JP4783925B2 - Emergency call system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention provides an emergency call system.ToIn particular, in the event of an abnormal situation such as a traffic accident, an emergency call system that automatically sends the current location and other necessary information to any department in charge.ToRelated.
[0002]
[Prior art]
In general, for example, if a pedestrian is hit by a car, or encounters a traffic accident such as a collision with another car while driving the car, the accident perpetrator, victim or surroundings Passersby report to the fire department or police department by telephone, etc., and request ambulance relief, police request accident handling, etc.
[0003]
[Problems to be solved by the invention]
However, there is no problem if the perpetrator etc. make a report in this way, or if the perpetrator etc. is in a state where he / she can report himself / herself, or there is someone around, but there is a person in the vicinity such as late at night or mountain road There is a problem that it may not be possible to promptly report when there is no consciousness or when the consciousness is unclear due to an accident. Such discovery of accidents and delays in reporting affect human lives, and the earlier an emergency call is made, the higher the rescue rate.
[0004]
In addition, for example, if a patient with chronic illness such as high blood pressure or heart disease has a seizure while going out, there is no problem as long as he can contact the hospital etc. In the case of falling, there is a problem that it is not possible to contact itself, and there is a possibility that it may lead to a life-threatening situation due to delay in allowance.
[0005]
In recent years, society's health consciousness has increased, and there has been a growing demand not only for patients with physical abnormalities, but also for healthy individuals to always manage their health. In this case, conventionally, health management could not be performed without going to a medical institution such as a hospital and receiving various examinations.
[0006]
  The present invention has been made in view of the above points, and can promptly and surely notify the department in charge that an emergency has occurred due to an accident or illness, and can take prompt relief measures. And an emergency call system that can always manage healthTheIt is intended to provide.
[0007]
  In order to achieve the above object, an emergency call system according to claim 1 is provided with a terminal device body connected to a communication device, and one or more data processing and communication devices are provided inside the terminal device body. Central control circuit for controlling communicationWhen,Memory for recording various information of a user who uses the terminal device bodyWhen,Acceleration sensor that measures acceleration and gravitational acceleration of the terminal device main body and sends them to the central control circuitWhen,A GPS device for sending current position data of the terminal device body to the central control circuitAnd one or more sensors for acquiring data for determining the ambient state around the terminal device body, and a flame sensor for detecting whether or not the periphery of the terminal device body is in flames And connecting the human body function measuring instrument attached to the user to acquire the human body function information of the user and sending it to the central control circuit.The acceleration sensor is controlled by the central control circuit.When acceleration change data exceeding a preset value is detected, or when measurement data measured by the human body function measuring instrument is out of the preset maximum / minimum rangeIn addition,Depending on whether an abnormal state is detected by the acceleration sensor or an abnormal state is detected by the human body function measuring device, a destination is automatically selected.Performs automatic transmission control of the communication device, the current position in the GPS device, the acceleration change data by the acceleration sensor,in frontVarious information of usersAnd a destination automatically selected from the atmosphere data around the terminal device body detected by the one or more sensors and / or whether or not the surroundings of the terminal device body are in flames.This is characterized in that the automatic transmission is performed.
[0008]
  According to the first aspect of the invention, when the acceleration sensor detects an abnormal state by the central control circuit, the automatic transmission control of the communication device is performed, the current position by the GPS device, the acceleration change data by the acceleration sensor, and the user's Since various types of information are automatically sent to the department in charge, the location and status of the user's abnormality can be grasped accurately and quickly, and prompt relief activities and accident handling can be performed. it can.Furthermore, even if a human body function measuring device is provided and an abnormality is detected by this human body function measuring device, automatic transmission control of communication equipment is performed, the current position by a GPS device, acceleration change data by an acceleration sensor, and various types of user information Is automatically transmitted to each department in charge, so even when a malfunction occurs in the human body function rather than in a traffic accident, the user can accurately and quickly grasp the location and status of the malfunction. It is possible to carry out prompt relief activities.
[0009]
  According to a second aspect of the present invention, an infrared sensor is disposed in the terminal device body, and the infrared sensor detects weak infrared rays emitted from a user.When the infrared sensor detects infrared rays, it is determined that the terminal device body is worn by the user, and automatic transmission control is performed by the communication device from the central control circuit. When the infrared sensor does not detect infrared rays, it is not judged that the user has an abnormality, and automatic transmission control by the communication device is not performed from the central control circuit.It is characterized by this.
