CN104274932A - Fire-fighting control system and method - Google Patents

Abstract

A fire-fighting control method includes the steps: sending a request for acquiring state information of a fire alarm receiving switchboard to the fire alarm receiving switchboard; receiving state information sent by the fire alarm receiving switchboard, and displaying on a display screen of an electronic device; receiving an operation command inputted by the electronic device; and sending the received operation command to the fire alarm receiving switchboard, to correspondingly control the fire alarm receiving switchboard and/or a fire-fighting device connected with the fire alarm receiving switchboard. The state of the fire-fighting device can be quickly understood through the electronic device, and operations on the fire alarm receiving switchboard and the fire-fighting device are performed.

Description

Fire control system and method

Technical field

The present invention relates to a kind of fire-fighting system and method, especially a kind of fire control system and method.

Background technology

LFAP is used for reporting to the police to fire and fire equipments controls.But management and control personnel cannot use handheld apparatus to watch the state of the equipment of LFAP and management and control thereof in real time in short distance.When a fire, Field Force must carry out safety control equipment operation in face of LFAP, and on-the-spot actual catastrophe situation cannot be coordinated to carry out protection operation, easily misses the first opportunity that fire correctly strains.

Summary of the invention

In view of above content, be necessary to provide a kind of fire-fighting control method, electronic installation can be utilized to understand the information of the fire-fighting equipment of LFAP and connection thereof fast, and LFAP and fire-fighting equipment are controlled.

In view of above content, there is a need to provide a kind of fire control system, electronic installation can be utilized to understand the information of the fire-fighting equipment of LFAP and connection thereof fast, and LFAP and fire-fighting equipment are controlled.

Described fire-fighting control method, is applied in electronic installation, and this electronic installation is communicated to connect by wireless network and LFAP, and the method comprises: forwarding step: send the request of the state information obtaining LFAP to LFAP; First receiving step: receive the state information that LFAP sends, and be shown on the display screen of electronic installation; Second receiving step: the operational order receiving electronic installation input; Rate-determining steps: received operational order is sent to LFAP, correspondingly to control LFAP and/or the fire-fighting equipment that is connected with this LFAP.

Described fire control system, runs on electronic installation, and this electronic installation is communicated to connect by wireless network and LFAP, and this system comprises: sending module, for sending the request of the state information obtaining LFAP to LFAP; First receiver module, for receiving the state information that LFAP sends, and is shown on the display screen of electronic installation; Second receiver module, for the operational order of real-time reception electronic installation input; Control module, for received operational order is sent to LFAP, correspondingly to control LFAP and/or the fire-fighting equipment that is connected with this LFAP.

Compared to prior art, the operating state of the fire-fighting equipment that described fire control system and method manage by electronic installation real time inspection LFAP, fire equipments detects quickly and easily.The administrative staff of scene of fire can utilize the fire-fighting equipment of electronic installation to LFAP and management thereof to control, to perform emergency response measure rapidly and accurately according to on-the-spot actual state.

Accompanying drawing explanation

Fig. 1 is the hardware structure figure of fire control system preferred embodiment of the present invention.

Fig. 2 is the functional block diagram of fire control system preferred embodiment of the present invention.

Fig. 3 is the flow chart of fire-fighting control method of the present invention preferred embodiment.

Main element symbol description

Electronic installation	1
		LFAP	2
Fire-fighting equipment	3
		Wireless network	4
First communication module	10
		Display screen	12
Control system	14
		Processor	16
Database	20
		Storage device	22
Input/output module	24
		Second communication module	26
Control unit	28
		Sending module	140
First receiver module	142
		Second receiver module	144
Control module	146

Following detailed description of the invention will further illustrate the present invention in conjunction with above-mentioned accompanying drawing.

Detailed description of the invention

As shown in Figure 1, be the hardware structure figure of fire control system preferred embodiment of the present invention.Described fire control system 14(is hereinafter referred to as control system 14) run in electronic installation 1.Described electronic installation 1 is communicated with LFAP 2 by wireless network 4.In this preferred embodiment, that described wireless network 4 is applied is the short distance wireless data communication technology, such as IEEE802.11b(Wi-Fi) technology, other any suitable short-distance wireless communication technology such as Bluetooth wireless technology.Described electronic installation 1 is mancarried device, the such as mancarried device such as panel computer, smart mobile phone.Described LFAP 2 also controls multiple fire-fighting equipment 3 by the mode of wired or wireless connection, described multiple fire-fighting equipments 3 comprise fire fighting monitoring equipment (such as, smoke sensing device, temperature inductor etc.) and fire protection warning equipment, described fire protection warning equipment is divided into indication warning equipment (such as alarm lamp) and audible alarm equipment (such as alarm sound).

Described electronic installation 1 comprises first communication module 10, display screen 12 and processor 16.Described first communication module 10, for being connected with the second communication module 26 of LFAP 2, makes electronic installation 1 and LFAP 2 carry out radio communication.First and second described communication module can be bluetooth or Wi-Fi wireless communication module.Described display screen 12 is for the visualized data etc. of display electronics assemblies 1.Described processor 16 for performing the program code of each program segment in described control system 14, to realize the function (referring to the description of Fig. 2) of each functional module in control system 14.

