JP2013092512A - Biological information detection system built-in lamp by microwave sensor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a lamp for luminaire that detects presence of a person and biological information by a microwave sensor, and generates an alarm with sound and light when detecting predetermined biological information only by replacing an incandescent lamp of the luminaire.SOLUTION: A lamp (1) with means for attachment to a luminaire includes a microwave sensor (2) and notification means (3) of generating an alarm in one body. The microwave sensor (2) detects a person being present, and also detect and monitors a body motion, breathing, and heart beats, and the notification means generates the alarm if the breathing or/and heart beats are not detected for a predetermined time to take lifesaving measures in an early stage.

Description

  The present invention relates to a lamp of a lighting fixture having a built-in system for detecting biological information using a microwave sensor, and in particular, detecting the presence of a human body and biological information using a microwave sensor to detect certain biological information. The present invention relates to a lamp of a luminaire that emits an alarm by light.

  In recent years, there has been an increase in the sudden death of middle-aged and elderly people bathing in their homes. Many of the causes are cardiovascular diseases such as myocardial infarction, and cerebrovascular diseases such as intracerebral hemorrhage and subarachnoid hemorrhage. There are also cases of consciousness disturbance due to a decrease in blood pressure, and face falling into the bathtub water by falling asleep and drowning as it is. In many cases, family members are suspicious that they have not left the bathroom indefinitely or that they are quiet and do not make noises. There is a high possibility of withdrawal, but if time has passed, it is often too late.

  In addition, the sudden death of the guests is also increasing in the bathrooms of accommodation facilities such as business hotels. In the case of a twin room, the guest may notice abnormally, but in the case of staying alone in a single room, even if the guest suddenly dies, he will not notice until the check-out time the next morning. The first time you notice an anomaly, it will not appear at the front even after a significant amount of checkout time. In such a case, since the time has passed, it has often already died and a lot of damage is caused to the business hotel, such as the room being unavailable for a while due to various processes.

  Therefore, various systems using microwave sensors have been invented in order to prevent such accidents. The microwave sensor can detect the moving state of the object by transmitting the microwave toward the space and receiving the reflected wave from the object. In addition, since microwaves can penetrate resin, ceramic, etc., it is not necessary to install it inside the bathroom, so it can be installed behind the ceiling or behind the wall. In addition, special waterproofing treatment is unnecessary as in the case of using other sensors such as an infrared sensor.

  For example, “Bathroom System” in Japanese Patent Application Laid-Open No. 2002-117466 (Patent Document 1) is a system that prevents an accident of a person who has lost consciousness during bathing, and is described in paragraphs 0029 to 0034 of the publication. As shown, the infrared sensor unit provided at the entrance of the bathroom detects the user's entrance passage, the microwave sensor provided on the top surface of the resin ceiling detects the user's body movement in the bathroom, If the user's body movement is not detected for a predetermined time or more, it is judged that the user has stopped moving in the bathroom and the buzzer installed in the bathroom is sounded to wake the user It is what.

  In addition, a “microwave-based human body detection device” disclosed in Japanese Patent Laid-Open No. 2002-71825 (Patent Document 2) uses a microwave sensor to detect the presence of a human body and biological information. The biological information of the human body is respiration and heartbeat, and detects whether or not the person is breathing by detecting the swelling of the chest due to breathing or heartbeat using a microwave sensor, and whether or not there is heartbeat. Microwave sensors are incorporated in system kitchens, washstands, toilets, baths, showers, etc., and detect human presence and biological information in daily life scenes. Paragraph No. 0014 of the publication describes that a microwave sensor is incorporated in the lining fixtures or in the interior of the washstand. In this document, only detection of the presence of a human body and biological information with a microwave sensor is described, and there is no specific explanation about the utilization method. However, in view of the technique of Patent Document 1, during bathing and other It can be used to monitor physical condition and prevent accidents in daily life.

