CN105788138A - Rescue system and control method thereof - Google Patents

Abstract

The invention discloses a rescue system and a control method thereof. A sensing apparatus detects an environment parameter. The environment parameter and a first preset value are compared. If the environment parameter exceeds the first preset value, an alert message and a heat source positioning message of a heat source are transmitted to a control center which transmits the alert message and the heat source positioning message to a portable apparatus. The portable apparatus positions itself so as to acquire a first position and outputs an escape message in accordance with the first position and the heat source positioning message. According to the invention, the portable apparatus can output the escape message in accordance with the position of the portable apparatus and the position of the heat source to guide people to escape, which increases escape rate of on-site personnel. In addition, the sensing apparatus, when detecting that the environment parameter exceeds the first preset value, transmits the alert message and the heat source positioning message of the heat source to the control center, which is conducive to rescue work of rescue workers and command and rescue work of a rescue and command center.

Description

Rescue system and control method thereof

Technical field

The present invention, about a kind of rescue system and control method thereof, particularly relates to and may indicate that deathtrap and export rescue system and the control method thereof of escape message according to deathtrap and self-position.

Background technology

Along with the development of science and technology, indoor positioning technologies reaches its maturity at present, and traditional wireless location technology is through the power of each base station signal of mobile telephone scanning, and reaches the purpose of location from mobile phone terminal calculation location specific cell phone software of arranging in pairs or groups.At present indoor location technology is mostly used for shop, it is possible to allows what businessman considered client to include the information such as position, activity, time, interest, builds marketing system, such as check that client enters shop track, pushes advertising campaign, discount etc..Another application of indoor positioning technologies is fire rescue system, but current fire rescue system cannot point out the position of thermal source or deathtrap, thus people cannot be guided toward being correctly oriented escape in scene of fire, is also unfavorable for rescue.

Therefore, it is necessary to design a kind of new calamity rescue system and control method thereof, to overcome drawbacks described above.

Summary of the invention

It is an object of the invention to provide a kind of rescue system and control method thereof, it may indicate that the position of thermal source or deathtrap, and exports escape message, is conducive to indicator of trapped personnel to escape, and is also beneficial to rescue.

For reaching above-mentioned purpose, the present invention provides the control method of a kind of rescue system, and for rescue system, this rescue system includes sensing device, portable device able and control centre, and this control method comprises the following steps:

Step S101, this sensing device detecting ambient parameter, and compares this ambient parameter and the first preset value, if this ambient parameter is beyond this first preset value, sends the thermal source location message of alerting and thermal source to this control centre；

Step S102, this control centre sends this alerting and this thermal source location message to this portable device able；

Step S103, this portable device able location self-position is to obtain primary importance, and positions message output escape message according to this primary importance and this thermal source.

It is also preferred that the left this step S103 also includes, this portable device able is additionally operable to send this primary importance to this control centre.

It is also preferred that the left this step S103 also includes, obtain real-time physiological parameter by this portable device able, and be sent to this control centre.

It is also preferred that the left this step S103 also includes, this primary importance of real-time update, and determine the distance of this primary importance and this thermal source, when the distance of this primary importance and this thermal source is be more than or equal to the second preset value, export the escape message of the first intensity；When the distance of this primary importance and this thermal source is less than the second preset value, exporting the escape message of the second intensity, wherein, this first intensity is less than this second intensity.

It is also preferred that the left this escape message includes the combination of acoustical signal, vibration signal, optical signal or above-mentioned signal.

It is also preferred that the left this step S103 also includes, this portable device able shows the relative position relation figure of this primary importance and this thermal source always according to this primary importance and this thermal source location message.

Preferably, this rescue system also includes multiple smoke sensing device, the plurality of smoke sensing device is positioned at the diverse location of environment space, this sensing device includes multiple sensor, each smoke sensing device is built-in with at least one sensor and at least one low-power consumption bluetooth transmitters, this portable device able and this control centre are provided with bluetooth module, and this portable device able, this sensing device and this control centre carry out signal transmission by Bluetooth signal.

For reaching above-mentioned purpose, the present invention also provides for a kind of rescue system, comprises:

Sensing device, is used for detecting ambient parameter, and compares ambient parameter and the first preset value, if this ambient parameter is beyond this first preset value, this sensing device sends the thermal source location message of alerting and thermal source；

Portable device able, is coupled to this sensing device, is used for positioning self-position, to obtain primary importance；

Control centre, is coupled to this sensing device and this portable device able, is used for receiving and send this alerting and this thermal source location message to this portable device able；

Wherein, this portable device able positions message output escape message according to this primary importance and this thermal source.

