CN114554580B - Quick starting method of wireless fire-fighting linkage equipment - Google Patents

Abstract

The invention provides a quick starting method of wireless fire-fighting linkage equipment, which comprises the following steps: the front-end wireless device communicates with the fire control host in a coded manner; when the front-end wireless equipment encounters a fire condition and sends an alarm signal to the fire control host, the fire control host determines the wireless fire control linkage equipment to be started through comparison of the received coded character string and the linkage programming formula; when corresponding wireless fire-fighting linkage equipment is awakened and started, all the wireless fire-fighting linkage equipment which needs to be started is awakened in a short preset time period S1, and a starting command is sent to the awakened wireless fire-fighting linkage equipment in a long preset time period S2, namely, a plurality of wireless linkage fire-fighting equipment can be started after one awakening, and compared with the traditional one-by-one awakening and one-by-one starting, the starting efficiency is greatly improved, and meanwhile, the energy consumption is reduced.

Description

Quick starting method of wireless fire-fighting linkage equipment

Technical Field

The invention relates to a quick starting method of wireless fire-fighting linkage equipment, and belongs to the technical field of wireless fire-fighting equipment.

Background

The wireless fire-fighting linkage equipment is suitable for being installed in environments such as public places and factories, when fire alarms exist, the wireless fire-fighting linkage equipment can send alarm signals to a fire-fighting controller through a wireless communication technology after receiving closing signals, and can output the closing signals to be matched with other equipment (such as smoke exhaust valves, fireproof doors and the like), so that fire-fighting linkage actions are realized, and the fire conditions are blocked.

The quick response and the starting of the wireless fire-fighting linkage equipment are of great importance, and the wireless fire-fighting linkage equipment can fight out golden time for blocking fire. However, in the prior art, the wireless fire-fighting linkage equipment is usually started in a mode of waking up one by one and starting one by one, so that the starting efficiency is low, as disclosed in patent CN212135603U, namely, a fire-fighting smoke-discharging fire-proof valve equipment linkage system based on wireless signal transmission.

Patent CN112396793a provides a "linkage method of wireless smoke sensing terminal and system thereof", when smoke sensing terminal detects a fire, the smoke sensing terminal starts audible and visual alarm and transmits information to wireless module, wireless module sends linkage request to transmit information to other wireless module with same communication frequency, chain alarm is formed in the same area, the transmission range of alarm information is enlarged, and power consumption is lower. In the patent, the linkage of the smoke sensing terminal and the wireless module realizes low power consumption, but no disclosure is made on how to realize the quick start of the wireless fire-fighting linkage equipment under the condition of low power consumption.

At present, an optimal starting mode is not found about the quick starting of the wireless fire-fighting linkage equipment, and particularly the quick starting is realized under the condition of low power consumption.

Disclosure of Invention

The invention provides a quick starting method of wireless fire-fighting linkage equipment, and aims to enable the wireless fire-fighting linkage equipment to be quickly started under the condition of low power consumption.

The invention is implemented by the following technical scheme:

a quick starting method of wireless fire-fighting linkage equipment comprises the following steps:

(1) The front-end wireless equipment communicates with the fire control host in a coding mode, the coding format is an N-bit character string, and the codes of the front-end wireless equipment are distributed by the fire control host and are unique relative to each front-end wireless equipment;

(2) When the front-end wireless equipment encounters a fire condition and sends an alarm signal to the fire control host, the fire control host determines the wireless fire control linkage equipment to be started through comparison of the received coded character string and the linkage programming formula;

(3) The preset time period is S1, and the fire control host simultaneously sends a wake-up command to the wireless fire control linkage equipment to be started in the preset time period S1 in a broadcast message mode, and wakes up the corresponding wireless fire control linkage equipment;

(4) After receiving the wake-up command, the wireless fire-fighting linkage equipment to be started exits from the low-power mode and is switched to the receiving mode;

(5) The method comprises the steps that in a preset time period S2, if the wireless fire-fighting linkage equipment to be started does not receive a starting command of a fire-fighting control host in the preset time period S2, the wireless fire-fighting linkage equipment to be started enters a low-power consumption mode again; if the wireless fire-fighting linkage equipment to be started receives a starting command of the fire-fighting control host in a preset time period S2 and is started successfully, the wireless fire-fighting linkage equipment is switched from a receiving mode to a starting mode;

(6) After entering a starting mode, under the condition that a preset time period S2 is not exhausted, the fire control host sequentially sends starting commands to wireless fire control linkage equipment to be started; if the preset time period S2 is exhausted, the step (1) is skipped, and the fire control host computer sends a wake-up command and a start command to the wireless fire control linkage equipment to be started again.

