CN105160369A - Fire-fighting equipment monitoring tags, fire-fighting equipment management system and fire-fighting equipment management method - Google Patents

Abstract

The invention provides a fire-fighting equipment monitoring label, a fire-fighting equipment management system and a management method thereof. In the present invention, a fire-fighting equipment monitoring label is set in each fire-fighting control cabinet, and an RFID label is set on each fire-fighting equipment in the fire-fighting control cabinet. The fire-fighting equipment monitoring label can monitor the fire-fighting equipment and obtain environmental data in real time. The server in the remote monitoring center exchanges data so that the staff can remotely monitor the storage status of each firefighting equipment, which can prevent the firefighting equipment from being moved, damaged or lost, and can also detect fires early so that firefighters can rush to the scene as soon as possible.

Description

Fire-fighting equipment monitoring label, fire-fighting equipment management system and management method thereof

technical field

The invention relates to a fire-fighting equipment monitoring label, a fire-fighting equipment management system and a management method thereof.

Background technique

At present, almost all large buildings are equipped with fire-fighting equipment. These equipment need to be checked regularly. Once the equipment is found to be damaged, expired or lost, it needs to be replaced or supplemented in time to ensure that the fire-fighting equipment can be used normally at any time. In the prior art, the storage management of firefighting equipment mainly relies on the manual records of the equipment managers. This manual record is inefficient, and the recorders work hard, which is prone to errors such as omissions and misrecordings, resulting in management confusion. Even if the firefighting If the equipment is damaged, expired or lost, the management personnel cannot replace and repair it in time. Once a fire accident occurs in a building, the fire-fighting equipment cannot be used normally, threatening people's lives and property safety.

Contents of the invention

The object of the present invention is to provide a fire-fighting equipment monitoring label, a fire-fighting equipment management system and its management method, which can effectively solve the problems in the prior art that the management of fire-fighting equipment relies on manual records, the work efficiency is low, and omissions or omissions are easy to occur. Mistakes such as misremembering and technical problems such as chaotic management of fire protection equipment.

In order to achieve the above object, the present invention provides a fire-fighting equipment monitoring tag, comprising: an RFID monitoring reader for reading the fire-fighting equipment data stored in at least one RFID tag, and the RFID tag is set on a fire-fighting equipment; A sensor group for collecting ambient temperature data and smoke concentration data; a communication module for exchanging data between the fire-fighting equipment monitoring tag and a server; and a microprocessor connected to the RFID monitoring read-write device, the sensor group, and the communication module, and the microprocessor transmits the fire-fighting equipment data, the ambient temperature data, and the smoke concentration data to the server through the communication module.

Further, the sensor group includes a temperature sensor for collecting ambient temperature data; and a smoke sensor for collecting smoke concentration data.

Further, the communication module includes a wired communication module, which is connected to the server through a wired router, so as to enable the fire equipment monitoring tag to perform remote communication with the server; and/or a wireless communication module, which is connected to the server through a A wireless router is connected to the server for remote communication between the fire equipment monitoring tag and the server.

Further, the fire-fighting equipment data includes equipment name, equipment location, production date, expiration date and equipment maintenance history information of the fire-fighting equipment.

To achieve the above object, the present invention also provides a firefighting equipment management system, comprising: at least one firefighting equipment monitoring label set in a firefighting control cabinet; at least one RFID label set on a firefighting equipment for storing data of fire-fighting equipment, the fire-fighting equipment is arranged in the fire-fighting control cabinet, the fire-fighting equipment monitoring tag corresponds to the RFID tag; at least one router, including at least one wired router and/or at least one wireless router; and At least one server is used to record the data of the fire-fighting equipment; it is used to judge whether the storage status of the fire-fighting equipment is normal. If the data of the fire-fighting equipment cannot be obtained, it is determined that the fire-fighting equipment has been moved or lost, and an equipment alarm signal is sent ; It is used to judge whether there is a fire according to the ambient temperature data and the smoke concentration data, and if there is a fire, send a fire alarm signal; wherein, the fire-fighting equipment monitoring tag is connected to the server through the router.

Further, the fire-fighting equipment management system further includes a handheld terminal, and the handheld terminal is provided with an RFID reader for reading and/or writing fire-fighting equipment data on an RFID tag.