  Further, “bulb-type LED lighting fixture with a built-in Doppler sensor” disclosed in JP 2011-34938 A (Patent Document 3) automatically detects the presence of a human body by incorporating a microwave sensor in a bulb-type LED lighting fixture. It is a lighting fixture that turns on and off the lighting fixture, and has a dome cover made of a translucent material at the top of the outer case, and a base that can be attached to the socket of the bulb at the bottom of the outer case. A light fixture-shaped luminaire main body having an LED inside the luminaire main body and a square opening at the center, and microwaves are transmitted and received below the alumina substrate. A module board that includes a Doppler module and includes a time adjustment unit and a sensitivity volume for controlling the lighting of the LED; and Dynamic voltage is constructed by comprising a AC-DC unit for supplying a. As a result, simply replacing the incandescent light bulb used in the existing incandescent lamp luminaire makes it possible to easily detect the human body and turn on / off the luminaire, eliminating the troublesome operation of the switch and turning it off. It prevents unnecessary lighting due to forgetting and enables energy saving and electricity saving. Microwaves emitted from the Doppler module reliably detect and detect the human body even if the incandescent light bulb is covered with a glass or resin cover or shade with an existing incandescent light fixture. LED lighting control can be performed. This makes it possible to install a wide range of lighting fixtures easily by simply removing the covers and shades of existing lighting fixtures and replacing them with incandescent light bulbs, regardless of the type of lighting fixtures such as ceiling lights, brackets, bathroom lights, toilet lights, and stands. It is possible to do.

  JP 2002-117466 A   JP 2002-71825 A   JP 2011-34938 A

  The “bathroom system” disclosed in Patent Document 1 requires a system to be installed in the bathroom, and requires a power supply and a wiring work for each sensor considering that it is a place where water is used. It is difficult for users to install it by themselves, and it is difficult to spread from the viewpoint of cost. Also, because it is a system that awakens the user by sounding a buzzer, it is not possible to expect awakening in the state of consciousness loss due to some seizure, and it is too late without noticing even if there is a family in a remote place in the residence There is a risk of becoming. Furthermore, if it is installed in an accommodation facility such as a business hotel, it is necessary to install it in all rooms, so the cost burden is great.

The “microwave-based human body detection device” disclosed in Patent Document 2 uses the characteristics of a microwave sensor to detect biological information such as the presence of the human body, breathing, and heartbeat. It only shows examples of incorporation in daily life scenes such as system kitchens and washstands.

  Since the "bulb-type LED lighting fixture with a built-in Doppler sensor" shown in Patent Document 3 uses a microwave Doppler module, the bulb is covered with a glass or resin cover or shade with an existing incandescent lighting fixture. Even if it is such a thing, a microwave can transmit reliably and a human body can be detected and LED lighting control can be performed. Whether it is a ceiling light, bracket, bathroom light, toilet light, stand, etc. However, it has excellent characteristics such as energy saving, but it only performs LED lighting control.

  Therefore, in order to solve the above-mentioned problems, the present invention detects the presence of a human body and biological information with a microwave sensor by simply removing a cover or shade of an existing lighting fixture and replacing it with an incandescent lamp bulb. An object of the present invention is to provide a lamp of a lighting fixture that emits an alarm by sound or light when biometric information is detected.

  According to claim 1 of the present invention, the above problem is solved by integrally providing a microwave sensor and a notification means for generating an alarm in a lamp provided with a mounting means for a lighting fixture.

  According to claim 2 of the present invention, a lamp having a means for mounting on a lighting fixture is integrally provided with a microwave sensor, a notification means for generating an alarm, and a communication means for transmitting an alarm signal. Is solved.

  According to the third aspect of the present invention, the communication means for transmitting an alarm signal is solved by being either power line carrier communication (PLC) or wireless communication.

  According to claim 4 of the present invention, a lamp provided with means for mounting on a lighting fixture is integrally provided with a microwave sensor and an alarm means for issuing an alarm, and the presence of a human body is detected by the microwave sensor. In addition, the body motion, respiration, and heartbeat are detected and monitored, and when either or both of respiration and heartbeat are not detected for a predetermined time, an alarm is issued by the notification means.