Preferably, in step (4), when the fire control host sequentially sends a start command to the wireless fire control linkage equipment to be started, if the wireless fire control linkage equipment is not started successfully, the fire control host sends a wake-up command and a start command to the wireless fire control linkage equipment again within a preset time period S3, the preset time period S3 is less than a preset time period S1, if the wireless fire control linkage equipment is not started successfully yet, the next wireless fire control linkage equipment is sequentially started.

Preferably, for the wireless fire-fighting linkage equipment which cannot be started successfully, the fire-fighting control host computer sends a wake-up command and a starting command to the wireless fire-fighting linkage equipment again in a preset time period S4, and the wireless fire-fighting linkage equipment which cannot be started successfully still is fed back to the fire-fighting control host computer.

Preferably, the preset time period S1 is equal to or less than 3S is equal to or less than the preset time period S2.

Preferably, the encoding character string in the linkage programming formula adopts variable length, but the length is less than or equal to the length of the encoding character string of the equipment, and the linkage formula format is that 1, Y (encoding wireless fire-fighting linkage equipment type) = (encoding front-end wireless equipment type) _condition number + (encoding front-end wireless equipment type) _condition number+ &. 2. Y (coded wireless fire fighting linkage device type) = (coded wireless device type) _number of conditions×.

Preferably, the front-end wireless device includes, but is not limited to, a wireless smoke detector, a wireless temperature detector, a wireless manual alarm button, a wireless combustible gas detector, a wireless electrical fire detector.

Preferably, the wireless fire-fighting linkage equipment comprises, but is not limited to, a wireless input-output module and a wireless data transmission module.

The invention has the beneficial effects that:

1. in the invention, the front-end wireless equipment communicates with the fire control host in a coding mode, and the coding is unique relative to each front-end wireless equipment, and because the coding and the front-end wireless equipment are in one-to-one correspondence, the corresponding front-end wireless equipment can be quickly searched through the coding, so that each front-end wireless equipment can be accurately positioned;

2. the front-end wireless equipment adopts a coding mode, so that the front-end wireless equipment can be managed more conveniently, and partition management, floor management and the like can be realized flexibly according to coding meanings;

3. according to the invention, a linkage programming formula designed based on the code character string is adopted, and the linkage formula adopts a mode of coding and wildcard, so that the linkage equipment can be flexibly started according to the partition and the floor, in addition, when a fire condition is met, the fire control host can wake up and start the wireless fire control linkage equipment of the corresponding partition and the corresponding floor according to the field condition, namely, the wireless fire control linkage equipment which needs to be started is started, and all the wireless fire control linkage equipment does not need to be wakened up and started;

4. in the invention, when the corresponding wireless fire-fighting linkage equipment is awakened and started, all the wireless fire-fighting linkage equipment which needs to be started is awakened in a short preset time period S1, and a starting command is sent to the awakened wireless fire-fighting linkage equipment in a long preset time period S2, namely, a plurality of wireless linkage fire-fighting equipment can be started after one awakening, compared with the traditional one-by-one awakening and one-by-one starting, the starting efficiency is greatly improved, and meanwhile, the energy consumption is reduced;

5. for wireless fire-fighting linkage equipment which cannot be successfully started in the first awakening process, the fire-fighting control host additionally transmits the awakening and starting process for a short time, and if the wireless fire-fighting linkage equipment cannot be successfully started, the next wireless fire-fighting linkage equipment is started in sequence, so that the awakening and starting efficiency is improved;

6. for the front-end wireless equipment which cannot be started successfully, the fire control host has the functions of statistics management, prompting and the like, and is convenient for maintenance personnel to quickly check and maintain.

Drawings

FIG. 1 is a flow chart of the method of the present invention.

Detailed Description

The quick starting method of the wireless fire-fighting linkage equipment is realized based on a fire-fighting control host, front-end wireless equipment and the wireless fire-fighting linkage equipment, wherein the front-end wireless equipment comprises, but is not limited to, a wireless smoke detector, a wireless temperature-sensing detector, a wireless manual alarm button, a wireless combustible gas detector and a wireless electric fire detector, and the wireless fire-fighting linkage equipment comprises, but is not limited to, a wireless input/output module and a wireless data transmission module.