[0010]
  This claim2According to the invention, since the infrared sensor is provided and the weak infrared ray emitted from the user is detected by the infrared sensor, when the infrared ray is detected by the infrared sensor, the terminal device main body is If it is determined that it is attached to the user and automatic transmission control is performed by the communication device, and if infrared rays are not detected by the infrared sensor, it is automatically determined that the terminal device body is not attached to the user. It is possible not to perform outgoing call control.
[0011]
  The invention according to claim 3One or more sensors for obtaining data for judging the state of the atmosphere around the terminal device body are an oxygen sensor for measuring the oxygen concentration of the atmosphere, and the carbon monoxide concentration of the atmosphere is measured. A carbon monoxide sensor that measures the carbon dioxide concentration of the atmosphere, a temperature sensor that measures the temperature of the atmosphere, a humidity sensor that measures the humidity of the atmosphere, and a pressure sensor that measures the atmospheric pressure of the atmosphere One or more sensorsIt is characterized by this.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to FIGS. 1 to 3.
[0018]
FIG. 1 shows a first embodiment of an emergency call system according to the present invention. A terminal device body 1 is connected to a mobile phone 2 as a communication device via an external input terminal (not shown). The terminal device body 1 may be connected so as to be integrated with the mobile phone 2, or may be configured separately from the mobile phone 2 and connected via a cable. .
[0019]
Further, a central control circuit 3 comprising a CPU or the like is disposed inside the terminal device main body 1, and this central control circuit 3 is, for example, based on a calculation process or input operation of various detection data according to a predetermined program. Controls such as data processing are performed. Further, the central control circuit 3 can output a communication control signal such as automatic transmission and automatic reception to the mobile phone 2 and can input an analog signal received by the mobile phone 2, and can input various data or The digital signal received by the cellular phone 2 can be transferred or received via the modem circuit 13. A predetermined program to be executed by the central control circuit 3 and various information such as personal information and medical information of a user who uses the terminal device body 1 are recorded in the terminal device body 1. The memory 4 is provided.
[0020]
The terminal device main body 1 is provided with an acceleration sensor 5, which is connected to the central control circuit 3. The acceleration sensor 5 includes, for example, a sensor that measures horizontal acceleration and a sensor that measures vertical acceleration. By measuring and calculating acceleration and gravitational acceleration using these sensors, In addition, it is possible to detect a three-dimensional movement state, for example, a state in which an excessive impact is applied to the user, a state in which the user falls or crouches.
[0021]
Further, an infrared sensor 6 is disposed in the terminal device body 1, and the infrared sensor 6 is connected to the central control circuit 3. The infrared sensor 6 detects weak infrared rays emitted from the user. When the infrared sensor 6 detects infrared rays, it is determined that the terminal device body 1 is being carried, When the infrared ray is not detected, it is determined that the terminal device body 1 is not carried. A detection unit (not shown) of the infrared sensor 6 is directed to the user.
[0022]
Further, a speaker 14 controlled by the central control circuit 3 is built in the terminal device main body 1, and for example, a voice received by the mobile phone 2 can be output from the speaker 14. ing. Note that a speaker built in the mobile phone 2 in advance may be used instead of the speaker 14.
[0023]
Further, a GPS (global positioning system) device 7 is connected to the terminal device body 1, and the current position measured by the GPS device 7 is sent to the central control circuit 3. ing. As the GPS device 7, for example, a GPS device 7 that can be easily carried, such as a GPS device 7 built in a wristwatch or a portable GPS device 7, can be considered. The GPS device 7 may be built in the terminal device main body 1.
[0024]
The terminal device body 1 is connected to a pulsometer 8, a blood oxygen concentration meter 9, and a sphygmomanometer 10 as human body function measuring instruments for acquiring human body function information. The measurement data from the total 8, the blood oximeter 9, and the sphygmomanometer 10 are sent to the central control circuit 3. As the pulsometer 8 and the blood oximeter 9, for example, there is a measuring instrument of a type that is mounted on the earlobe of a human body and measures the pulse and blood oxygen concentration from the earlobe. The sphygmomanometer 10 is provided on the wrist. There is a measuring instrument of the type that wraps and wears and measures blood pressure from this wrist. The human body function measuring device may be a device that can be easily mounted on such a human body and can measure various human body functions. Other human physical performance measuring devices include electrocardiogram measuring devices or atrial fibrillation measuring devices, cardiac pacemaker management devices, electroencephalogram measuring devices, body temperature measuring devices, and other medical functions and medical data measuring devices.
