must include the following element: 12) Complete zone condition (for example, the room linage must include start room number and end room number) 13) Type condition (that is, at least one equipment of a certain type is checked) 14) Delay time... -
Page 42: Floor Linkage Setup
Figure 4-36 Building linkage setup 4.3.4 Floor linkage setup The floor-related linkage conditions in the system include two types: type output and point input. The figure below presents the floor linkage setup of type output, floor options are unavailable in the condition setup, a check box "scroll" is added only and a certain or some equipment types can be selected in the optional module list. -
Page 43: Room Linkage Setup
The linkage relation can be used cooperatively with the function "equipment type add", which can greatly reduce setup workload of the user. The linkage relation of floor type output shall be immediately started and cannot be set at delay time! Figure 4-38 Floor linkage - point output The figure shown above is the floor linkage of point output type and certain floor in the system can be selected by drop-down box, which means The alarm of detector or module of any specified type at the... -
Page 44: Complex Linkage Setup
For room linkage, start room number and end room number at a certain floor can be selected by drop-down box, which means: When detector or module of any specified type at all rooms with a number between start number and end number at the floor gives an alarm, all modules listed in the output result list will be activated. -
Page 45: Fire Hydrant Setup
Figure 4-41 Setup of manual control panel 4.3.8 Fire Hydrant Setup The four/six-wire fire hydrant produced by our company can be used as four-wire fire hydrant and is compatible with the functions of old six-wire fire hydrant. When used as four-wire fire hydrant, the corresponding relation between water pump shall be set by the setting function. -
Page 46: Operation
4.4 Operation This chapter introduces options in "Operation" submenu. "Operation" submenu is as shown in the figure below: Figure 4-43 Operation menu 4.4.1 Mute,Reset,System test,Horn/strobe control,Linkage Auto/Manual,Sounder Auto/manual,Manual permit/PRHB The function of the above 6 operations are identical with the keys on the panel. Refer to the "panel function". -
Page 47: Single Point Test
When the check is completed, all repeated addresses in the loop will be displayed. Now it can check again, or exit the repeat address check by pressing "Back". The time-out error will be displayed if repeat value and stop command have not been obtained within 120 sec, and the test shall be carried out again. 4.4.3 Single Point Test The single point test can be used to test operating state of detector/module on site and is generally used for debugging or fault diagnosis. -
Page 48: Sp-Test Start/Stop
manufact type: indicating actual manufact type of detector/module being tested. Current state: indicating the state of detector/module being tested, such as normal, short-circuit, alarm and fault. On-line state: indicating whether detector/module being tested has repeated address on the loop. If repeated address is shown, detector/module being tested might be in error state and the returned value is invalid. -
Page 49: Disable Current Alarm
Figure 4-48 System prompt of auto register The following figure shows comparative results given by the system after auto register: Figure 4 -49 System register result The above figure shows that 5 detectors are registered in the original setting, but only 2 detectors are on-line currently;... -
Page 50: Cancel All Disable
Figure 4-51 Query disable device The entire screen can display 16 disable points; if the total number exceeds 16, click on Prev. and Next to turn page and inquire. Click on Back button to exit the isolation query interface. The disable device query interface is for the user to acknowledge current disable condition of the equipment;... -
Page 51: Ethernet Check
4.4.10 Ethernet Check This is function is used to test the Ethernet network quality.The system normal prompt is as follows: Figure 4-54 Networking check 4.5 Special The menu of special operations is as shown below: Figure 4-55 Menu of special operations The special operations are only for system debugging and maintenance. -
Page 52: Usb Loading
interface is available on the system. Please format U disk by a card reader on a standard PC before usage. The capacity of U disk for data backup shall be greater than 2M. The system prompt is as follows: Figure 4-56 Prompt of U disk data backup If U disk is inserted incorrectly, the system prompt will be as follows: Figure 4-57 Prompt when U disk is not inserted If U disk is inserted correctly and the remaining storage capacity satisfies the requirement,... -
Page 53: Special Fault
Figure 4- 59 Prompt of U disk data load The system prompt is as follows after completion of data load: Figure 4- 60 Prompt of successful U disk data load The newly-loaded data will take effect only after the system is re-electrified after loading the data! 4.5.3 Special fault Special faults can be divided into repeated code fault type mismatch, sensor fault and... -