A quick starting method of wireless fire-fighting linkage equipment is shown in fig. 1, and the specific method comprises the following steps:

(1) The front-end wireless device communicates with the fire control host in a coded manner, wherein the coded format is a 10-bit character string: the codes of the front-end wireless devices are assigned by the fire control host and are unique with respect to each front-end wireless device;

(2) When the front-end wireless equipment encounters a fire condition and sends an alarm signal to the fire control host, the fire control host determines the wireless fire control linkage equipment to be started through comparison of the received coded character string and the linkage programming formula; the coding character string in the linkage programming formula adopts variable length, but the length is less than or equal to the length of the equipment coding character string, and the linkage formula format is that 1, Y (coding wireless fire-fighting linkage equipment type) = (coding front-end wireless equipment type) _condition number + &. 2. Y (code wireless fire fighting linkage device type) = (code front end wireless device type) _number of conditions×.

(3) The preset time period is S1, and the fire control host simultaneously sends a wake-up command to the wireless fire control linkage equipment to be started in the preset time period S1 in a broadcast message mode, and wakes up the corresponding wireless fire control linkage equipment; setting the wireless fire-fighting linkage equipment to the same communication frequency, wherein the message transmitted by the fire-fighting control host corresponds to broadcasting, and the wireless fire-fighting linkage equipment within the transmission distance range can receive the message;

(4) After receiving the wake-up command, the wireless fire-fighting linkage equipment to be started exits from the low-power mode and is switched to the receiving mode;

(5) The method comprises the steps that in a preset time period S2, if the wireless fire-fighting linkage equipment to be started does not receive a starting command of a fire-fighting control host in the preset time period S2, the wireless fire-fighting linkage equipment to be started enters a low-power consumption mode again; if the wireless fire-fighting linkage equipment to be started receives a starting command of the fire-fighting control host in a preset time period S2 and is started successfully, the wireless fire-fighting linkage equipment is switched from a receiving mode to a starting mode;

(6) After entering a starting mode, under the condition that a preset time period S2 is not exhausted, the fire control host sequentially sends starting commands to wireless fire control linkage equipment to be started; if the preset time period S2 is exhausted, the step (1) is skipped, and the fire control host computer sends a wake-up command and a start command to the wireless fire control linkage equipment to be started again.

In the step (6), when the fire control host sequentially sends a starting command to the wireless fire control linkage equipment to be started, if the wireless fire control linkage equipment is not started successfully, the fire control host sends a wake-up command and a starting command to the fire control host again in a preset time period S3, and if the fire control host still is not started successfully, the next wireless fire control linkage equipment is sequentially started by skipping the wireless fire control linkage equipment.

For the wireless fire-fighting linkage equipment which cannot be started successfully, the fire-fighting control host computer sends a wake-up command and a starting command to the wireless fire-fighting linkage equipment again in a preset time period S4, and the wireless fire-fighting linkage equipment which cannot be started successfully still is fed back to the fire-fighting control host computer.

Example 1

The wireless fire-fighting linkage equipment is electrically connected with linkage equipment (such as smoke exhaust valves, fireproof doors and the like) in a building respectively, and the wireless input/output module outputs a closing signal to be matched with the linkage equipment (such as smoke exhaust valves, fireproof doors and the like) so that the linkage equipment (such as smoke exhaust valves, fireproof doors and the like) can enter a working state rapidly. The rapid starting method of the wireless input/output module is described by taking the wireless smoke detector as the front-end wireless device and the wireless fire-fighting linkage device as the wireless input/output module.

The wireless smoke detector communicates with the fire control host in a coding mode, and the coding format is a 10-bit character string: 0101010101 001, 0101010102 002, the code of the wireless smoke detector is assigned by the fire control host and is unique with respect to each wireless smoke detector;

when the wireless smoke detector encounters a fire condition and sends an alarm signal to the fire control host, the fire control host determines a wireless input/output module to be started through comparison of the received 10-bit coding character string and a linkage programming formula; the normal format of the linkage formula Y (12345678 x 009) = (01010101 x 001) _1+ (01010101 x 002) _1.).

Linkage formula analysis and explanation: y (12345678 x 009) = (01010101 x 001) _1+ (01010101 x 002) _1)

12345678**: wireless input/output module device code, "x" wildcard symbol

009: type of wireless input/output module

0101010101**: wireless smoke detector code, "x" wildcard symbol

001: wireless smoke detector type

-1: number of satisfying the condition

+: or logic

0101010101**: wireless smoke detector code, "x" wildcard symbol

002: wireless smoke detector type

-1: number of satisfying the condition

When the code 01010101 is 001 and the code 01010101 is 002, the wireless input/output module 12345678 is 009.