Described LFAP 2 also comprises database 20, the second storage device 22 and input/output module 24, second communication module 26 and control unit 28.Store the materials for registration of the administrative staff that can manage LFAP 2 in described database 20, include, but not limited to the data such as account name, password.The second described storage device 22 comprises current unlatching (enable)/cut out (disable) state of the input/output module 24 of LFAP 2, and the equipment information of the multiple fire-fighting equipments 3 be connected with LFAP 2 and current On/Off state.Described equipment information includes, but are not limited to the ID of each fire-fighting equipment 3.

In this case preferred embodiment, described input/output module 24 refers to monitoring input module (such as camera) in LFAP 2 and voice output module (such as alarm buzzer).In other preferred embodiments, described input/output module 24 also can comprise the picture output module of LFAP 2, such as, and display screen.

Described control unit 28 is for carrying out data interaction with electronic installation 1, such as, receive the instruction that electronic installation 1 sends, or send data to electronic installation 1, the state information of multiple fire-fighting equipments 3 that this control unit 28 can obtain input/output module 24 in LFAP 2 and connect.

In this preferred embodiment, described electronic installation 1 with between LFAP 2 in advance agreement have the operational order that LFAP 2 and multiple fire-fighting equipments 3 of being connected thereof are operated.Described operational order includes, but not limited to involution instruction, isolated instructions and mute command.Described involution instruction is for recovering the initial setting up state that LFAP 2 is LFAP 2, and described initial setting up state comprises the initial On/Off state of input/output module 24 and multiple fire-fighting equipment 3; Described isolated instructions is used for monitoring fire fighting monitoring equipment in input module and multiple fire-fighting equipment 3 in not enable (disable) LFAP 2; Described mute command is used for the audible alarm equipment in the voice output module of not enable LFAP 2 and multiple fire-fighting equipment 3.

In order to make the present invention more perfect, described operational order also comprises enabled instruction and closes hint instructions, described enabled instruction is used for the input/output module 24 of enable LFAP 2 and multiple fire-fighting equipment 3, and described closedown hint instructions is used for the indication warning equipment in not enable multiple fire-fighting equipment 3.

As shown in Figure 2, be the functional block diagram of fire control system preferred embodiment of the present invention.Described control system 14 comprises sending module 140, first receiver module 142, second receiver module 144 and control module 146.Each module 140 ~ 146 is all stored in the storage device (not shown) of electronic installation 1 with the form of program code or instruction or solidifies in the operating system (not shown) of this electronic installation 1 above, and performed by the processor 16 of this electronic installation 1.

Described sending module 140, for when being connected correctly to LFAP 2, sends the request of the state information obtaining LFAP 2 to LFAP 2.Described electronic installation 1 passes through to send link information to LFAP 2, with exact connect ion LFAP 2.Described link information includes, but not limited to the identification code of electronic installation 1, the account number cipher etc. that electronic installation 1 inputs.The account number cipher that the control unit 28 of described LFAP 2 utilizes the materials for registration in database 20 and electronic installation 1 to send continues comparison, to determine that whether electronic installation 1 is for exact connect ion.Described identification code identifies the mark of this electronic installation 1, such as, IP(Internet Protocol) address or Bluetooth address.

The state information that the first described receiver module 142 sends for the control unit 28 receiving LFAP 2, and this state information is shown on display screen 12.Described state information comprises the On/Off state of multiple fire-fighting equipments 3 that the On/Off state of the input/output module 24 in LFAP 2 and LFAP connect.

After described state information is shown in display screen 12, the operational order that user can be controlled LFAP 2 and/or multiple fire-fighting equipment 3 by input equipment (not shown) inputs (or triggering) such as the Touch Screen of electronic installation 1 or keyboards.Such as, described state information can be shown on display screen 12 with the form of status bar, each status bar comprises the current state of monitoring input module or voice output module or each fire-fighting equipment, and trigger the diagram of operational order or the button of above-mentioned module or equipment, user is according to shown state information, can click or drag operation this status bar, to input the operational order controlled LFAP 2 and/or multiple fire-fighting equipment 3.

The second described receiver module 144 for the operational order of the input of real-time reception electronic installation 1, such as, receives from the tactile panel of electronic installation 1 or keyboard (not shown).

Described control module 146, for sending the control unit 28 of received operational order to LFAP 2, correspondingly controls to make control unit 28 pairs of LFAPs 2 and/or fire-fighting equipment 3.

Particularly, control module 146 sends involution instruction to LFAP 2, recovers the input/output module 24 of LFAP 2 and the initial On/Off state of multiple fire-fighting equipment 3 to control LFAP 2.

The isolated instructions of monitoring input module or certain fire fighting monitoring equipment that control module 146 sends LFAP 2 to LFAP 2, to control LFAP 2 this monitoring input module not enable or this fire fighting monitoring equipment.