[0025]
The mobile phone 2 is provided with an input device 12 such as a liquid crystal display device 11 for displaying predetermined information and operation buttons for performing various operations. The input device 12 is pushed. By operating, it is possible to perform a predetermined input operation on the terminal device body 1 while visually recognizing the liquid crystal display device 11. Further, an external input device (not shown) such as a computer can be connected to the terminal device body 1, and an input operation can also be performed from this external input device. . In addition, you may make it provide this input device in the terminal device main body 1. FIG.
[0026]
Then, from the external input device or the input device 12 of the mobile phone 2, for example, the user's name, address, age, gender, home contact information, family contact information, work information, etc. Blood type, normal blood pressure and its maximum / minimum range, pulse rate / min and its maximum / minimum range, blood oxygen concentration and its maximum / minimum range, presence / absence of visual or hearing impairment, user's prevalence and degree of symptoms It is possible to input medical information such as a history of illness, a family hospital, a doctor in charge, etc., and these personal information and medical information are recorded in the memory 4. Note that the maximum and minimum ranges for the normal blood pressure, the number of pulses / minute, and the like are different values depending on the user, and thus the allowable range for the user is set.
[0027]
The memory 4 is configured to record a preset telephone number of the emergency call destination from the mobile phone 2. In this embodiment, this emergency contact address is specified as a department in charge. The security company is 15. The security company 15 is provided with a computer 16 for displaying information sent from the mobile phone 2 by the automatic call when the mobile phone 2 makes an automatic call. In addition, the department in charge may be a police station, fire station, hospital, etc., or a government office having jurisdiction when managed by a national or local government. Further, there may be a plurality of telephone numbers of the emergency call destination, and the emergency call destination can be automatically selected based on information from the sensor. For example, when there is an abnormality in medical information, a hospital telephone number is selected as an emergency destination, and when there is an abnormality in acceleration change data from the acceleration sensor 5, police and fire departments are selected as emergency destinations. It can be controlled to select a telephone number.
[0028]
In the above-described embodiment, an example in which the mobile phone 2 is used as a communication device has been described. However, the present invention is not limited to this, but a PHS (Personal Handyphone System), an amateur radio transceiver, a special radio Wireless communication such as business radio, military radio, CB radio, etc. using existing communication band, existing communication equipment such as mobile phone 2 using satellite communication, or dedicated machine having only the function of the present invention. Any device that can perform transmission and reception may be used. Also, for example, when the place of use is limited to indoors such as a home, such as a person who has received certification for long-term care or a person undergoing home care, an infrared communication device, optical You may make it use the apparatus which can perform transmission and reception of a signal with wires, such as a fiber communication apparatus and a laser beam communication apparatus.
[0029]
  Also, to judge the surrounding conditionsAs one or more sensors for acquiring dataAn oxygen sensor for measuring the oxygen concentration of the atmosphere in which the terminal device body 1 is placed, a carbon monoxide sensor for measuring the carbon monoxide concentration in the atmosphere in which the terminal device body 1 is placed, and the terminal device body 1 are A carbon dioxide sensor for measuring the carbon dioxide concentration in the placed atmosphere, a temperature sensor for measuring the temperature of the atmosphere in which the terminal device body 1 is placed, and the humidity of the atmosphere in which the terminal device body 1 is placed are measured. Various sensors such as a humidity sensor for measuring the atmospheric pressure in the atmosphere in which the terminal device body 1 is placed may be provided.
[0030]
Next, the operation of this embodiment will be described.
[0031]
First, the user wears and operates the pulsometer 8, blood oximeter 9, and sphygmomanometer 10 which are human body function measuring devices, and the GPS device 7 is operated. When the mobile phone 2 and the terminal device main body 1 are operated in this state, a control signal for acquiring various information is output from the central control circuit 3, and the central control circuit 3 receives the current position data from the GPS device 7. Then, the acceleration change data from the acceleration sensor 5, the measurement data from the pulse meter 8, the sphygmomanometer 10, and the blood oximeter 9 are started.
[0032]
Each acquired data is recorded in the memory 4, and at the same time, the acceleration change data is compared with a preset value, and the pulse data, blood pressure data, and blood oxygen concentration data are preset maximum and minimum values. Each is determined whether it is within range. In addition, the measurement data from each human body function measuring device may be acquired continuously, or may be acquired intermittently at regular intervals, for example.