To achieve the above object, the present invention also provides a method for managing fire-fighting equipment, comprising the steps of: setting at least one RFID tag on at least one fire-fighting equipment in at least one fire-fighting control cabinet; writing the corresponding tag in each RFID tag At least one fire-fighting equipment data of one fire-fighting equipment; the fire-fighting equipment data includes the equipment name, equipment location, production date, expiration date and equipment maintenance history information of the fire-fighting equipment; The fire-fighting equipment monitoring label; the fire-fighting equipment monitoring label establishes a network connection with at least one server through at least one router; the fire-fighting equipment monitoring label regularly reads all RFID tags in the fire-fighting control cabinet to obtain the fire-fighting equipment data of all fire-fighting equipment The fire-fighting equipment monitoring tag regularly collects ambient temperature data and smoke concentration data; the fire-fighting equipment monitoring tag transmits the fire-fighting equipment data, the ambient temperature data, and smoke concentration data to at least one server through at least one router.

Further, the fire-fighting equipment management method further includes the following steps: the server obtains the fire-fighting equipment data, and if the acquisition is successful, records the fire-fighting equipment data; if the acquisition fails, it is judged that the fire-fighting equipment has moved or lost , send a device alarm signal.

Further, the fire-fighting equipment management method further includes the following steps: the server obtains the ambient temperature data and the smoke concentration data; the server judges whether a fire occurs according to the ambient temperature data and the smoke concentration data; If there is a fire, send out a fire alarm signal.

Wherein, the server judges whether a fire occurs according to the ambient temperature data and the smoke concentration data, which specifically includes the following steps: the server compares the ambient temperature data with a preset high temperature threshold, and if the ambient temperature is greater than or equal to the preset high temperature threshold, it is determined that a fire has occurred; and/or the server compares the smoke concentration data with the preset smoke concentration threshold, and if the smoke concentration is greater than or equal to the preset smoke concentration threshold, it is determined that a fire has occurred fire.

The present invention has the advantages that a fire-fighting equipment monitoring label is set in each fire-fighting control cabinet, and an RFID label is set on each fire-fighting equipment in the fire-fighting control cabinet. The fire-fighting equipment monitoring label can monitor the fire-fighting equipment and obtain environmental data in real time, Data can be exchanged with the server of the remote monitoring center through the router, so that the staff can remotely monitor the storage status of each fire-fighting equipment, which can prevent the fire-fighting equipment from being moved, damaged or lost, and can also detect fires early so that firefighters can rush to them as soon as possible on site.

Description of drawings

Fig. 1 shows the structural representation of the fire-fighting equipment monitoring label in the embodiment of the present invention;

Fig. 2 shows the structural representation of the fire-fighting equipment monitoring system in the embodiment of the present invention;

Fig. 3 shows the flowchart of the method for monitoring fire-fighting equipment in the embodiment of the present invention;

The components in the figure are marked as follows:

1. Fire equipment monitoring label, 2. RFID label, 3. Router, 4. Server, 5. Handheld terminal, 6. Ethernet;

11. RFID monitoring reader, 12. Sensor group, 13. Communication module, 14. Microprocessor;

31. Wired router, 32. Wireless router; 51. RFID reader;

121, temperature sensor, 122, smoke sensor;

131. A wired communication module. 132. A wireless communication module.

Detailed ways

The preferred embodiments of the present invention are introduced below with reference to the accompanying drawings, in order to prove that the present invention can be implemented, and these embodiments can completely introduce the technical content of the present invention to those skilled in the art, so that the technical content of the present invention is more clear and easy to understand. However, the present invention can be embodied in many different forms of embodiments, and the protection scope of the present invention is not limited to the embodiments mentioned herein.

The directional terms mentioned in the present invention, such as "up", "down", "front", "back", "left", "right", "inside", "outside", "side", etc., are only appended The directions in the drawings and the direction terms used herein are used to explain and illustrate the present invention, rather than to limit the protection scope of the present invention.

In the drawings, components with the same structure are denoted by the same numerals, and components with similar structures or functions are denoted by similar numerals. In addition, for ease of understanding and description, the size and thickness of each component shown in the drawings are arbitrarily shown, and the present invention does not limit the size and thickness of each component.

When certain components are described as "on" another component, the component may be placed directly on the other component; there may also be an intermediate component on which the component is placed , and the intermediate component is placed on another component. When a component is described as being "mounted to", "connected to" or "connected to" another component, both can be understood as being directly "mounted", "connected" or "connected to", or one component through an intermediate component "Mounted to," "connected to," or "connected to" another component.

