JP2002064595A - Mobile communication terminal and mobile communication and system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a mobile communication terminal that has a function of detecting a substance component (an odor component and a harmful component) in air and to provide a mobile communication aid system that can effectively utilize the function of the mobile communication terminal as above. SOLUTION: The mobile communication terminal is provided with a gas sensor 11 that senses a substance component of an ambient gas so as to detect any of a kind, a concentration, the kind and concentration of the ambient gas, a memory 21 that in advance stores a relational table among the sensed value by the gas sensor, the kind and the concentration, a relational table between the sensed value of the gas sensor and the type, or a relational table between the sensed value of the gas sensor and the concentration, and a control means 12 that receives a sensing output of the gas sensor to refer to any relational table in the memory thereby identifying the kind and the concentration of the sensed ambient gas and displaying them.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile communication terminal having a function of detecting a substance component (odor component, harmful component, etc.) in the air, and to effectively utilize the function of such a mobile communication terminal. The present invention relates to a mobile communication rescue system that can be used.

[0002]

2. Description of the Related Art In recent years, environmental protection has been loudly shouted. However, in reality, environmental problems caused by by-products of industrial activities of human beings have been released into the air. Specifically, there are the ozone depletion problem due to chlorofluorocarbon gas, the global warming problem due to carbon dioxide emission, and the dioxin problem due to industrial waste treatment plants. However, it is difficult to directly visually confirm the substance components in the air, so you may be overly concerned about harmful substances and components in the air,
Often optimistic with indifference.

[0003] In addition, carbon monoxide gas generated in large quantities due to incomplete combustion of a heating system or the like causes poisoning when a certain amount or more is inhaled, but is often not noticed due to its colorless taste and odorlessness. When you become aware of the symptoms of poisoning, you may already be too late for your physical freedom.

[0004] Further, if terrorism caused by spraying of toxic gas occurs simultaneously at a plurality of locations in an urban area, it is difficult to accurately determine the damage location and its damage status. May not be implemented. In such a situation, those who rescue or care for the victim may be victims of secondary damage.

[0005] In addition, modern people living in the current deodorant civilization are forced to have awareness of odors represented by bad breath and body odor. As a result, regardless of the actual state, excessive mental care can be too burdensome, even causing social phobia and withdrawal. This is because it is a phenomenon caused by invisible components in the air, called odors,
As a result, the feeling of anxiety was further increased.

[0006]

Since mobile communication terminals are used by individuals, they are required to have a function of detecting airborne substances such as odorous and harmful components. Inspections can be easily performed indoors or outdoors wherever one goes.

[0007] By doing so, it is possible to prevent excessive concern about harmful substances and harmful components in the invisible air in the surrounding environment of the user and to prevent optimism indifferently, and to obtain objective information. Therefore, the mobile communication terminal which has been widely used can be made more useful.

The present invention has been made in view of such circumstances, and a purpose thereof is to provide a mobile communication terminal having a function of detecting a substance component (odor component, harmful component, etc.) in the air. It is an object of the present invention to provide a mobile communication rescue system that can effectively utilize the functions of the mobile communication terminal and the mobile communication terminal.

[0009]