[0033]
When the acceleration change data from the acceleration sensor 5 exceeds a preset value, the central control circuit 3 determines that the user is in an abnormal state. For example, when a car collides with another car while driving the car, the acceleration that is instantaneously applied to the user even though there is a seat belt is extremely large, and thus exceeds the set value of acceleration. Further, for example, even when the vehicle is hit by a car while walking or riding a bicycle, the acceleration applied to the user is extremely large, and is measured by the acceleration sensor 5 when the user falls to the ground. Since the height position also changes greatly, the acceleration set value will be exceeded.
[0034]
Immediately thereafter, an automatic transmission control signal is output from the central control circuit 3 to the mobile phone 2, and the mobile phone 2 performs automatic transmission to the security company 15. Then, after the outgoing call from the mobile phone 2 is received by the security company and the call can be made, the current time information, the position information by the GPS device 7 and the measurement data by each human body function measuring device are guarded via the modem circuit 13. Send to company 15. Furthermore, in this embodiment, after transmitting all the measurement data, a transmission completion signal is transmitted to the security company 15.
[0035]
At this time, since the infrared sensor 6 is provided in this embodiment, when the infrared sensor 6 detects infrared rays, it is determined that the terminal device body 1 is worn by the user, Automatic transmission control by the telephone 2 is performed. On the other hand, for example, when only the terminal device body 1 falls, the measured acceleration by the acceleration sensor 5 may exceed the set value, but since the infrared sensor 6 does not detect infrared rays, the user is abnormal. No automatic transmission control is performed without judgment.
[0036]
Then, when this automatic transmission information is received by the security company 15, the position information, acceleration measurement value, current blood pressure, pulse, blood in the GPS device 7 automatically transmitted from the mobile phone 2 to the computer 16 of the security company 15 Oxygen concentration data is displayed, respectively, whereby the manager of the security company 15 can instantly grasp the user's condition. In this case, for example, if the position information by the GPS device 7 is displayed in conjunction with the map, the position information can be easily visually recognized.
[0037]
On the other hand, when the security company receives various data and receives a transmission completion signal from the mobile phone 2, it transmits a data reception completion signal to the mobile phone 2. When the mobile phone 2 receives the data reception completion signal, the central control circuit 3 controls the mobile phone 2 to output the sound received by the mobile phone 2 from the speaker 14 and makes a call in a so-called hands-free call state. Be able to. As a result, the user can talk directly with the manager of the security company 15 without holding the mobile phone 2, and the current status of the user can be confirmed by calling.
[0038]
If the user is a language handicapped person or a hearing handicapped person, the administrator sends a message such as text information to the mobile phone 2 and displays the message on the liquid crystal display device 11 of the mobile phone 2. In response to this, the user operates the input device 12 to transmit the contents to the security company 15, thereby enabling communication between the user and the administrator.
[0039]
Then, the manager contacts the fire department to handle an ambulance dispatch request or police to handle an accident dispatch request, etc., according to the user's condition obtained through a call with the user. In addition, when the user is unconscious, such as when the user is unable to talk or communicate, the administrator immediately contacts the fire department to request an ambulance and contact the police. And make an accident dispatch request.
[0040]
In the above embodiment, when the acceleration change data from the acceleration sensor 5 exceeds a preset value, the central control circuit 3 determines that the user is in an abnormal state, and the mobile phone 2 Although automatic transmission control is performed, even if the acceleration change data from the acceleration sensor 5 does not exceed the set value, the measurement data from various human body function measuring instruments exceeds the maximum / minimum range. The automatic transmission control can also be performed by the central control circuit 3.
[0041]
Therefore, in this embodiment, when an abnormal state is detected by the acceleration sensor 5 or the human body function measuring device, the mobile phone 2 is automatically transmitted, the current position by the GPS device 7, the acceleration change data by the acceleration sensor 5, Since the measurement data from each human body function measuring instrument is automatically transmitted to the management company, it is possible to accurately grasp the location and state where the abnormality has occurred in the user, and to perform prompt relief activities, accident handling, etc. Can be done.
[0042]
  The terminal deviceBody 1The person who is in an environment where it is difficult to deal with alone when something happens, such as a person who needs care, a person who is taking care of a sick home, a so-called bedridden elderly person, an elderly person living alone, etc. In this case, the terminal device main body 1 may be connected to a normal wired telephone at home. Furthermore, for a user whose location is unknown, such as a so-called old man, it is possible to connect or mount only the GPS device 7 to the terminal device body 1 so that the current position can always be confirmed. This can also be applied to pets such as dogs and cats.