It is also preferred that the left this portable device able is additionally operable to send this primary importance to this control centre.

It is also preferred that the left this portable device able is additionally operable to obtain real-time physiological parameter, and it is sent to this control centre.

It is also preferred that the left this portable device able is additionally operable to this primary importance of real-time update, and determine the distance of this primary importance and this burning things which may cause a fire disaster, when the distance of this primary importance and this thermal source is be more than or equal to the second preset value, export the escape message of the first intensity；When the distance of this primary importance and this thermal source is less than the second preset value, exporting the escape message of the second intensity, wherein, this first intensity is less than this second intensity.

It is also preferred that the left this escape message includes the combination of acoustical signal, vibration signal, optical signal or above-mentioned signal.

It is also preferred that the left this portable device able shows the relative position relation figure of this primary importance and this thermal source always according to this primary importance and this thermal source location message.

Preferably, this rescue system also includes multiple smoke sensing device, the plurality of smoke sensing device is positioned at the diverse location of environment space, this sensing device includes multiple sensor, each smoke sensing device is built-in with at least one sensor and at least one low-power consumption bluetooth transmitters, this portable device able and this control centre are provided with bluetooth module, and this portable device able, this sensing device and this control centre carry out signal transmission by Bluetooth signal.

It is also preferred that the left this portable device able is intelligent watch.

Compared with prior art, the present invention provides a kind of rescue system and control method thereof, ambient parameter is detected by this sensing device, and compare this ambient parameter and the first preset value, if this ambient parameter is beyond this first preset value, send the thermal source location message of alerting and thermal source to this control centre, this control centre sends this alerting and this thermal source location message to this portable device able, this portable device able location self-position is to obtain primary importance, and positions message output escape message according to this primary importance and this thermal source.Namely, this portable device able of the present invention can according to the position output escape message of himself position and this thermal source, to guide people to escape, improve the escape rate of Field Force, and, this sensing device of the present invention in time detecting this ambient parameter beyond this first preset value, can send the thermal source location message of alerting and thermal source to this control centre, is conducive to the rescue of rescue personnel and directing rescue work of rescue command center.

Accompanying drawing explanation

The function block schematic diagram of the rescue system that Fig. 1 provides for the embodiment of the present invention.

The flow chart of the control method of the rescue system that Fig. 2 provides for first embodiment of the invention.

The flow chart of the control method of the rescue system that Fig. 3 provides for second embodiment of the invention.

The flow chart of the control method of the rescue system that Fig. 4 provides for third embodiment of the invention.

The flow chart of the control method of the rescue system that Fig. 5 provides for fourth embodiment of the invention.

The flow chart of the control method of the rescue system that Fig. 6 provides for fifth embodiment of the invention.

Detailed description of the invention

For making the purpose of the present invention, structure, feature and function thereof are had further understanding, hereby embodiment is coordinated to describe in detail as follows.

With reference to Fig. 1, disclose the rescue system 100 that the embodiment of the present invention provides.With reference to shown in Fig. 1, rescue system 100 of the present invention is in order to rescue, for instance the rescue of scene of fire, but is not limited.Rescue system 100 comprises sensing device 11, portable device able 12 and control centre 13, and this sensing device 11 and this portable device able 12 are coupled to this control centre 13.Below the concrete function of this rescue system 100 is described.

This sensing device 11 is used for detecting ambient parameter, and compares this ambient parameter and the first preset value, if this ambient parameter is beyond this first preset value, sends the thermal source location message of alerting and thermal source.Wherein, this ambient parameter can be temperature or smokescope, but is not limited.This portable device able 12 is used for carrying and positioning self-position, to obtain primary importance.Wherein, this portable device able 13 is the wearable device being securable to certain position of human body (such as wrist or arm), such as wisdom wrist-watch, so, when needing to adopt low form to creep when causing danger, or when needing wet towel to cover your mouth and nose, it is not necessary to vacate hand-held device and check relevant escape message, thus without hindering escape.This alerting and this thermal source that this control centre 13 sends for receiving and send this sensing device 11 position message to this portable device able 12, and this portable device able 12 positions message output escape message according to this primary importance and this thermal source.Namely, this portable device able 12 of the present invention can according to the position output escape message of himself position and this thermal source, to guide people to escape, improve the escape rate of indicator of trapped personnel, further, this sensing device 11 of the present invention in time detecting this ambient parameter beyond this first preset value, can send the thermal source location message of alerting and thermal source to this control centre, understand rapidly generation emergency for rescue center and rescue worker, understand the situation of thermal source and launch rapidly rescue, thus being conducive to rescue.In practical application, also there is rescue module, rescue module couples with this control centre, this rescue module can be an independent device, for receiving the information that this control centre sends, for instance the thermal source location message of alerting and thermal source, for rescue personnel, such as fire fighter understands rapidly generation emergency, understands the situation of thermal source and launch rapidly rescue, thus being conducive to rescue.