  According to claim 5 of the present invention, the lamp is provided with a means for mounting on a lighting fixture, and is integrally provided with a microwave sensor, a notification means for generating an alarm, and a communication means for transmitting an alarm signal. The presence of the human body is detected with a microwave sensor, and body motion, respiration, and heartbeat are detected and monitored. When either or both of respiration and heartbeat are not detected for a predetermined time, an alarm is issued by the notification means. This is solved by issuing an alarm with a receiving means for receiving an alarm signal provided outside the bathroom by a communication means for transmitting an alarm signal.

  According to the first aspect of the present invention, the lamp provided with the means for attaching to the lighting fixture is integrally provided with the microwave sensor and the alarm means for issuing an alarm. It can be easily installed just by replacing it with a light bulb. When installed in the bathroom, the human body in the bathroom is detected and lit, and body motion, breathing, and heartbeat are detected and monitored, and when a user's change is detected according to the detection status, a notification means such as a buzzer is used. By issuing an alarm, such as flashing the sound or the lamp itself, even if the user goes to sleep in the bathtub, the alarm awakens, preventing accidents such as the face entering the bathtub and drowning as it is It becomes possible. Furthermore, if the user does not wake up due to the alarm, that is, loses consciousness due to an attack of some kind of disease, the family can be aware of an abnormality by the alarm, so it can be discovered early and lifesaving treatment can be performed, so the worst situation Can also be avoided. In addition, since the human body is detected and automatically turned on and off, unnecessary lighting due to forgetting to turn off is suppressed, and nowadays when power shortage is screamed, energy saving and reduction of power consumption have been realized.

  According to the second aspect of the present invention, since the lamp provided with the means for mounting on the lighting fixture is integrally provided with the microwave sensor, the alarm means for issuing an alarm, and the communication means for transmitting an alarm signal, When the wave sensor detects an abnormality in body motion, breathing, or heartbeat, the alarm means gives an alarm, and the communication means that transmits an alarm signal can notify the outside of the abnormality, so that the user can make an attack of any disease. Even if you lose consciousness, you can notify the front desk of accommodations such as family and business hotels in a distant place in your residence, so that you can detect them early and take life-saving measures, avoiding the worst situation It becomes possible.

  According to claim 3 of the present invention, the communication means for transmitting the alarm signal is either power line carrier communication (PLC) or wireless communication. Therefore, when the communication means is power line carrier communication (PLC), By connecting a receiving device corresponding to the AC 100V outlet in the house or the accommodation facility, it is possible to notify the family at a remote place in the residence or the front of the accommodation facility such as a business hotel. In addition, when the communication means is wireless communication, for example, if it is an FM transmitter of weak radio waves, if an alarm is received by setting the FM radio to a predetermined frequency without preparing a dedicated receiver, It is possible to inform the family in the remote place of the incident.

  According to claim 4 of the present invention, the lamp provided with the mounting means to the lighting fixture is integrally provided with a microwave sensor and an alarm means for issuing an alarm, and the presence of the human body is detected by the microwave sensor, When body movement, breathing, and heartbeat are detected and monitored, and either or both breathing and heartbeat are not detected for a predetermined time, an alarm is issued by the notification means, so that the user's breathing or heartbeat has stopped. Alarms can be detected early and life-saving treatments can be made by notifying the front of an accommodation facility such as a business hotel or a family at a distant location in the residence, so that the worst situation can be avoided. It becomes possible.

  According to the fifth aspect of the present invention, a lamp provided with means for mounting on a lighting fixture is integrally provided with a microwave sensor, a notification means for generating an alarm, and a communication means for transmitting an alarm signal. In addition to detecting the presence of a human body, the body movement, respiration, and heart rate are detected and monitored. When either or both of respiration and heart rate are not detected for a predetermined time, an alarm is issued by an informing means, and an alarm signal is generated. Since the alarm is issued by the receiving means for receiving the alarm signal provided outside the bathroom by the communication means for transmitting the alarm, the communication means means that the user's breathing and heartbeat have stopped, as well as the alarm for the notification means. It is possible to detect life early and provide lifesaving measures by notifying the front desk of accommodations such as families and business hotels in remote places. Since it is, it is possible to avoid the worst of the situation.