[0043]
FIG. 2 shows a second embodiment of the emergency call system according to the present invention. The same parts as those in FIG.
[0044]
In the present embodiment, the terminal device main body 1 in which the central control circuit 3, the memory 4 and the acceleration sensor 5 similar to those of the above-described embodiment are installed is mounted on an automobile. Further, in the present embodiment, the acceleration sensor 5 provided in the terminal device main body 1 can measure acceleration and gravitational acceleration as in the above-described embodiment, and measures the acceleration and gravitational acceleration. By doing so, it is possible to detect a three-dimensional movement state of the vehicle, for example, a state where an excessive impact is applied to the vehicle, a state where the vehicle rolls over, and the like. Furthermore, in the present embodiment, the terminal device main body 1 is provided with a flame sensor 17 that detects whether or not the automobile has burned up.
[0045]
Further, a GPS device 7 is connected to the terminal device body 1, and the current position measured by the GPS device 7 is sent to the central control circuit 3. In recent years, an automobile is often equipped with a GPS device 7 called a car navigation system. In the present embodiment, the GPS device 7 may be used as it is.
[0046]
Similarly to the embodiment, the mobile phone 2 is provided with a liquid crystal display device 11 and an input device 12, respectively. By pressing the input device 12, the liquid crystal display device 11 is visually recognized. However, a predetermined input operation to the terminal device body 1 can be performed. Further, the GPS device 7 called the car navigation system is equipped with a display device for displaying the current position. By using this display device, a predetermined input operation to the terminal device body 1 is performed. You may be able to do that.
[0047]
Then, by the input operation, personal information such as a user's car registration number, registrant, car type, manufacturer, car body color, and emergency destination are input and recorded in the memory 4. Is the same as in the above embodiment.
[0048]
In the present embodiment, a human body function measuring instrument for acquiring human body function information is not provided, but it is needless to say that a human body function measuring instrument for wearing when riding a car may be provided.
[0049]
Next, the operation of this embodiment will be described.
[0050]
First, when the user starts the automobile engine to operate the GPS device 7 and operates the mobile phone 2 and the terminal device main body 1, a control signal for acquiring various information is output from the central control circuit 3. The central control circuit 3 starts to acquire current position data from the GPS device 7, acceleration change data from the acceleration sensor 5, and flame data from the flame sensor 17, respectively.
[0051]
Each acquired data is recorded in the memory 4, and at the same time, the acceleration change data is compared with a preset value to determine whether or not the flame data has detected a flame.
[0052]
When the acceleration change data from the acceleration sensor 5 exceeds a preset value, the central control circuit 3 applies a large impact to the automobile, such as when the automobile collides, and the automobile is abnormal. Judge that it is in a state.
[0053]
Immediately, the central control circuit 3 automatically controls the mobile phone 2 to automatically transmit it to the security company 15, and after the call becomes possible, the current time information, the position information by the GPS device 7, the flame sensor The presence / absence of flame by 17 is transmitted to the security company 15, and when all data is transmitted, a transmission completion signal is transmitted.
[0054]
Then, when this automatic transmission information is received by the security company 15, the position information, acceleration measurement value, and presence / absence of the flame by the GPS device 7 automatically transmitted from the mobile phone 2 are displayed on the computer 16 of the security company 15, respectively. .
[0055]
On the other hand, when the mobile phone 2 receives the data reception completion signal from the security company, the central control circuit 3 controls the mobile phone 2 to output the sound received by the mobile phone 2 from the speaker 14, so-called hands-free. A call can be made in a call state. As a result, the user can talk directly with the manager of the security company 15 without holding the mobile phone 2, and the current status of the user can be confirmed by calling. When the user is a language handicapped person or a hearing handicapped person, the communication with the administrator can be performed by operating the input device 12 or the like as in the above embodiment.
[0056]
Then, the manager contacts the fire department to handle an ambulance dispatch request or police to handle an accident dispatch request, etc., according to the user's condition obtained through a call with the user. In addition, when the user is unconscious, such as when the user is unable to talk or communicate, the administrator immediately contacts the fire department to request an ambulance and contact the police. And make an accident dispatch request.