The fire-fighting equipment described in the present invention refers to all kinds of equipment used for fire extinguishing, fire prevention and fire accidents, including fire extinguishers, fire hydrants, hoses, water guns, and the like.

As shown in Figure 1, the present embodiment provides a kind of fire-fighting equipment monitoring label 1, is arranged in a fire-fighting control cabinet, includes: an RFID monitoring reader-writer 11, in order to read the fire-fighting equipment stored in at least one RFID label 2 For data, the RFID tag 2 is set on a fire-fighting equipment; a sensor group 12 for collecting ambient temperature data and smoke concentration data; a communication module 13 for exchanging data between the fire-fighting equipment monitoring tag 1 and a server 4; and A microprocessor 14 is respectively connected to the RFID monitoring reader 11, the sensor group 12 and the communication module 13, and the microprocessor 14 transmits the fire-fighting equipment data, the ambient temperature data and the smoke concentration data to the server through the communication module 13 4. The fire-fighting equipment data includes equipment name, equipment location, production date, expiration date and equipment maintenance history information of the fire-fighting equipment. Microprocessor 14 regularly sends instructions to RFID monitoring reader-writer 11, and regularly reads the fire-fighting equipment data in RFID label 2, and time interval can be set as required by the user, and time interval can be set as half an hour, 1 hour, or Can be set to 1 day or 3 days. The microprocessor 14 regularly sends the read fire-fighting equipment data to the server 4, and the staff in the background can know the equipment data of multiple fire-fighting equipment in real time through the display of the server 4.

The sensor group 12 includes a temperature sensor 121 for collecting ambient temperature data; and a smoke sensor 122 for collecting smoke concentration data. After the server 4 obtains the ambient temperature data and the smoke concentration data, it compares it with the preset temperature threshold or smoke concentration threshold in the database. If the ambient temperature data and the smoke concentration data exceed the corresponding threshold, the fire equipment monitoring label can be determined. 1 When a fire breaks out nearby, the server generates a fire alarm signal to notify firefighters to rush to the scene for rescue in time.

Communication module 13 comprises a wired communication module 131, is connected to described server by a wired router 31, in order to make fire equipment monitoring label 1 and server 4 carry out remote communication; And a wireless communication module 132, is connected to by a wireless router 32 The server 4 is used for remote communication between the fire equipment monitoring tag 1 and the server 4. In this implementation, the wireless communication module 132 is preferably a WIFI wireless communication module. If the working environment is good, the fire-fighting equipment monitoring tag 1 can be wirelessly connected to the Ethernet 6 through the WIFI module, and the server 4 can exchange data with the fire-fighting equipment monitoring tag 1 through the Ethernet 6; 1 can be connected to the Ethernet 6 through a network cable to realize data exchange with the server 4, effectively reducing the distortion of sent data or the loss of data packets. In the present invention, only a wireless communication module and a wireless router or only a wired communication module and a wired router may be provided.

As shown in Figure 2, the present invention provides a kind of fire-fighting equipment management system, comprising: at least one fire-fighting equipment monitoring tag 1, arranged in a fire-fighting control cabinet; at least one RFID tag 2, set on a fire-fighting equipment, in order to store Fire-fighting equipment data, the fire-fighting equipment is located in the fire-fighting control cabinet, the fire-fighting equipment monitoring label 1 corresponds to the RFID label 2; at least one router 3, including at least one wired router 31 and at least one wireless router 32; and at least one The server 4 is used to record the data of the fire-fighting equipment; to judge whether the storage state of the fire-fighting equipment is normal, if the data of the fire-fighting equipment cannot be obtained, it is judged that the fire-fighting equipment has been moved or lost, and an equipment alarm signal is sent; It is used to judge whether there is a fire according to the ambient temperature data and the smoke concentration data, and if there is a fire, a fire alarm signal is sent out; the fire-fighting equipment monitoring tag 1 is connected to the server 4 through the router 3 . The fire-fighting equipment management system may also include a handheld terminal 5 , and the handheld terminal 5 is provided with an RFID reader 51 for reading and/or writing fire-fighting equipment data on an RFID tag 2 .