Means for Solving the Problems In order to solve the above problems, the present invention has the following constitution. The gist of the invention according to claim 1 is that, in a mobile communication terminal, a gas sensor that detects a substance component of a peripheral gas and detects any one of a type and a concentration of the peripheral gas, and the gas sensor, and the gas sensor A memory in which any one of a relation table between a detection value and a type and a concentration of the gas sensor, a relation table between a detection value and a type of the gas sensor, and a relation table between a detection value and the concentration of the gas sensor is set in advance. And a control means for receiving the detection output of the gas sensor, referring to the relation table of the memory, identifying and displaying the type and concentration of the detected surrounding air, and displaying the same. Exists. The gist of the invention according to claim 2 is that the gas sensor comprises:
An odor sensor for detecting an odor component, which is provided around a communication port or an appropriate place in a terminal main body, and the memory has a relation table between a detection value of the odor sensor and a determination threshold of whether or not an odor is present. 2. The moving apparatus according to claim 1, wherein the control unit performs a bad breath test or a body odor test based on a detection value of the odor sensor and a relation table of the memory, and displays the test result. It exists in the body communication terminal. The gist of the invention according to claim 3 is that the gas sensor is a sensor that detects a concentration of a specific substance component that may affect a human body contained in ambient air, and the memory includes the gas sensor. A relation table between the detection value, concentration, and the necessity of an alarm is set in advance, and the control unit receives the detection output of the gas sensor, refers to the relation table of the memory, and when an alarm is necessary, 2. The mobile communication terminal according to claim 1, wherein a warning display and a warning sound are output to notify a user of an abnormality in the surrounding environment. The gist of the invention according to claim 4 is that, when the concentration of the detected specific substance component shows a tendency to increase after performing the warning display and the warning sound output, the control unit automatically sets the base station to the base station. 4. The mobile communication terminal according to claim 3, wherein the transmission of the 119th notification including the position information and the gas sensor detection value to the wireless device is performed. The gist of the invention according to claim 5 is that the mobile communication terminal according to claim 4 is connected to the base station wireless device via a wireless line, receives the 119th report, and receives the location information and the gas contained therein. A mobile communication rescue system, comprising: a 119th command base for performing an emergency measure based on a sensor detection value. The gist of the invention according to claim 6 is that the gas sensor is a sensor that detects a plurality of substance components that may affect the human body contained in the surrounding air, and the memory includes the detection of the gas sensor. A relation table between values, types, and harmful / harmless is set in advance, and the control unit receives a detection output of the gas sensor and refers to a relation table in the memory. 2. The mobile communication terminal according to claim 1, wherein a warning display and a warning sound are output to notify an abnormality of the mobile communication terminal. The gist of the invention according to claim 7 is that, after the control means performs the warning display and the warning sound output, the control means automatically notifies the base station radio apparatus of the 119th information including the position information and the gas sensor detection value. 7. The mobile communication terminal according to claim 6, wherein The gist of the invention described in claim 8 is that
8. A plurality of mobile communication terminals, including the mobile communication terminal according to claim 7, connected to the base station wireless device via a wireless line, and receiving the 119th report from the base station wireless device to control the mobile terminal. To the evacuation area, etc. to the evacuation area,
There is provided a mobile communication rescue system comprising: a 119th command board for performing rescue measures in cooperation with an emergency team or a medical facility based on the position information and the gas sensor detection value included in the call notification.

[0010]

Embodiments of the present invention will be described below in detail with reference to the drawings.

FIG. 1 is a block diagram showing the configuration of a mobile communication terminal according to a first embodiment of the present invention. As shown in FIG. 1, a mobile communication terminal 1 according to the present embodiment has a gas sensor 11 for detecting the type and concentration of a substance component in the air in a general mobile communication terminal. In addition to the state control and state monitoring of each unit necessary for realizing the functions of a general mobile communication terminal, a slight control function based on the output of the gas sensor 11 is added to the control unit 12 operated by control. .

A general mobile communication terminal is provided with a communication unit having a transmission unit and a reception unit for performing bidirectional communication with a base station radio device (not shown) via a radio line under the control of the control unit 12. 13, a display unit 14 having a display function capable of realizing character display and graphic display so that the owner can easily and visually use the terminal, and a communication partner transmitted from the control unit 12. A speaker 15 for converting an audio signal into an audio signal and outputting the audio signal, a microphone 16 for converting an input own audio signal into an audio signal and outputting the audio signal to the control unit 12, and various functions provided in the terminal can be easily realized. The control unit 1 controls the control signal so that it can be used intuitively.
Keypad 17 for outputting to control unit 12 and control unit 12
The power supply unit 18 includes a power supply unit 18 that supplies power for driving the other units, and a SW 19 that switches a drive / stop state of the power supply unit 18.

The following three types of gas sensors 11 are available. The first sensor is capable of detecting the type and concentration of a substance component in the air. The second sensor can detect the concentration of the specific substance component in the air. The third sensor is capable of detecting the type of substance component in the air regardless of the concentration. Further, some of the gas sensors 11 perform a detection operation in response to a command from the control unit 12, and others perform a detection operation at all times.

The memory 21 of the control section 12 is provided with a relation table corresponding to the type of the gas sensor 11 mounted. That is, when the gas sensor 11 is the first sensor, for example, a relation table is provided for the detected value, “type or component and concentration”, “harmful / harmless”, and “whether an alarm is required”. ing. When the gas sensor 11 is the second sensor, for example, the detection value and the “concentration”
There is provided a relation table between "and the necessity of alarm". In the case where the gas sensor 11 is the third sensor, for example, a relation table is provided for the detected values, “type or component”, “harmful / harmless”, and “necessity of alarm”. .