[0057]
Moreover, since the position information by the GPS device 7, the acceleration change by the acceleration sensor 5 and the data such as the deceleration G can be acquired, it becomes powerful information in elucidating the cause of the accident, and the cause elucidation can be performed quickly and easily. Can be done.
[0058]
Therefore, in this embodiment, when an abnormal state is detected by the acceleration sensor 5 or the flame sensor 17, the automatic transmission control of the mobile phone 2 is performed, the current position by the GPS device 7, the acceleration change data by the acceleration sensor 5, the flame Since the presence or absence of flames by the sensor 17 is automatically transmitted to the management company, it is possible to accurately grasp the position and state where the abnormality has occurred in the vehicle, and to perform quick relief activities, accident handling, etc. it can.
[0059]
Although the embodiment in which the present invention is applied to an automobile has been described, it can also be applied to a motorcycle. When applied to a motorcycle, the terminal device body 1 is operated while the motorcycle is parked, and when the acceleration sensor 5 undergoes a change in acceleration, such as moving the vehicle body, an operation such as sounding a horn is performed. Thus, the terminal device body 1 can also function as an anti-theft device.
[0060]
Further, the present invention can be applied to a ship. In this case, it is only necessary to detect the inclination of the ship as well as the impact of the collision between the ships and the grounding by the acceleration sensor 5, and in this case, as a communication device, a ship radio or satellite communication may be used. What is necessary is just to use the mobile phone 2 etc. which utilized. And when a situation such as capsizing and sinking occurs in the ship, automatic transmission control can be performed, and thereby the position of the accident can be accurately grasped based on the position information by the GPS device 7, and promptly Rescue and search activities can be conducted.
[0061]
Furthermore, the present invention can be applied to an aircraft. In this case, automatic transmission control can be performed by detecting a change in acceleration caused by, for example, a sudden drop in flight altitude by the acceleration sensor 5. Thereby, the absolute position and altitude can be confirmed based on the position information by the GPS device 7, for example, the predicted crash position, or the crash position can be surely grasped in the case of actual crash. Can conduct various rescue and search activities. In the case of an aircraft, it can be linked to various measuring instruments such as a route meter and an altimeter that are installed in advance.
[0062]
  FIG. 3 uses the terminal device body shown in FIG.Reference formWhich showsReference form of the present inventionHas an information management center 20 as a responsible department. The information management center 20 can always transmit information to a medical institution such as a hospital, or a communication institution 21 such as a fire department or a police station.
[0063]
The information management center 20 is provided with a server 22 managed by a system administrator. The server 22 includes a computing device, an input device, an output device, and a storage device (all not shown). . The server 22 has a function of transmitting / receiving information to / from the terminal device body 1 and can perform data management, data recording, data display, and the like of information transmitted from the terminal device body 1. It has become. The computing device is configured by, for example, a workstation, a personal computer, and the like, and the input device is configured by a device for an operator to input information, such as a keyboard and a mouse. The output device is configured by a device that displays various information on a screen or a recording medium, such as a CRT display, a liquid crystal display, or a printer device. The storage device is, for example, a magnetic disk, an optical disk, or a magneto-optical device. It is configured by a device that stores a program executed by a computing device and a large amount of data files such as a disk and a semiconductor memory.
[0064]
  The storage device of the server 22 has thisReference formPersonal name, address, contact information, password, user blood type, normal blood pressure and its maximum / minimum range, pulse rate / minute and its maximum / minimum range, blood oxygen concentration and its maximum / minimum range Personal information database 23 for storing personal information such as presence / absence of visual impairment and hearing impairment, degree of illness and symptoms of user, history of illness, medical information of hospital, doctor in charge, etc., and terminal A measurement information database 24 that stores measurement information periodically transmitted from the apparatus main body 1 for each user is stored. Each of these databases 23 and 24 is subjected to processing such as reading or writing by operating a computing device in accordance with a data management program or search program stored in advance in a storage device.
[0065]
Next, the operation of this embodiment will be described.
[0066]
First, the user registers as a member in the information management center 20. Examples of users include patients with chronic illnesses, patients who do not have illness, but patient reserves, healthy people who care about health, elderly people, nursing home patients, physically handicapped people, etc. as home users.
[0067]
  When the member registration is completed, the terminal device body 1 and various human body function measuring instruments 25 are sold to the user.SellOr lend. The human body function measuring device 25 may be selected by an administrator or user of the information management center according to the health state of the user, the part of the human body to be careful about, the chronic disease, and the like. For a user who uses a pacemaker, it is desirable that the mobile phone 2 has a structure that does not emit electromagnetic waves from the mobile phone 2.