It is a center longitudinal cross-sectional view of the lamp | ramp with a built-in biological information detection system by a microwave sensor. It is a disassembled perspective view of the living body information detection system built-in type lamp by a microwave sensor. It is a wave form diagram of normal living body information detected with a microwave sensor. It is a wave form diagram of abnormal living body information detected with a microwave sensor. It is an operation | movement flowchart of the biological information detection system built-in type | mold lamp by a microwave sensor. It is an operation | movement flowchart of the biological information detection system built-in type | mold lamp by a microwave sensor.

BEST MODE FOR CARRYING OUT THE INVENTION

  A first embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a central longitudinal sectional view of a lamp body (1) (hereinafter referred to as a body (1)) with a built-in biological information detection system using a microwave sensor, and FIG. 2 is an exploded perspective view of the body (1).

  The main body (1) includes an outer case (1a) formed of a resin material such as ABS or a metal material such as aluminum, a dome cover (1b) made of a transparent or translucent translucent resin material such as ABS or polycarbonate, It consists of a base (1c) that can be attached to a socket, which is a means for attaching to a lighting fixture, and is provided with a screw part (1f) provided on the lower edge circumferential part of the dome cover (1b) and an upper edge circle of the outer case (1a). It couple | bonds with the screw part (1f) with which the surrounding part was equipped. The outer case (1a) is coupled with a screw portion (1f) provided on the lower edge circumferential portion of the outer case (1a) and a screw portion (1f) provided on the upper edge circumferential portion of the base (1c). It is configured as a simple light bulb shape. In this embodiment, the attachment means to the lighting fixture is shown by a general swivel base, but the shape of the base is not particularly limited, such as a plug-in base.

  The main body (1) configured as a light bulb shape includes an AC-DC unit (1d), an LED (1e), a microwave sensor (2), a notification means (3), and a control unit (4). It is configured as a lamp with built-in biological information detection system using a microwave sensor. The AC-DC unit (1d) converts the AC 100V power supplied from the base (1c) into a DC power, and the LED (1e), the microwave sensor (2), the notification means (3), and the control unit (4). The drive voltage is output to. The LED (1e) is provided with a plurality of light-emitting portions as lamps having high luminance for illumination. The microwave sensor (2) constantly detects human body movement, respiration, and heartbeat, and includes a microwave circuit including a microwave transmission / reception circuit and a transmission path disposed on a substrate. The notification means (3) issues an alarm such as a sound such as a buzzer or blinking the LED (1e) itself. The control unit (4) uses a general microprocessor including a memory circuit such as an EEPROM, and monitors the body motion, respiration, and heart rate detected by the microwave sensor (2), and the body motion, respiration, heart rate When one or more of the above are not detected for a predetermined time, an alarm signal is issued to the notification means (3).

  The main body (1) configured in this way can be installed very easily just by replacing it with an incandescent light bulb of a lighting fixture, regardless of the location of the bathroom, toilet, living room, bedroom, etc. of a residence or business hotel. Can do. In particular, it is desirable to install in a bathroom or toilet where a change in blood pressure due to a temperature difference or the like makes it easier for some disease to occur.

  The operation will be described assuming that the main body (1) is installed in a bathroom. First, the glass or resin cover or shade of the incandescent lamp illuminator in the bathroom is removed, the incandescent lamp bulb and the main body (1) mounted in advance are replaced and mounted, and the removed cover or shade is mounted. The main body (1) is mounted inside the incandescent lamp luminaire glass or resin cover or shade of the bathroom, but the microwave transmitted and received by the microwave sensor (2) is the glass of the incandescent lamp illuminator in the bathroom. It can be used safely and electrically without having to worry about water drops and moisture in the bathroom. The main body (1) is supplied with power from the socket of the incandescent lamp illuminator, so that the microwave sensor (2) always operates to monitor the presence or absence of the human body, and when the presence of the human body is detected, the control unit ( 4) controls the lighting of the LED (1e). The microwave sensor (2) continuously monitors the body movement, breathing, and heartbeat of the human body in the bathroom.