Further, this portable device able 12 is additionally operable to send this primary importance to this control centre 13, to provide the real-time position of indicator of trapped personnel to rescue command center, to inform rescue personnel, such as fireman, effectively to search and rescue, thus can accelerating rescue progress and improving rescue effect.It should be strongly noted that this portable device able 12 is to obtain real-time primary importance, and the primary importance that this is real-time is sent to this control centre 13, but is not limited.

In practical application, owing to the life of indicator of trapped personnel can be threatened by the generation of fire or danger, therefore, this portable device able 12 is additionally operable to obtain the real-time physiological parameter of the personnel of wearing, and is sent to this control centre 13, so that rescue personnel judges whether this portable device able 12 has personnel to wear and understand the health status of the personnel of wearing, the priority searched and rescued to help rescue personnel to judge, such as the personnel of preferential lifesaving reason abnormal parameters, to improve personnel's survival rate, accelerate rescue speed.Wherein, this physiological parameter can be parameter or its combination that blood pressure, body temperature, heart beating etc. represent vital sign, but is not limited.Further, the storage of this control centre 13 has the reference value (standard value of the physiological parameter of such as healthy human body) of multiple physiological parameter, and this physiological parameter obtained and this reference value are compared, to judge the health status of the personnel that wear of correspondence, to rescue timely, improve survival rate.Further, when portable device able 12 cannot detect this physiological parameter, this control centre 13 judges that this portable device able 12 is not worn, thus do not list in by rescue personnel's list, it is all 0 when detecting this physiological parameter, then it represents that be in peril of one's life, it is necessary to rescue as early as possible.

Further, this portable device able 12 this primary importance of real-time update, and determine the distance of this primary importance and this thermal source, when the distance of this primary importance and this thermal source is be more than or equal to the second preset value, export the escape message of the first intensity；When the distance of this primary importance and this thermal source is less than the second preset value, exporting the escape message of the second intensity, wherein, this first intensity, less than this second intensity, is in deathtrap or safety zone, is conducive to the escape of indicator of trapped personnel to remind user to be currently.Wherein, this escape message includes acoustical signal, vibration signal, optical signal or its combination, but is not limited.It is combined as example with what this escape message was vibration signal and acoustical signal, when this portable device able 12 judges the position of user and the distance of this thermal source be more than or equal to this second preset value, this portable device able 12 exports the vibration of mild low frequency and the sound that volume is low and soft, when this portable device able 12 judges the position of user and the distance of this thermal source less than this second preset value, this portable device able 12 exports the vibration of strong high frequency and the sound that volume is high and sharp-pointed.

Further, this portable device able 12 shows the relative position relation figure of this primary importance and this thermal source always according to this primary importance and this thermal source location message, so that user checks the relative position of self-position and this thermal source, it is provided that the foundation that user escape judges, improve the accuracy of escape.Such as, the graph of a relation of this relative position presents with radar map, so that the relative position relation of user more intuitive understanding self-position and this thermal source.Further, this relative position relation figure can change towards the change in orientation along with user, make the relative position relation figure that user is seen be with user towards orientation display, it is simple to user quick obtaining relevant information, to contribute to escaping fast and accurately.