In the fire-fighting equipment management system of the present invention, a fire-fighting equipment monitoring tag 1 is installed in each fire-fighting control cabinet, and each fire-fighting control cabinet is provided with a plurality of fire-fighting equipment, and an RFID tag is installed on each fire-fighting equipment. The staff uses the handheld terminal to write the fire-fighting equipment data of each fire-fighting equipment into the RFID tag. The fire-fighting equipment data includes the equipment name, equipment location, production date, expiration date and equipment maintenance history information of the fire-fighting equipment. Every time the staff performs maintenance on the fire-fighting equipment, they must re-write the equipment maintenance information and record the maintenance time of the equipment.

There is a certain distance limit for the RFID reader to read the RFID tag. The effective reading distance of the RFID monitoring reader 11 used in the present invention is generally about 1-10 meters. If the fire fighting equipment is moved beyond a certain distance, the RFID monitoring reader-writer 11 cannot read the RFID tag 2; if the RFID tag 2 is damaged, the RFID monitoring reader-writer 11 cannot read the RFID tag 2 either. Therefore, once it is found that the RFID monitoring reader-writer 11 cannot read the RFID tag 2 in time, the server 4 will judge that the fire-fighting equipment has been removed from the original position, damaged or lost, so an equipment alarm signal can be sent to remind the staff as soon as possible. Check fire equipment.

As shown in FIG. 3 , based on the fire-fighting equipment management system of the present invention, the present invention also provides a fire-fighting equipment management method, which specifically includes the following steps.

Step S1) Install at least one RFID tag on at least one firefighting equipment in at least one firefighting control cabinet. Under normal circumstances, each floor of each building is equipped with one or more fire control cabinets, and each fire control cabinet is equipped with one or more fire fighting equipment, including fire extinguishers, fire hydrants, hoses, water guns, etc. One RFID tag can be set on each fire fighting equipment.

Step S2) Writing at least one piece of firefighting equipment data of a firefighting equipment corresponding to the tag into each RFID tag. The user can write the equipment data of the fire-fighting equipment corresponding to the label in each RFID tag through a handheld terminal, which is provided with an RFID reader-writer. The fire-fighting equipment data includes the equipment name, equipment Location, manufacture date, expiration date, and equipment maintenance history information.

Step S3) Setting a monitoring tag of the fire-fighting equipment in each fire-fighting control cabinet. The fire-fighting equipment monitoring tag 1 includes an RFID monitoring reader-writer 11 for reading the fire-fighting equipment data stored in at least one RFID tag 2, and the RFID tag 2 is set on a fire-fighting equipment; a sensor group 12 for collecting ambient temperature data and smog concentration data; a communication module 13, in order to realize data exchange between the fire-fighting equipment monitoring tag 1 and a server 4; and a microprocessor 14, respectively connected to the RFID monitoring reader-writer 11, the sensor group 12 and the communication module 13 , the microprocessor 14 transmits the fire-fighting equipment data, the ambient temperature data and the smoke concentration data to the server 4 through the communication module 13 .

Step S4) The fire equipment monitoring tag establishes a network connection with at least one server through at least one router. The fire-fighting equipment monitoring label 1 utilizes its communication module 13 and corresponding routers to establish a network connection with the server. If the working environment is better, the communication module 13 can be a wireless communication module 132, which establishes a wireless connection with the server 4 through a wireless router 32; if The working environment is poor, and the communication module 13 can only be a wired communication module 131 , which establishes a wired connection with the server 4 through a network cable and a wired router 31 .

Step S5) The fire-fighting equipment monitoring tag regularly reads all the RFID tags in the fire-fighting control cabinet to obtain the fire-fighting equipment data of all fire-fighting equipment; the time interval can be set by the user according to the needs, and the time for reading data twice The interval can be half an hour, 1 hour, or 1 day or 3 days.

Step S6) The fire-fighting equipment monitoring tag regularly collects ambient temperature data and smoke concentration data; the time interval between two adjacent data readings can be a short time, such as 3 minutes or 5 minutes, and the sensor group 12 can be every 3 minutes Or collect ambient temperature data and smoke concentration data once every 5 minutes.