[0068]
The user attaches and operates the human body function measuring instrument 25 and operates the GPS device 7. In this state, when the cellular phone 2 and the terminal device body 1 are operated, a control signal for acquiring various information is output from the central control circuit 3 as in the first embodiment. The current position data from the GPS device 7, the acceleration change data from the acceleration sensor 5, and the measurement data from the human body function measuring instrument 25 are started to be acquired.
[0069]
Then, measurement data is acquired by the terminal device body 1. This measurement data may be acquired once a day, or may be acquired a plurality of times such as morning, noon, night, or every several hours of the day. The measurement data is automatically transmitted to the information management center 20 by the mobile phone 2 together with personal information such as a user password. The measurement data may be transmitted immediately when the measurement data is acquired. Alternatively, the measurement data may be temporarily stored in the memory 4 of the terminal device body 1 and the measurement data for one day may be transmitted. You may make it transmit collectively. Further, this measurement data may be transmitted manually.
[0070]
When the measurement data is sent to the information management center 20, the server 22 verifies the password of the user. If the user can be recognized by the password verification, the measurement data is measured for each corresponding user. Record in database 24. Then, for example, total measurement data that summarizes necessary measurement data among measurement data recorded in the measurement information database 24 for each user and every fixed period such as every week or every month is created. Aggregated measurement data is sent to the user by e-mail via the mobile phone 2 or the Internet, or printed on paper by an output device and mailed. Thereby, the user can recognize the health condition for every fixed period, and if necessary, it can prevent the onset of disease by going to the hospital or paying attention to daily life. When sending this measurement data to the user, for example, if there is abnormal measurement data such as high blood pressure, send a comment that there is an abnormality or a point to be careful about. Also good.
[0071]
In addition, the emergency call system is the same as that of the above embodiment, but in this embodiment, the mobile phone 2 is notified that there is an abnormality due to the user getting sick and falling down or having an accident. In this case, when contacting a hospital, fire department or the like, user measurement data stored in the measurement information database 24 is also transmitted together. Thereby, in a hospital, a user's recent health condition can be immediately grasped | ascertained and it can utilize effectively for subsequent treatment.
[0072]
  Furthermore, when a user has a disease, it is possible to always monitor abnormality of specific measurement data by registering in advance measurement corresponding to the disease. For example, in the case of a patient with hypertension, blood pressure measurement is performed at regular intervals, and when the blood pressure measurement value exceeds a predetermined value, the terminal device body 1 indicates that the blood pressure measurement value is higher than the reference value. To encourage users to rest,OnsetCan be prevented. In this case, the blood pressure is likely to increase due to slight exercise or the like. Therefore, for example, the blood pressure is measured every 30 minutes or every hour, and when the blood pressure is high for a certain period of time, attention should be given.
[0073]
  Also thisReference form of the present inventionCan also be used when the user is at home, such as a person who needs care, a person who is taking care of a sick home, a disabled person, a so-called bedridden elderly person, an elderly person living alone, and the like. In such a case, the GPS device 7 may not be provided in the terminal device body 1, and a normal wired phone may be used instead of the mobile phone 2. Furthermore, if the terminal device main body 1 is also attached to each hospitalized patient, the state of each inpatient can be centrally managed in one place such as a nurse center.
[0074]
Furthermore, not only the measurement by the human body function measuring instrument 25 but also, for example, the operating status of the pacemaker and the operating status of the care device are automatically checked by the terminal device main body 1 and if there is an abnormality, the information management center 20 notifies that You may make it transmit automatically.
[0075]
Therefore, in the present embodiment, measurement data obtained by the human body function measuring instrument 25 is acquired at regular intervals, and this measurement data is automatically transmitted from the terminal device main body 1 to the information management center 20 via the mobile phone 2 for information management. Since the measurement data is accumulated by the center 20 and the total measurement data is sent to the user at regular intervals, the user can easily recognize the health condition at regular intervals, and if necessary, By going to the hospital and paying attention to daily life, it is possible to prevent the onset of illness.
[0076]
Further, the present invention is not limited to the above-described embodiments, and various modifications can be made as necessary.