Further, this rescue system 100 also includes multiple smoke sensing device, the plurality of smoke sensing device is positioned at the diverse location of environment space, this sensing device 11 includes multiple sensor, each smoke sensing device is built-in with at least one sensor and at least one low-power consumption bluetooth transmitters, this portable device able and this control centre are provided with bluetooth module, and this portable device able 12, this sensing device 11 and this control centre 13 carry out signal transmission by Bluetooth signal.When namely considering fire or dangerous generation, indoor power supply can completely close, uniquely can use the built-in power supply of smoke sensing device, this low-power consumption bluetooth transmitters is built in this smoke sensing device by the present invention, to be powered by existing smoke sensing device, without by external electric power, so, when running into fire or danger causes external electric power to have a power failure or closes, the present invention remains able to the power supply relying on smoke sensing device to carry out normal operation, to help rescue and escape；And, the power consumption of this low-power consumption bluetooth transmitters at a fairly low (a common button cell shell for a low-power consumption bluetooth transmitters 4 to five years), this low-power consumption bluetooth transmitters does not interfere with the normal use of smoke sensing device by the design that smoke sensing device is powered；Additionally, low-power consumption bluetooth transmitters location technology of the present invention can be as accurate as a millimeter rank, and maximum orientation range is up to 50 meters, further increases rescue and escape accuracy.

Further, this portable device able 12 of the present invention is the effect reaching location by scanning the signal intensity of multiple low-power consumption bluetooth transmitters, to obtain this primary importance.

To sum up, the present invention provides a kind of rescue system, comprises sensing device, portable device able and control centre, and this sensing device is used for detecting ambient parameter；This portable device able is used for carrying and positioning self-position, to obtain primary importance, when this sensing device judges this ambient parameter beyond this first preset value, this sensing device sends the thermal source location message of alerting and thermal source, this alerting and this thermal source that this control centre sends for receiving and send this sensing device position message to this portable device able, and this portable device able positions message output escape message according to this primary importance and this thermal source.Namely, this portable device able 12 of the present invention can according to the position output escape message of himself position and this thermal source, to guide people to escape, improve the escape rate of Field Force, and, this sensing device of the present invention in time detecting this ambient parameter beyond this first preset value, can send the thermal source location message of alerting and thermal source to this control centre, is conducive to the rescue of rescue personnel and directing rescue work of rescue command center.

Refer to Fig. 2, the flow chart of the control method of the rescue system 100 provided for the embodiment of the present invention.The control method of the rescue system 100 in Fig. 2 may utilize above-mentioned rescue system 100 and realizes, and the control method of the rescue system 100 that the present embodiment provides comprises the steps:

Step S101, this sensing device detecting ambient parameter, and compare this ambient parameter and the first preset value, if this ambient parameter is beyond this first preset value, send the thermal source location message of alerting and thermal source to this control centre, wherein, this ambient parameter can be temperature, smokescope or its combination, but is not limited；

Step S102, this control centre sends this alerting and this thermal source location message to this portable device able；

Step S103, this portable device able location self-position is to obtain primary importance, and positions message output escape message according to this primary importance and this thermal source.

In practical application, also there is rescue module, rescue module couples with this control centre, this rescue module can be an independent device, for receiving the information that this control centre sends, for instance the thermal source location message of alerting and thermal source, for rescue personnel, such as fire fighter understands rapidly generation emergency, understands the situation of thermal source and launch rapidly rescue, thus being conducive to rescue.

Further, as shown in Figure 3, this portable device able 12 is additionally operable to send this primary importance to this control centre 13, to provide the real-time position of indicator of trapped personnel to rescue command center, to inform rescue personnel, such as fireman, effectively to search and rescue, thus can accelerating rescue progress and improving rescue effect.It should be strongly noted that this portable device able 12 is to obtain real-time primary importance, and the primary importance that this is real-time is sent to this control centre 13, but is not limited.

In practical application, owing to the life of indicator of trapped personnel can be threatened by the generation of fire or danger, therefore, as shown in Figure 4, this step S103 also includes, this portable device able 12 is additionally operable to obtain the real-time physiological parameter of the personnel of wearing, and it is sent to this control centre 13, so that rescue personnel judges whether this portable device able 12 has personnel to wear and understand the health status of the personnel of wearing, the priority searched and rescued to help rescue personnel to judge, such as the personnel of preferential lifesaving reason abnormal parameters, to improve personnel's survival rate, accelerate rescue speed.Wherein, this physiological parameter can be parameter or its combination that blood pressure, body temperature, heart beating etc. represent vital sign, but is not limited.Further, the storage of this control centre 13 has the reference value (standard value of the physiological parameter of such as healthy human body) of multiple physiological parameter, and this physiological parameter obtained and this reference value are compared, to judge the health status of the personnel that wear of correspondence, to rescue timely, improve survival rate.Further, when portable device able 12 cannot detect this physiological parameter, this control centre 13 judges that this portable device able 12 is not worn, thus do not list in by rescue personnel's list, it is all 0 when detecting this physiological parameter, then it represents that be in peril of one's life, it is necessary to rescue as early as possible.