After determining the wireless input/output module to be started, the fire control host controls the fire control host to start quickly, and the specific method is as follows:

(1) The preset time period is 3 seconds, and the fire control host simultaneously sends a wake-up command to the wireless input/output module to be started in the form of a broadcast message within the preset time period of 3 seconds, and wakes up the corresponding wireless input/output module;

(2) After receiving the wake-up command, the wireless input/output module to be started exits from the low-power mode and is switched to the receiving mode;

(3) If the wireless input/output module to be started does not receive the starting command of the fire control host within 10 seconds of the preset time period, the wireless input/output module to be started enters a low-power consumption mode again; if the wireless input/output module to be started receives a starting command of the fire control host within 10 seconds of a preset time period, the wireless input/output module is successfully started, and the receiving mode is switched to the starting mode;

(4) After entering a starting mode, under the condition that the preset time period is not exhausted for 10 seconds, the fire control host sequentially sends starting commands to the wireless input/output modules to be started; if the preset time period is 10 seconds, the step (1) is skipped, and the fire control host computer sends a wake-up command and a start command to the wireless input-output module to be started again.

In the step (4), when the fire control host sequentially sends a start command to the wireless input/output modules to be started, if the wireless input/output modules are not started successfully, the fire control host sends a wake-up command and a start command to the fire control host again within a preset time period of 2 seconds, and if the fire control host still is not started successfully, the wireless input/output modules are skipped, and the next wireless input/output module is started sequentially.

And for the wireless input/output module which cannot be started successfully, the fire control host computer sends a wake-up command and a start command to the wireless input/output module again within 10 seconds of a preset time period, and the wireless input/output module which cannot be started successfully is fed back to the fire control host computer.

Example two

The wireless fire-fighting linkage equipment is electrically connected with linkage equipment (such as smoke exhaust valves, fireproof doors and the like) in a building respectively, and the wireless data transmission module outputs a closing signal to be matched with the linkage equipment (such as smoke exhaust valves, fireproof doors and the like) so that the linkage equipment (such as smoke exhaust valves, fireproof doors and the like) can enter a working state rapidly. The wireless hand alarm button is adopted by the front-end wireless equipment, the wireless data transmission module is adopted by the wireless fire-fighting linkage equipment, and the rapid starting method of the wireless data transmission module is described.

The wireless manual alarm button is communicated with the fire control host in a coding mode, and the coding format is a 10-bit character string: 0101010101 001, 0101010102 002, the code of the wireless manual alarm buttons is assigned by the fire control host and unique with respect to each wireless manual alarm button;

when the wireless manual alarm button encounters a fire condition and sends an alarm signal to the fire control host, the fire control host determines a wireless data transmission module to be started through comparison of the received 10-bit code character string and a linkage programming formula; the linkage formula adopts a wild card format: y (1 x 345678 x 009) = (0101010101 001) _9× (0101010102 002) _1.

Linkage formula analysis and explanation: y (1 x 345678 x 009) = (0101010101 001) _9× (0101010102 002) _1)

1*345678**: wireless linkage coding, "x" wildcard symbol

009: wireless data transmission module type

010101010101: wireless manual alarm button code

001: wireless manual alarm button type

-9: number of satisfying the condition

X: AND logic

010101010102: wireless manual alarm button code

002: wireless manual alarm button type

-1: number of satisfying the condition

When the code is 01010101, the code is 0101010102, the code is 002, the wireless data transmission module with the code 1, 345678 and 009 is started.

After the wireless data transmission module needing to be started is determined, the fire control host controls the fire control host to start quickly, and the specific method is as follows:

(1) The preset time period is 2 seconds, and the fire control host simultaneously sends a wake-up command to the wireless data transmission module to be started in the form of a broadcast message within 2 seconds of the preset time period, and wakes up the corresponding wireless data transmission module;

(2) After the wireless data transmission module to be started receives the wake-up command, the wireless data transmission module exits from the low-power consumption mode and is switched to the receiving mode;

(3) If the wireless data transmission module to be started does not receive the starting command of the fire control host within the preset time period of 8 seconds, the wireless data transmission module to be started enters a low-power consumption mode again; if the wireless data transmission module to be started receives a starting command of the fire control host within 8 seconds of a preset time period, the wireless data transmission module is successfully started, and the receiving mode is switched to the starting mode;

(4) After entering a starting mode, under the condition that the preset time period is 8 seconds and is not exhausted, the fire control host sequentially sends a starting command to the wireless data transmission module to be started; if the preset time period is 8 seconds, jumping to the step (1), and sending a wake-up command and a start command to the wireless data transmission module to be started again by the fire control host.