Control module 146 sends the voice output module of LFAP 2 or the mute command of certain audible alarm equipment, to close this voice output module or this audible alarm equipment.

As shown in Figure 3, be the flow chart that fire-fighting control method preferred embodiment of the present invention sends audio frequency information relevant information.

Step S110, when being connected correctly to LFAP, sending module 140 sends the request of the state information obtaining LFAP 2 to LFAP 2.

Step S111, the first receiver module 142 receives the state information that LFAP 2 sends, and is shown on display screen 12 by this state information.

Step S112, the operational order of the input of the second described receiver module 144 real-time reception electronic installation 1, such as, from tactile panel or the reception of keyboard (not shown) of electronic installation 1.

Step S113, described control module 146 for sending received operational order to LFAP 2, correspondingly to control LFAP 2 and/or fire-fighting equipment 3.

Particularly, control module 146 sends involution instruction to LFAP 2, recovers the input/output module 24 of LFAP 2 and the initial On/Off state of multiple fire-fighting equipment 3 to control LFAP 2.

The isolated instructions of monitoring input module or certain fire fighting monitoring equipment that control module 146 sends LFAP 2 to LFAP 2, to control LFAP 2 this monitoring input module not enable or this fire fighting monitoring equipment.

Control module 146 sends the voice output module of LFAP 2 or the mute command of certain audible alarm equipment, to close this voice output module or this audible alarm equipment.

Above embodiment is only in order to illustrate technical scheme of the present invention and unrestricted, although with reference to preferred embodiment to invention has been detailed description, those of ordinary skill in the art is to be understood that, can modify to technical scheme of the present invention or equivalent replacement, and not depart from the spirit and scope of technical solution of the present invention.

Claims (10)

1. a fire-fighting control method, is applied in electronic installation, and this electronic installation is communicated to connect by wireless network and LFAP, and it is characterized in that, the method comprises:

Forwarding step: send the request of the state information obtaining LFAP to LFAP;

First receiving step: receive the state information that LFAP sends, and be shown on the display screen of electronic installation;

Second receiving step: the operational order receiving electronic installation input;

Rate-determining steps: received operational order is sent to LFAP, correspondingly to control LFAP and/or the fire-fighting equipment that is connected with this LFAP.

2. fire-fighting control method as claimed in claim 1, it is characterized in that, described state information comprises unlatching or the closed condition of monitoring input module in LFAP and voice output module, and the unlatching of the fire-fighting equipment be connected with this LFAP or closed condition.

3. fire-fighting control method as claimed in claim 1, is characterized in that, described operational order refers to the instruction to the connected fire-fighting equipment operation of LFAP, and this operational order comprises involution instruction, isolated instructions and mute command.

4. fire-fighting control method as claimed in claim 3, it is characterized in that, by sending involution instruction to LFAP in described rate-determining steps, the monitoring input module of LFAP and voice output module is recovered to control LFAP, and the initial unlatching of fire-fighting equipment or closed condition;

The isolated instructions sending certain fire fighting monitoring equipment in the monitoring input module of LFAP or fire-fighting equipment to LFAP, to control LFAP this monitoring input module not enable or this fire fighting monitoring equipment;

The mute command sending certain audible alarm equipment in voice output module in LFAP or fire-fighting equipment to LFAP, to control this voice output module or audible alarm device shutdown.

5. fire-fighting control method as claimed in claim 1, is characterized in that, what described wireless network was applied is the short distance wireless data communication technology.

6. a fire control system, runs on machine in electronic installation, and this electronic installation is communicated to connect by wireless network and LFAP, it is characterized in that, this system comprises:

Sending module, for sending the request of the state information obtaining LFAP to LFAP;

First receiver module, for receiving the state information that LFAP sends, and is shown on the display screen of electronic installation;

Second receiver module, for the operational order of real-time reception electronic installation input;

Control module, for received operational order is sent to LFAP, correspondingly to control LFAP and/or the fire-fighting equipment that is connected with this LFAP.

7. fire control system as claimed in claim 6, it is characterized in that, described state information comprises unlatching or the closed condition of monitoring input module in LFAP and voice output module, and the unlatching of the fire-fighting equipment be connected with this LFAP or closed condition.

8. fire control system as claimed in claim 6, is characterized in that, described operational order refers to the instruction to the connected fire-fighting equipment operation of LFAP, and this operational order comprises involution instruction, isolated instructions and mute command.

9. fire control system as claimed in claim 8, it is characterized in that, described control module is by sending involution instruction to LFAP, the monitoring input module of LFAP and voice output module is recovered to control LFAP, and the initial unlatching of fire-fighting equipment or closed condition;

The isolated instructions sending certain fire fighting monitoring equipment in the monitoring input module of LFAP or fire-fighting equipment to LFAP, to control LFAP this monitoring input module not enable or this fire fighting monitoring equipment;

The mute command sending certain audible alarm equipment in voice output module in LFAP or fire-fighting equipment to LFAP, to control this voice output module or audible alarm device shutdown.

10. fire control system as claimed in claim 6, is characterized in that, what described wireless network was applied is the short distance wireless data communication technology.