  3 is a waveform diagram of normal biological information detected by the microwave sensor (2), and FIG. 4 is a waveform diagram of abnormal biological information detected by the microwave sensor (2), both of which are immersed in a bathtub in the bathroom. The body movements, breathing, and heartbeat of the human being The body movement is detected by the slight movement of the body even when the human body is gently immersed in the bathtub. Breathing detects movements of the chest and abdomen, but even if the chest and abdomen are all immersed in the hot water in the bathtub, the hot water level is detected by the breathing. The heart beats through the skin of the human body to detect the heartbeat, but even if the chest is immersed in hot water in the bathtub, the microwave can pass through the hot water and detect the heartbeat of the human body.

  The waveform diagram of the biological information shown in FIG. 3 indicates that the human body is alive normally. On the other hand, the waveform diagram of the biological information shown in FIG. 4 indicates that body movement, breathing, and heartbeat are stopped on the way. Thus, when an abnormal state as shown in FIG. 4 is detected by the microwave sensor (2), the control unit (4) outputs an alarm signal to the notification means (3), and the notification means (3) An alarm is generated by flashing the sound such as the LED (1e) itself. When such an abnormality occurs in the human body, the survival rate changes depending on how early lifesaving treatment is performed. When taking a bath, if you become unconscious due to some illness and your breathing or heartbeat stops, or if you have consciousness disorder due to low blood pressure, or if you fall asleep due to fatigue or drinking, your face may go into the bathtub and drown It is assumed that abnormalities during bathing of the human body can be detected early and lifesaving treatment can be performed.

FIG. 5 is an operation flowchart of the main body (1).
S1 The microwave sensor (2) starts monitoring whether or not a human body exists.
S2 The microwave sensor (2) monitors the presence or absence of a human body.
If no human body is detected, NO is returned to S3. Then, return to S2 and continue monitoring.
If a human body is detected, YES is returned to S4.
S3 Human body is not detected. Return to S2 and continue monitoring.
S4 LED (1e) lighting process.
S5 The microwave sensor (2) monitors the body movement, respiration, and heartbeat of the human body.
If any of body movement, breathing and heartbeat is not detected for a predetermined time, go to S6.
Go to S7 when body movement, breathing, and heartbeat are detected. Then, return to S5 and continue monitoring.
S6 An alarm signal is output from the control unit (4) to the notification means (3).
An alarm is activated by the notification means (3).
S7 LED (1e) lighting process. Returning to S5, monitoring of body movement, respiration, and heart rate continues.

  In the first embodiment configured as described above, the presence of a human body is detected by the microwave sensor (2) and the LED (1e) is turned on, and body movement, breathing, and heartbeat are detected and monitored, When a user's anomaly is detected according to the detection status, the alarm means (3) emits an alarm such as a buzzer sound or blinking the lamp itself, so that it becomes unconscious due to some disease while taking a bath. Even if the heartbeat stops, consciousness disturbance due to decreased blood pressure, or even if the face falls into the bath water due to falling asleep, it will be lifesaving early by recognizing the change quickly by the alarm Since the treatment can be performed, the worst situation can be avoided.

  Further, since the human body is detected and the LED (1e) is automatically turned on and off, unnecessary lighting due to forgetting to turn off is suppressed, and energy saving and reduction of power consumption are realized.

  The second embodiment of the present invention will be described below. In the second embodiment, the communication means (5) is added to the first embodiment. Since the basic configuration is the same as that of the first embodiment, the description related to the communication means (5) will be mainly described. As shown in FIGS. 1 and 2, the main body (1) configured as a light bulb has an AC-DC unit (1d), an LED (1e), a microwave sensor (2), and a notification means (3). And a control unit (4) and a communication means (5), and configured as a lamp with a built-in biological information detection system using a microwave sensor.

  The communication means (5) is either power line carrier communication (PLC) or wireless communication, so that an alarm can be provided even at a place away from the place where the main body (1) is installed in a residence or business hotel. Can receive.