Page 54: Statistics
Figure 4-62 File Resuming To prevent important setup information from losing due to mal-operations, this function can only be used after logging in through "super user" password and ordinary users are not allowed to use it. 4.5.6 Statistics The statistical function is used for counting registered number of zones, buildings and floors in the system and registered number of detectors and modules of each type set on the interface board. -
Page 55: History Fire
Figure 4-65 History menu Each sub-item can access 1000 historical records at most. If historical messages total more than 1000, the system will update automatically and overwrite. The system does not keep historical records in real time, which means certain historical messages will not be saved in case of sudden system power-down or mandatory reset. -
Page 56: History Fault
Figure 4-66 History fire alarm interface To use print function of historical fire alarms, enter start number and end number of the Print historical fire alarm to be printed at the print column in the lower left corner. Click on proceed through host printer. -
Page 57: History Operation
request/feedback information as follows: Time Equipment Company Type (Year/Month/Day/Hour/ Linkage Code Minute) 16/03/17 10:14 00101001 Zone1building1floor1No1 Fire Door The query interface of history linkage is similar to that of historical fire alarm, which lists request time and feedback time, as follows: Figure 4-68 History linkage interface 4.6.4 History operation Historical operations include the operations carried out on the system by the user, such as... -
Page 58: History Deletion
4.6.5 History deletion The historical deletions can be used to remove historical faults, historical linkage, historical fire alarms and historical operations, and this historical information can be deleted by selecting relevant option. Barring special circumstances, the user is not suggested to delete historical records. -
Page 59: Chapter 5 Alarm Function
Chapter 5 Alarm Function Alarm is the main function of the fire alarm linkage control equipment. The system can recognize, control and drive our company’s bus devices and multi-wire devices, including intelligent detectors and modules. The alarm functions mainly include fire alarm, device linkage and handling and display of various faults. - Page 60 When a certain device in the system detects an alarm signal, the signal will be processed in the host for confirmation and linkage operation. The corresponding results will be displayed on the host screen with corresponding acousto-optic instructions simultaneously given by the indicator light and the buzzer.
- Page 61 the indicating panel the host Power fault Printer fault 8. Activated alarm box Activated alarm box is used to show which type of alarm messages in the alarm interface is under activated status and only such allows manual query operation. Operations can be performed on the alarm interface: Alarm information query: ...
- Page 62 4. The first fire alarm, the first request and the first fault are displayed in different colors; 5. Fire alarm shows information concerning building, floor and room; 6. Total number of fire alarms, requests, feedbacks and faults as well as current data and time are displayed in the status bar;...
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Page 63: Chapter 6 Analysis And Elimination Of Possible Causes Of The Fault
Chapter 6 Analysis and Elimination of Possible Causes of the Fault Fault phenomenon: No action is generated from alarm bell and acousto-optic alarm apparatus when the system reports a fire alarm. Handling methods and possible causes: Please check whether the far sound indicator light on the panel has been lit. Whether there is fault information about that alarm bell or acousto-optic alarm apparatus on the host. - Page 64 from host 1 indicates the networking line has been connected and host 1 has registered host 2 in its networking setting; The fact that host 1 can’t receive alarm message of host 2 only indicates that host 2 fails to register host 1. ...
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Page 65: Chapter 7 Appendix
Chapter 7 Appendix Appendix1: List of Equipment Types Types of alarm equipment: IonD (Ion smoke detector) OptD (Photoelectric smoke detector) HeatD (Heat detector) BeamD (Infrared detector) CombD (Composite detector) ConvIon (Interface ion detector) ConvPhoto (Interface photoelectric detector) ConvTherm (Interface heat detector) ConvBeam (Interface infrared detector) ConvCombn... - Page 66 16. Generator (Alternator) 17. SprinPump (Spray pump) 18. PresrPump (Stabilizing pump) 19. FirePump (Fire pump) 20. FoamPump (Foam pump) 21. Drencher (Water curtain pump) 22. CutPubPwr (Municipal electricity cut-off) 23. Lift-Down (Elevator forced landing) 24. CurtnHalf (Curtain semi-drop) 25. CurtnDown (Curtain full-stop) 26.
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