Further, as it is shown in figure 5, this step S103 also includes, this portable device able 12 this primary importance of real-time update, and determine the distance of this primary importance and this burning things which may cause a fire disaster, when the distance of this primary importance and this thermal source is be more than or equal to the second preset value, export the escape message of the first intensity；When the distance of this primary importance and this thermal source is less than the second preset value, exporting the escape message of the second intensity, wherein, this first intensity, less than this second intensity, is in deathtrap or safety zone, is conducive to the escape of indicator of trapped personnel to remind user to be currently.Wherein, this escape message includes acoustical signal, vibration signal, optical signal or its combination, but is not limited.It is combined as example with what this escape message was vibration signal and acoustical signal, when this portable device able 12 judges the position of user and the distance of this thermal source be more than or equal to this second preset value, this portable device able 12 exports the vibration of mild low frequency and the sound that volume is low and soft, when this portable device able 12 judges the position of user and the distance of this thermal source less than this second preset value, this portable device able 12 exports the vibration of strong high frequency and the sound that volume is high and sharp-pointed.

Further, as shown in Figure 6, this step S103 also includes, this portable device able 12 shows the relative position relation figure of this primary importance and this thermal source always according to this primary importance and this thermal source location message, so that user checks the relative position of self-position and this thermal source, the user foundation that escape judges is provided, improves the accuracy of escape.Such as, the graph of a relation of this relative position presents with radar map, so that the relative position relation of user more intuitive understanding self-position and this thermal source.Further, this relative position relation figure can change towards the change in orientation along with user, make the relative position relation figure that user is seen be with user towards orientation display, it is simple to user quick obtaining relevant information, to contribute to escaping fast and accurately.

Further, this rescue system 100 also includes multiple smoke sensing device, the plurality of smoke sensing device is positioned at the diverse location of environment space, this sensing device 11 includes multiple sensor, each smoke sensing device is built-in with at least one sensor and at least one low-power consumption bluetooth transmitters, this portable device able and this control centre are provided with bluetooth module, and this portable device able 12, this sensing device 11 and this control centre 13 carry out signal transmission by Bluetooth signal.When namely considering fire or dangerous generation, indoor power supply can completely close, uniquely can use the built-in power supply of smoke sensing device, this low-power consumption bluetooth transmitters is built in this smoke sensing device by the present invention, to be powered by existing smoke sensing device, without by external electric power, so, when running into fire or danger causes external electric power to have a power failure or closes, the present invention remains able to the power supply relying on smoke sensing device to carry out normal operation, to help rescue and escape；And, the power consumption of this low-power consumption bluetooth transmitters at a fairly low (a common button cell shell for a low-power consumption bluetooth transmitters 4 to five years), this low-power consumption bluetooth transmitters does not interfere with the normal use of smoke sensing device by the design that smoke sensing device is powered；Additionally, low-power consumption bluetooth transmitters location technology of the present invention can be as accurate as a millimeter rank, and maximum orientation range is up to 50 meters, further increases rescue and escape accuracy.

Further, this step S103 also includes, and this portable device able 12 is the effect reaching location by scanning the signal intensity of multiple low-power consumption bluetooth transmitters, to obtain this primary importance.

To sum up, the present invention provides the control method of a kind of rescue system, ambient parameter is detected by this sensing device, and compare this ambient parameter and the first preset value, if this ambient parameter is beyond this first preset value, send the thermal source location message of alerting and thermal source to this control centre, this control centre sends this alerting and this thermal source location message to this portable device able, this portable device able location self-position is to obtain primary importance, and positions message output escape message according to this primary importance and this thermal source.Namely, this portable device able of the present invention can according to the position output escape message of himself position and this thermal source, to guide people to escape, improve the escape rate of Field Force, and, this sensing device of the present invention in time detecting this ambient parameter beyond this first preset value, can send the thermal source location message of alerting and thermal source to this control centre, is conducive to the rescue of rescue personnel and directing rescue work of rescue command center.

The present invention is been described by by above-mentioned related embodiment, but above-described embodiment is only the example implementing the present invention.It must be noted that, the embodiment disclosed is not limiting as the scope of the present invention.On the contrary, the change made without departing from the spirit and scope of the present invention and retouching, all belong to the scope of patent protection of the present invention.