The control unit 12 receives the detection output of the gas sensor 11, specifies the component or type and concentration detected by the gas sensor 11 with reference to the above-mentioned relation table of the memory 21, and specifies the result (detection result). Is displayed on the display unit 14 (see FIGS. 2 and 3). Alternatively, if the specified result (detection result) requires a warning, a warning sound is output from the speaker 15 and the display unit 14 displays that fact. The notification, the position information, and the e-mail of the gas sensor detection value are transmitted (see FIGS. 4 to 6).

Next, the operation of the mobile communication terminal 1 according to the first embodiment will be described with reference to FIG. FIG. 2 is a flowchart illustrating an example of the gas detection function provided in the mobile communication terminal 1 according to the first embodiment.

In FIG. 2, for example, a user inputs a command to activate a gas detection function of the terminal from the input keypad 17 (step S11). As a result, the control unit 12 activates the gas sensor 11 to start a peripheral gas detection operation (step S12), and captures a detection value from the gas sensor 11 (step S13).

The control unit 12 receives the detection output of the gas sensor 11 and refers to the above-mentioned relation table in the memory 21 (step S14), and specifies the components or types and concentrations detected by the gas sensor 11 (step S15). The specified result (detection result) is displayed on the display unit 14 (step S
16).

Next, specific application examples of the mobile communication terminal having the above-described gas detection function will be described as second to fourth embodiments.

FIG. 3 is a flowchart showing an operation (bad breath test) of the mobile communication terminal according to the second embodiment of the present invention. In the present embodiment, the gas sensor 11 provided in the mobile communication terminal is an odor sensor that detects only odor components. This odor sensor is provided in the vicinity of the microphone 16, that is, near the communication port. The memory 21 of the control unit 12 is provided with a relationship table between the detected value, the density, and the threshold value for determining an unusual odor. As a result, a user's bad breath test can be easily performed during a call.

In FIG. 3, the user inputs a command to activate the bad breath detection function of the terminal from the input keypad 17 during a call (step S20). Thereby, the control unit 12 activates the gas sensor (odor sensor) 11,
The detection of exhaled odor is started (step S21), and the detected value is taken in from the gas sensor (odor sensor) 11 (step S22).

The control unit 12 is a gas sensor (odor sensor)
In response to the detection output of No. 11, the relation table of the memory 21 is referred to (Step S23), and it is determined whether or not the concentration of the odor component detected by the gas sensor (odor sensor) 11 exceeds a threshold value (Step S24). .

When the concentration of the odor component exceeds the threshold value (step S24; Yes), the control unit 12 determines that the odor component is unusual (step S25), and displays various displays on the display unit 14 according to the degree of the unusual odor. Is performed (step S26). on the other hand,
When the concentration of the odor component does not exceed the threshold (Step S24; No), the control unit 12 determines that the odor component is not an unusual odor (Step S27), displays the fact on the display unit 14 (Step S28), and (User) security is assured.

As described above, by incorporating a bad breath inspection function in a highly portable mobile communication terminal, frequent information collection is required, and when going out to a highly public place or becoming unnecessarily grooming. In the required occupation, etc., it is possible to easily carry out a breath test without making a choice of place and time and using exaggerated reagents.

Here, since the gas sensor 11 is required only to function as an odor sensor, the cost of parts of the gas sensor 11 can be reduced. In addition, since the functions are simplified, it is expected that the load on the control unit 12 can be reduced. Further, by changing the portion to be tested to an appropriate location other than the main part of the main body, it is possible to operate as a body odor test.

FIG. 4 is an overall configuration diagram of a mobile communication rescue system according to a third embodiment of the present invention. In FIG.
As a mobile communication rescue system, a configuration example of a carbon monoxide gas poisoning patient rescue system is shown. As shown in FIG. 4, this emergency system for poisoning patients with carbon monoxide gas comprises a mobile communication terminal (hereinafter, referred to as “MS”) 31 having the configuration shown in FIG. 1 and a base connected to the MS 31 via a wireless line. A station wireless device (hereinafter referred to as “BTS”) 32 and a BT
119th command stand 3 connected to S32 via wireless line
And 3.