Step S7) The fire-fighting equipment monitoring tag transmits the fire-fighting equipment data, the ambient temperature data, and smoke concentration data to at least one server through at least one router. The server compares the ambient temperature data and smoke concentration data collected by the sensor group in real time with the pre-stored data in the server. Once a fire occurs, the temperature around the fire control cabinet rises or a large amount of smoke is generated, the collected ambient temperature data will be significantly abnormal from the normal temperature, and the collected smoke concentration data will be significantly higher. Under normal circumstances, the ambient temperature data is similar to the indoor temperature. If the difference between the ambient temperature data and the indoor temperature is small, such as 5-10 degrees Celsius, even if the ambient temperature data is higher than the indoor temperature, it cannot be considered as a fire. Under normal circumstances, the smoke concentration data is basically 0. If the smoke concentration data is obviously high, it can basically be determined that a fire has occurred.

Wherein, step S6) and step S7) are relatively independent and do not affect each other, and there is no sequence between them.

The present invention also provides a fire fighting equipment management method, which includes the following steps in addition to steps S1)-S7).

Step S101) The server acquires the fire equipment data, and if the acquisition is successful, execute step S102); if the acquisition fails, execute step S103).

Step S102) Record the fire-fighting equipment data; the server analyzes the data information sent by the fire-fighting equipment monitoring tags of each node, and stores the analyzed results in the database for backup, providing a strong basis for subsequent analysis and investigation of fire accidents that may occur.

Step S103) Judging that the fire-fighting equipment has been moved or lost, an equipment alarm signal is sent to prompt the staff of the monitoring server to check the fire-fighting cabinet corresponding to the fire-fighting equipment monitoring label in time, check the fire-fighting equipment in the fire-fighting cabinet, and realize the online monitoring of the fire-fighting equipment .

Step S104) Record the equipment alarm information of the fire equipment and store it in the database.

The present invention also provides a fire fighting equipment management method, which includes the following steps in addition to steps S1)-S7).

Step S201) The server acquires the ambient temperature data and the smoke concentration data.

Step S202) The server judges whether there is a fire according to the ambient temperature data and the smoke concentration data; if there is a fire, a fire alarm signal is sent out, and the staff notifies the firefighters as soon as possible after the fire alarm signal is detected or is monitored by the fire-fighting equipment Tag the nearest building management personnel, such as community property, security, etc.

Step S203) Recording the fire alarm information of the fire fighting equipment and storing it in the database.

Wherein, step S202) the server judges whether a fire occurs according to the ambient temperature data and the smoke concentration data, which may specifically include the following steps.

Step S2021) The server compares the ambient temperature data with a preset high temperature threshold, and if the ambient temperature is greater than or equal to the preset high temperature threshold, it is determined that a fire has occurred; wherein, the preset high temperature threshold can be 50 or 60 degrees Celsius , when the temperature collected in real time reaches 50 or 60 degrees Celsius, a fire alarm signal is sent.

Step S2022) The server compares the smoke concentration data with a preset smoke concentration threshold, and if the smoke concentration is greater than or equal to the preset smoke concentration threshold, it is determined that a fire has occurred; wherein, the preset smoke concentration threshold can be 2 %, when the smoke concentration reaches 2%, a fire alarm signal is issued.

Wherein, step S2021) and step S2022) are relatively independent and do not affect each other, and there is no sequence between them.

When the server sends out a fire alarm signal, it can send out an alarm sound, such as a beep, or change a light signal, such as a red light flashing, to remind the monitoring personnel next to the server to deal with the fire as soon as possible. The monitoring personnel can promptly notify the firefighters to call the police, or promptly notify the management personnel in the building where the fire broke out, such as property or security.

In this embodiment, a fire-fighting equipment monitoring tag is set in each fire-fighting control cabinet, and an RFID tag is set on each fire-fighting equipment in the fire-fighting control cabinet. The technical effect of this embodiment is that it can monitor fire-fighting equipment and obtain environmental data in real time, and can exchange data with the server of the remote monitoring center through a router, so that the staff can remotely monitor the storage status of each fire-fighting equipment, and can prevent fire-fighting equipment from being stolen. Moved, damaged or lost, it can also detect fires early so that firefighters can rush to the scene as soon as possible.

The above is only a preferred embodiment of the present invention, it should be pointed out that for those of ordinary skill in the art, without departing from the principle of the present invention, some improvements and modifications can also be made, and these improvements and modifications should also be considered Be the protection scope of the present invention.