Claims (15)

1. a control method for rescue system, for rescue system, this rescue system includes sensing device, portable device able and control centre, it is characterised in that this control method comprises the following steps:

Step S101, this sensing device detecting ambient parameter, and compares this ambient parameter and the first preset value, if this ambient parameter is beyond this first preset value, sends the thermal source location message of alerting and thermal source to this control centre；

Step S102, this control centre sends this alerting and this thermal source location message to this portable device able；

Step S103, this portable device able location self-position is to obtain primary importance, and positions message output escape message according to this primary importance and this thermal source.

2. rescue system as claimed in claim 1, it is characterised in that this step S103 also includes, this portable device able is additionally operable to send this primary importance to this control centre.

3. the control method of rescue system as claimed in claim 1, it is characterised in that this step S103 also includes, and obtains real-time physiological parameter by this portable device able, and is sent to this control centre.

4. the control method of rescue system as claimed in claim 1, it is characterized in that, this step S103 also includes, this primary importance of real-time update, and determine the distance of this primary importance and this thermal source, when the distance of this primary importance and this thermal source is be more than or equal to the second preset value, export the escape message of the first intensity；When the distance of this primary importance and this thermal source is less than the second preset value, exporting the escape message of the second intensity, wherein, this first intensity is less than this second intensity.

5. the control method of rescue system as claimed in claim 1, it is characterised in that this escape message includes the combination of acoustical signal, vibration signal, optical signal or above-mentioned signal.

6. the control method of rescue system as claimed in claim 1, it is characterised in that this step S103 also includes, this portable device able shows the relative position relation figure of this primary importance and this thermal source always according to this primary importance and this thermal source location message.

7. the control method of the rescue system as described in any one of claim 1-6, it is characterized in that, this rescue system also includes multiple smoke sensing device, the plurality of smoke sensing device is positioned at the diverse location of environment space, this sensing device includes multiple sensor, each smoke sensing device is built-in with at least one sensor and at least one low-power consumption bluetooth transmitters, this portable device able and this control centre are provided with bluetooth module, and this portable device able, this sensing device and this control centre carry out signal transmission by Bluetooth signal.

8. a rescue system, it is characterised in that comprise:

Sensing device, is used for detecting ambient parameter, and compares ambient parameter and the first preset value, if this ambient parameter is beyond this first preset value, this sensing device sends the thermal source location message of alerting and thermal source；

Portable device able, is coupled to this sensing device, is used for positioning self-position, to obtain primary importance；

Control centre, is coupled to this sensing device and this portable device able, is used for receiving and send this alerting and this thermal source location message to this portable device able；

Wherein, this portable device able positions message output escape message according to this primary importance and this thermal source.

9. rescue system as claimed in claim 8, it is characterised in that this portable device able is additionally operable to send this primary importance to this control centre.

10. rescue system as claimed in claim 8, it is characterised in that this portable device able is additionally operable to obtain real-time physiological parameter, and is sent to this control centre.

11. rescue system as claimed in claim 8, it is characterized in that, this portable device able is additionally operable to this primary importance of real-time update, and determines the distance of this primary importance and this burning things which may cause a fire disaster, when the distance of this primary importance and this thermal source is be more than or equal to the second preset value, export the escape message of the first intensity；When the distance of this primary importance and this thermal source is less than the second preset value, exporting the escape message of the second intensity, wherein, this first intensity is less than this second intensity.

12. rescue system as claimed in claim 8, it is characterised in that this escape message includes the combination of acoustical signal, vibration signal, optical signal or above-mentioned signal.

13. rescue system as claimed in claim 8, it is characterised in that this portable device able shows the relative position relation figure of this primary importance and this thermal source always according to this primary importance and this thermal source location message.

14. the rescue system as described in any one of claim 8-13, it is characterized in that, this rescue system also includes multiple smoke sensing device, the plurality of smoke sensing device is positioned at the diverse location of environment space, this sensing device includes multiple sensor, each smoke sensing device is built-in with at least one sensor and at least one low-power consumption bluetooth transmitters, this portable device able and this control centre are provided with bluetooth module, and this portable device able, this sensing device and this control centre carry out signal transmission by Bluetooth signal.

15. the rescue system as described in any one of claim 8-13, it is characterised in that this portable device able is intelligent watch.