The victim 34 is the owner of the MS 31,
It shows a state in which the house 35 fell down due to carbon monoxide gas poisoning due to the heating device in the winter season. The gas sensor 11 included in the MS 31 is a sensor for detecting carbon monoxide gas, and constantly performs a detection operation. In the memory 21 of the control unit 12, a relation table of the detected value, the density, and the necessity of the alarm is set. For a concentration that requires an alarm to affect the human body, a first threshold for performing only an alarm and a second threshold for performing a 119 notification in addition to the alarm are provided.

According to the third embodiment, since the operation shown in FIG. 5 can be performed, the MS 31 can exhibit a function of preventing carbon monoxide gas poisoning, and establish a rescue system for patients suffering from carbon monoxide gas poisoning. Becomes possible. FIG. 5 is a flowchart showing the operation of the third embodiment.

In FIG. 5, the gas sensor (carbon monoxide gas sensor) 11 constantly performs a detection operation in a room where heating is effective (step S31). It is assumed that a large amount of carbon monoxide gas is generated due to incomplete combustion of the heating device and the concentration in the air is increased. The control unit 12 takes in the output of the gas sensor (carbon monoxide gas sensor) 11 one by one (step S32), and refers to a relation table provided in the memory 21 to determine whether the carbon monoxide concentration has exceeded the first threshold value. Is determined (step S33).

The first threshold value is set to a level at which caution is required for ventilation of room air. When the carbon monoxide concentration exceeds the first threshold (step S33; Y)
es) Then, a caution display is displayed on the display unit 14 to urge ventilation of the room, and the speaker 15 is warned by a buzzer sound (step S34).

The control unit 12 captures the output of the gas sensor (carbon monoxide gas sensor) 11 after a certain period of time (step S35), and the carbon monoxide gas concentration decreases as compared with the value at the time of the previous detection. It is determined whether the value has dropped below the threshold value of 1 (step S36). If the value is lower than the first threshold value compared to the value at the time of the previous detection (step S36; Y
es) Assuming that the indoor ventilation has been performed or the malfunction of the heating device has been resolved, the process returns to the first step S31.

On the other hand, when the carbon monoxide gas concentration is higher than the value at the time of the previous detection (step S36; N
o), It is determined that the carbon monoxide gas concentration has exceeded the second threshold (step S37). This second threshold is
It is set to a level just before you start having a great impact on the human body.

The control unit 12 displays a warning message on the display unit 14 to notify the user of danger, and sounds a buzzer to notify the warning from the speaker 15 (step S38). The control unit 12 takes in the output of the gas sensor (carbon monoxide gas sensor) 11 after a certain period of time (step S39), and determines whether or not the carbon monoxide gas concentration is lower than the value at the previous detection. (Step S40). If the value is lower than the value at the time of the previous detection (step S40; Yes), it is considered that the indoor ventilation has been performed or the malfunction of the heating device has been resolved, and the process returns to the first step S31.

On the other hand, when the carbon monoxide gas concentration is higher than the value at the time of the previous detection (step S40; N
o) If the owner of MS31 has already lost consciousness,
Since there is a high possibility that the victim has fallen into serious condition, the control unit 12 sends a 119th report and sends an e-mail to give priority to the life of the victim 34 (step S41). The 119th report and the transmitted mail are sent to the 119th command board 3 via the BTS 32.
3 is transmitted.

The contents of the transmitted mail are the current position information of the MS 31 and the detection value of the gas sensor 11. This gives 1
Information can be provided to the 19th command stand 33 so that an appropriate emergency treatment can be immediately taken. Since the current position of the MS 31 is the home 35 and the address is registered in advance, the control unit 12 transmits the address of the home 35.

Since such a carbon monoxide gas poisoning accident is not limited to the case where the user is at home, in the mobile communication system, the detailed position information transmission of the MS 31 is disclosed in, for example, JP-A-2000-152314. It is assumed that the detailed position registration function described in (Position detection system of mobile phone terminal) is performed.

As described above, by incorporating a carbon monoxide gas detection function into a highly portable mobile communication terminal, the user becomes unconscious due to a carbon monoxide gas poisoning symptom in a room having no security function. 119
It is possible to make a call and seek rescue. At this time, since only the function as a carbon monoxide gas sensor is required for the gas sensor 11, it is possible to reduce the component cost of the gas sensor 11.