Claims (10)

1. a fire fighting equipment monitoring label, is characterized in that, comprising:

One RFID monitors read write line, in order to read the fire fighting equipment data stored at least one RFID label tag; Described RFID label tag is located on a fire fighting equipment;

One sensor group, in order to gather ambient temperature data and smokescope data;

One communication module, monitors label in order to make described fire fighting equipment and a server realizes exchanges data; And

One microprocessor, be connected to described RFID respectively and monitor read write line, described sensor group and described communication module, described microprocessor transmits described fire fighting equipment data, described ambient temperature data and smokescope data to described server by described communication module.

2. fire fighting equipment monitoring label as claimed in claim 1, it is characterized in that, described sensor group comprises

One temperature sensor, in order to gather ambient temperature data; And

One smoke transducer, in order to gather smokescope data.

3. fire fighting equipment monitoring label as claimed in claim 1, it is characterized in that, described communication module comprises

One wire communication module, is connected to described server by a cable router, carries out telecommunication in order to make described fire fighting equipment monitoring label and described server; And/or

One wireless communication module, is connected to described server by a wireless router, carries out telecommunication in order to make described fire fighting equipment monitoring label and described server.

4. fire fighting equipment monitoring label as claimed in claim 1, is characterized in that, described fire fighting equipment data comprise the device name of described fire fighting equipment, device location, date of manufacture, Expiration Date and plant maintenance historical information.

5. a firefighting equipment management system, comprising:

At least one fire fighting equipment monitoring label according to any one of claim 1-4, is arranged in a Fire Control Cabinet;

At least one RFID label tag, is located on a fire fighting equipment, and in order to store fire fighting equipment data, described fire fighting equipment is located in described Fire Control Cabinet, and described fire fighting equipment monitoring label is corresponding with described RFID label tag;

At least one router, comprises at least one cable router and/or at least one wireless router; And

At least one server, in order to record described fire fighting equipment data; Whether normal in order to judge the storage configuration of fire fighting equipment, obtain described fire fighting equipment data if fail, then judge that described fire fighting equipment is moved or loses, send an equipment alarm signal; Judge whether to occur the condition of a fire in order to environmentally temperature data and smokescope data, if there is the condition of a fire, send a fire alarm;

Wherein, described fire fighting equipment monitoring label is connected to described server by described router.

6. firefighting equipment management system as claimed in claim 5, it is characterized in that, also comprise a handheld terminal, described handheld terminal is provided with a rfid interrogator, in order to read in a RFID label tag and/or write fire fighting equipment data.

7. a management of fire fighting equipment method, comprises the steps:

At least one fire fighting equipment at least one Fire Control Cabinet arranges at least one RFID label tag;

Write should at least one fire fighting equipment data of a fire fighting equipment of label in each RFID label tag; Described fire fighting equipment data comprise the device name of described fire fighting equipment, device location, date of manufacture, Expiration Date and plant maintenance historical information;

A fire fighting equipment monitoring label according to any one of claim 1-4 is set in each Fire Control Cabinet;

Described fire fighting equipment monitoring label is set up network by least one router with at least one server and is connected;

All RFID label tag in described Fire Control Cabinet are read in the timing of described fire fighting equipment monitoring label, obtain the fire fighting equipment data of all fire fighting equipments;

Described fire fighting equipment monitoring label timing acquiring ambient temperature data and smokescope data;

Described fire fighting equipment monitoring label transmits described fire fighting equipment data, described ambient temperature data, smokescope data at least one server by least one router.

8. management of fire fighting equipment method as claimed in claim 7, is characterized in that, comprise the steps:

Described server obtains described fire fighting equipment data, if obtain successfully, records described fire fighting equipment data; If obtain unsuccessfully, then judge that described fire fighting equipment is moved or loses, send an equipment alarm signal.

9. management of fire fighting equipment method as claimed in claim 7, is characterized in that, comprise the steps:

Described server obtains described ambient temperature data and described smokescope data;

Described server judges whether to occur the condition of a fire according to described ambient temperature data and described smokescope data; If there is the condition of a fire, send a fire alarm.

10. management of fire fighting equipment method as claimed in claim 9, it is characterized in that, described server judges whether to occur the condition of a fire according to described ambient temperature data and described smokescope data, specifically comprises the steps:

Described ambient temperature data and default high temperature threshold value contrast by described server, if described environment temperature is more than or equal to default high temperature threshold value, then judge to occur the condition of a fire; And/or

Described smokescope data and default smoke density threshold value contrast by described server, if described smokescope is more than or equal to default smoke density threshold value, then judge to occur the condition of a fire.