In the step (4), when the fire control host sequentially sends a start command to the wireless data transmission modules to be started, if the wireless data transmission modules are not started successfully, the fire control host sends a wake-up command and a start command to the fire control host again within a preset time period of 2 seconds, and if the fire control host still is not started successfully, the wireless data transmission modules are skipped, and the next wireless data transmission module is started sequentially.

And for the wireless data transmission module which cannot be started successfully, the fire control host computer sends a wake-up command and a start command to the wireless data transmission module again within 12 seconds of a preset time period, and the wireless data transmission module which cannot be started successfully still is fed back to the fire control host computer.

Claims (7)

1. The quick starting method of the wireless fire-fighting linkage equipment is characterized by comprising the following steps of:

(1) The front-end wireless equipment communicates with the fire control host in a coding mode, the coding format is an N-bit character string, and the codes of the front-end wireless equipment are distributed by the fire control host and are unique relative to each front-end wireless equipment;

(2) When the front-end wireless equipment encounters a fire condition and sends an alarm signal to the fire control host, the fire control host determines the wireless fire control linkage equipment to be started through comparison of the received coded character string and the linkage programming formula;

(3) The preset time period is S1, and the fire control host simultaneously sends a wake-up command to the wireless fire control linkage equipment to be started in the preset time period S1 in a broadcast message mode, and wakes up the corresponding wireless fire control linkage equipment;

(4) After receiving the wake-up command, the wireless fire-fighting linkage equipment to be started exits from the low-power mode and is switched to the receiving mode;

(5) The method comprises the steps that in a preset time period S2, if the wireless fire-fighting linkage equipment to be started does not receive a starting command of a fire-fighting control host in the preset time period S2, the wireless fire-fighting linkage equipment to be started enters a low-power consumption mode again; if the wireless fire-fighting linkage equipment to be started receives a starting command of the fire-fighting control host in a preset time period S2 and is started successfully, the wireless fire-fighting linkage equipment is switched from a receiving mode to a starting mode;

(6) After entering a starting mode, under the condition that a preset time period S2 is not exhausted, the fire control host sequentially sends starting commands to wireless fire control linkage equipment to be started; if the preset time period S2 is exhausted, the step (1) is skipped, and the fire control host computer sends a wake-up command and a start command to the wireless fire control linkage equipment to be started again.

2. The quick start method of a wireless fire protection linkage device according to claim 1, wherein: in the step (4), when the fire control host sequentially sends a starting command to the wireless fire control linkage equipment to be started, if the wireless fire control linkage equipment is not started successfully, the fire control host sends a wake-up command and a starting command to the fire control host again in a preset time period S3, the preset time period S3 is smaller than a preset time period S1, if the wireless fire control linkage equipment is not started successfully yet, the next wireless fire control linkage equipment is skipped, and the next wireless fire control linkage equipment is started sequentially.

3. The quick start method of a wireless fire fighting linkage device of claim 2, wherein; and for the wireless fire-fighting linkage equipment which cannot be started successfully, the fire-fighting control host computer sends a wake-up command and a start command to the wireless fire-fighting linkage equipment again in a preset time period S4, and the wireless fire-fighting linkage equipment which cannot be started successfully still is fed back to the fire-fighting control host computer.

4. The quick start method of a wireless fire protection linkage device according to claim 1, wherein: the preset time period S1 is less than or equal to 3S is less than or equal to the preset time period S2.

5. The quick start method of a wireless fire protection linkage device according to claim 1, wherein: the linkage programming formula adopts a character string with variable length, but the length is less than or equal to the length of the equipment coding character string, and the linkage programming formula comprises the following components of 1, Y (coding wireless fire-fighting linkage equipment type) = (coding front-end wireless equipment type) _condition number + &..; 2. y (coded wireless fire fighting linkage device type) = (coded wireless device type) _number of conditions×.

In the above-mentioned linkage formula, the number of_conditions represents the "number of conditions satisfied", +represents "or logic", ×represents "and logic".

6. The quick start method of a wireless fire protection linkage device according to claim 1, wherein: the front-end wireless equipment comprises a wireless smoke detector, a wireless temperature detector, a wireless manual alarm button, a wireless combustible gas detector and a wireless electric fire detector.

7. The quick start method of a wireless fire protection linkage device according to claim 1, wherein: the wireless fire-fighting linkage equipment comprises a wireless input/output module and a wireless data transmission module.

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