FIG. 6 is an overall configuration diagram of a mobile communication rescue system according to a fourth embodiment of the present invention. In FIG.
As a mobile communication rescue system, an emergency countermeasure system in the event of a terrorist action caused by spraying toxic gas is disclosed. FIG.
As shown in FIG. 1, this emergency countermeasure system includes a mobile communication terminal (hereinafter, referred to as “MS”) 40 and a base station radio apparatus (hereinafter, “BT”) connected to the MS 40 via a radio line.
S) 44, a 119th command board 45 connected to the BTS 44 via a wireless line, and related ministries 46, emergency medical teams 47, and medical facilities 48 under the 119th command board 45. ing.

In FIG. 1, a number of MSs 40 present in the communication areas 41, 42, 43 of the BTS 44 are all denoted by the same reference numerals for convenience of explanation, and all the mobile communication terminals have the configuration of FIG. However, it goes without saying that a general mobile communication terminal having no gas detection function may be included.

Now, the communication areas 41, 42,
At 43, it is assumed that a toxic gas was sprayed by a terrorist act. The gas sensor 11 included in the MS 40 existing in each communication area can detect and identify one or more types of toxic gas to be sprayed. Control unit 12
The memory 21 stores a relationship table between the detected values and the designated toxic gas (one or more types) in advance.

Upon receiving the detection output of the gas sensor 11 and referring to the memory 21 and recognizing that the data of the detected substance component is the same as the previously designated toxic gas, the control unit 12 automatically transmits the data to the BTS 44. On the other hand, a 119 notification is sent, and the position information of the MS 40 and the gas sensor detection value are transmitted by mail. As described above, the MS 40 can automatically make a call to the BTS 44 by the operation of the control unit 12, so that it is possible to increase the notification information even from a victim who has lost consciousness or is in a serious condition.

Upon receiving the report information, the BTS 44 immediately sends the report information to the 119th command board 45 by mail. Taking into account the current penetration rate of mobile communication terminals in Japan, the 119th command stand 45 uses the position information in the notification information and the detection value of the gas sensor 11 to obtain information on the victim distribution and the damage status. It is possible to quickly and efficiently grasp the information, and it is possible to provide the relevant ministries and agencies 46, the emergency medical team 47, the medical facilities 48, and the like with accurate information at any time.

That is, effective information called victim distribution information is transmitted to the emergency medical team 47, that is, a section for accommodating a victim such as an ambulance, a rescue squad, or a SDF. In addition, the medical facility 4 where the victims will be housed
Since effective information such as information on the toxic gas that has been identified is transmitted to 8, the appropriate treatment can be quickly performed.

Further, by providing the relevant ministries and agencies 46 with such information, it is possible to quickly start an emergency crisis management project. As a result, even in a panic situation peculiar to a disaster, objective and accurate information without rumors and speculation can be transmitted to the whole country through mass media. At the same time, for MS40 located at the damage site and its surroundings,
By using the mail communication function, useful information such as evacuation site guidance and emergency treatment methods can be distributed as data, and the effect of minimizing the spread of secondary damage can be expected.

[0045]

As described above, according to the present invention,
Highly portable and always equipped with a mobile communication terminal equipped with a gas sensor, so you can easily smell or harmful substances, etc. Tests for invisible airborne substances. As a result, it is possible to prevent the user from being overly worried about invisible harmful substances and harmful components in the air in his or her surrounding environment and from ignorantly optimistic, and obtain objective information. In addition, by utilizing the gas detection function according to the present invention and the mail transmission function originally provided, it is possible to make a 119 notification including the position information and the gas sensor detection value when the vehicle is damaged by a harmful substance. It is possible to construct a mobile communication rescue system that performs a rescue procedure for the notification.

[Brief description of the drawings]

FIG. 1 is a configuration block diagram of a mobile communication terminal according to a first embodiment of the present invention.

FIG. 2 is a flowchart illustrating an example of a gas detection function provided in the mobile communication terminal 1 according to the first embodiment.

FIG. 3 is a flowchart illustrating an operation (halitosis test) of a mobile communication terminal according to a second embodiment of the present invention.

FIG. 4 is an overall configuration diagram of a mobile communication rescue system (a rescue system for poisoning patients with carbon monoxide gas) according to a third embodiment of the present invention.

FIG. 5 is a flowchart showing the operation of the third embodiment.