[0077]
【The invention's effect】
As described above, the emergency call system according to the first aspect of the present invention performs automatic transmission control of communication devices when the acceleration sensor detects an abnormal state by the central control circuit, and controls the current position and acceleration by the GPS device. Acceleration change data from the sensor and various types of user information are automatically sent to the department in charge, so it is possible to accurately and quickly ascertain the location and status of the user's anomaly and prompt relief activities Accident handling can be performed.
[0078]
Further, the invention according to claim 2 is provided with a human body function measuring device, and even when an abnormality is detected by this human body function measuring device, automatic transmission control of the communication device is performed, the current position by the GPS device, the acceleration sensor Acceleration change data and various types of user information are automatically sent to the department in charge, so even if a human body function abnormality occurs rather than a traffic accident etc., the position and state where the abnormality has occurred is accurate. It is possible to grasp quickly and quickly, and to perform a quick rescue operation.
[0079]
Moreover, since the invention described in claim 3 is provided with an infrared sensor and detects a weak infrared ray emitted from the user by the infrared sensor, when the infrared sensor is detecting the infrared ray, When it is determined that the terminal device body is attached to the user and automatic transmission control is performed by the communication device and infrared rays are not detected by the infrared sensor, the terminal device body is not attached to the user. Judgment can be made so that automatic transmission control is not performed.
[0080]
  Also,ManThe measurement data from the body function measuring instrument is acquired at regular intervals, and this measurement data is automatically transmitted from the terminal device body to the department in charge via the mobile phone. So that users can easily recognize their health status for a certain period of time, and if necessary, by going to the hospital or paying attention to their daily lives, It is possible to prevent the occurrence of disease.
[0081]
  Also,DuringWhen the acceleration sensor detects an abnormal condition by the central control circuit, the current position by the GPS device and the acceleration change data by the acceleration sensor are automatically transmitted to the department in charge together with the user's measurement data. It is possible to accurately and promptly grasp the position and state where the trouble has occurred, and it is possible to perform quick relief activities, accident processing, and the like.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an embodiment of an emergency call system according to the present invention.
FIG. 2 is a block diagram showing another embodiment of the emergency call system according to the present invention.
FIG. 3Reference formBlock diagram showing

Claims (3)

A terminal device body connected to communication equipment is provided,
Inside the terminal body, and a central control circuit for controlling communications with one or a plurality of data processing and communications equipment, a memory for placing that records various information of a user who uses the terminal device main body An acceleration sensor that measures acceleration and gravitational acceleration of the terminal device body and sends the acceleration to the central control circuit, and a GPS device that sends current position data of the terminal device body to the central control circuit ,
At least one of one or more sensors for acquiring data for determining the ambient state around the terminal device body, and a flame sensor for detecting whether or not the periphery of the terminal device body is in flames Arrange one,
Connected to the terminal device main body is a human body function measuring device that is attached to the user and acquires the human body function information of the user and sends it to the central control circuit,
When the acceleration sensor detects acceleration change data exceeding a preset value by the central control circuit or when it is detected that the measurement data by the human body function measuring instrument is out of the preset maximum / minimum range In addition,
Depending on whether an abnormal state is detected by the acceleration sensor or an abnormal state is detected by the human body function measuring device, a transmission destination is automatically selected to perform automatic transmission control of the communication device,
The current position in the GPS device, wherein the acceleration change data by the acceleration sensor, before Symbol user of various information and the one or a plurality of the terminals is detected by the sensor device data and / or the terminal device of the surrounding atmosphere of the body An emergency call system characterized by automatically transmitting whether or not the surrounding area of the main body is in flames to an automatically selected destination . An infrared sensor is disposed in the terminal device body, and the infrared sensor detects weak infrared rays emitted from the user ,
When the infrared sensor detects infrared rays, it is determined that the terminal device body is worn by the user, and automatic transmission control by the communication device is performed from the central control circuit,
The automatic transmission control by the communication device is not performed from the central control circuit without determining that the user has an abnormality when the infrared sensor does not detect infrared rays. emergency call system according to 1. One or more sensors for obtaining data for judging the state of the atmosphere around the terminal device body are an oxygen sensor for measuring the oxygen concentration of the atmosphere, and the carbon monoxide concentration of the atmosphere is measured. A carbon monoxide sensor that measures the carbon dioxide concentration of the atmosphere, a temperature sensor that measures the temperature of the atmosphere, a humidity sensor that measures the humidity of the atmosphere, and a pressure sensor that measures the atmospheric pressure of the atmosphere 3. The emergency call system according to claim 1, wherein the emergency call system is one or a plurality of sensors.

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