FIG. 6 is an overall configuration diagram of a mobile communication rescue system according to a fourth embodiment of the present invention (an emergency countermeasure system at the time of occurrence of a terrorist action by spraying toxic gas).

[Explanation of symbols]

Reference Signs List 1 mobile communication terminal 11 gas sensor 12 control unit 13 communication unit 14 display unit 15 speaker 16 microphone 17 input keypad 18 power supply unit 19 SW 21 memory 31, 40 mobile communication terminal (MS) 32, 44 base station wireless Equipment (BTS) 33, 45 119 command stand 34 Victim 35 Home 41, 42, 43 Communication area 46 Related ministries and agencies 47 Emergency medical team (ambulance, rescue squad, SDF, etc.) 48 Medical facilities

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) H04M 11/00 301 H04B 7/26 EF term (Reference) 5C087 AA02 AA03 AA42 AA44 BB18 BB74 DD07 EE08 EE18 FF01 FF04 FF16 GG19 GG66 GG70 GG83 5K027 AA11 BB01 BB02 CC08 EE04 FF01 FF22 FF25 HH26 5K036 AA03 AA07 BB00 DD00 EE11 JJ01 JJ12 JJ15 KK09 5K067 AA21 AA35 BB04 DD28 KK23 FF02 FF02 FF02 FF02 FF02 FF02 FF02 FF02 KK

Claims (8)

[Claims] 1. A mobile communication terminal, comprising: a gas sensor that senses a substance component of a peripheral gas and detects any one of a type and a concentration of the peripheral gas; and a detection value and a type of the gas sensor. And a relation table with the concentration, a relation table between the detection value and the type of the gas sensor,
A memory in which any one of a relation table of a detection value and a concentration of the gas sensor is set in advance; and a detection table of the memory receiving the detection output of the gas sensor and referring to the relation table of the memory. Control means for specifying and displaying the type and concentration of the mobile communication terminal. 2. The gas sensor is an odor sensor for detecting an odor component. The gas sensor is provided around a communication port or at an appropriate place in a terminal main body. A relation table with a judgment threshold value of whether or not is set in advance, the control unit performs a bad breath test or a body odor test based on the detection value of the odor sensor and the relation table of the memory, and displays the test result. The mobile communication terminal according to claim 1, wherein: 3. The gas sensor is a sensor for detecting the concentration of a specific substance component that may affect the human body contained in the surrounding air, and the memory includes a detection value and a concentration of the gas sensor. A relationship table between the presence and absence of the need for an alarm is set in advance, and the control unit receives the detection output of the gas sensor and refers to the relationship table in the memory,
2. The mobile communication terminal according to claim 1, wherein when a warning is required, a warning display and a warning sound are output to notify a user of an abnormality in the surrounding environment. 4. The control means, after performing the warning display and the warning sound output, when the concentration of the detected specific substance component shows a tendency to increase, automatically to the base station radio apparatus, 1 including position information and gas sensor detection value
The transmission of the 19th report is performed.
The mobile communication terminal according to the above. 5. The mobile communication terminal according to claim 4, wherein the mobile communication terminal is connected to the base station wireless device via a wireless line, receives the 119th report, and based on the positional information and the gas sensor detection value included therein. A mobile communication rescue system, comprising: a 119th command base for performing emergency measures. 6. The gas sensor is a sensor that detects a plurality of substance components that may affect the human body contained in the surrounding air, and the memory stores the detected value, the type, and the harmfulness of the gas sensor. The control means receives a detection output of the gas sensor and refers to the relation table of the memory to notify the user of an abnormality in the surrounding environment when the substance is a harmful substance. 2. The mobile communication terminal according to claim 1, wherein a warning display and an alarm sound are output. 7. The control means automatically transmits a 119th report including position information and a gas sensor detection value to the base station wireless device after performing the warning display and the warning sound output. The mobile communication terminal according to claim 6, wherein: 8. A plurality of mobile communication terminals including the mobile communication terminal according to claim 7, wherein said base station is connected to said base station radio apparatus via a radio line, and receives said 119 report. In addition to having the wireless device perform simultaneous distribution of evacuation site guidance and emergency treatment methods to the communication area under its control, cooperate with emergency teams and medical facilities based on the position information and gas sensor detection value included in the 119th report. A mobile communication rescue system comprising a 119th command stand for taking and performing rescue measures.