  Power line carrier communication (PLC) is a technology that uses a power line as a communication line. As a communication means (5), a main body (1) equipped with a PLC modem for communication is used as an incandescent lamp luminaire in a residence or a business hotel. Simply replace it with an incandescent light bulb, and it will be connected to the AC100V electrical wiring network in accommodations such as residential buildings and business hotels. It is possible to construct an alarm communication network easily and at low cost by installing a personal computer and a receiving device for receiving alarms. In particular, an accommodation facility such as a business hotel has a plurality of rooms. When constructing a new alarm notification system, each room requires a lot of parts and construction costs, such as sensor installation work and cable laying work. It becomes possible to ensure the safety of customers.

  In addition, in the wireless communication, the main body (1) provided with a transmission circuit for wireless communication in the communication means (5) can be installed in the lighting fixture, and an alarm can be received by a receiving device separately installed at an appropriate place. As long as the wireless communication method is a residence, it is sufficient that wireless communication can be performed in the residence. Therefore, it is preferable to use weak radio waves with emphasis on cost and incorporation into the main body (1). In addition, since it is only necessary to be able to perform wireless communication within a facility if it is an accommodation facility such as a business hotel, it is preferable to use a specific low power radio. According to the provisions of weak radio stations by the Ministry of Internal Affairs and Communications, if the electric field strength at a distance of 3 meters from the radio equipment is lower than a predetermined level, there is no need to obtain a license from the radio station, and 500 meters from the radio equipment. For radio-controlled remote control and wireless microphones that have a field strength of 200μV / m or less and whose frequency is specified by the Ministry of Internal Affairs and Communications notification, it is necessary to obtain a license from the radio station. Since it is not, it can be used easily. In addition, Bluetooth (registered trademark), which is one of the short-range wireless communication technologies used for inter-device connection of about several meters in portable information devices, may be used, and the type of wireless communication depends on the installation location, cost, etc. It may be appropriately selected and used accordingly.

The operation will be described assuming that the main body (1) provided with the communication means (5) is installed in the bathroom. First, the glass or resin cover or shade of the incandescent lamp illuminator in the bathroom is removed, the incandescent lamp bulb and the main body (1) mounted in advance are replaced and mounted, and the removed cover or shade is mounted. The main body (1) is mounted inside the incandescent lamp luminaire glass or resin cover or shade of the bathroom, but the microwave transmitted and received by the microwave sensor (2) is the glass of the incandescent lamp illuminator in the bathroom. It can be used safely and electrically without having to worry about water drops and moisture in the bathroom. The main body (1) is supplied with AC100 from the socket of the incandescent lamp luminaire, so that the microwave sensor (2) always operates to monitor the presence or absence of the human body, and controls when the presence of the human body is detected. The unit (4) controls lighting of the LED (1e). The microwave sensor (2) continuously monitors the body movement, breathing, and heartbeat of the human body in the bathroom.

FIG. 6 is an operation flowchart of the main body (1).
S1 The microwave sensor (2) starts monitoring whether or not a human body exists.
S2 The microwave sensor (2) monitors the presence or absence of a human body.
If no human body is detected, NO is returned to S3. Then, return to S2 and continue monitoring.
If a human body is detected, YES is returned to S4.
S3 Human body is not detected. Return to S2 and continue monitoring.
S4 LED (1e) lighting process.
S5 The microwave sensor (2) monitors the body movement, respiration, and heartbeat of the human body.
If any of body movement, breathing and heartbeat is not detected for a predetermined time, go to S6.
Go to S8 when detecting body movement, breathing and heartbeat. Then, return to S5 and continue monitoring.
S6 An alarm signal is output from the control unit (4) to the notification means (3).
Alarm activation processing by the notification means (3).
S7 An alarm signal is output from the control unit (4) to the communication means (5).
Alarm signal transmission processing by the communication means (5).
S8 LED (1e) lighting process. Returning to S5, monitoring of body movement, respiration, and heart rate continues.

  In the second embodiment configured as described above, the presence of the human body is detected by the microwave sensor (2) and the LED (1e) is turned on, and body movement, breathing, and heartbeat are detected and monitored, When an abnormality of the user is detected according to the detection status, the alarm means (3) flashes a buzzer or the like and the lamp itself flashes, and the communication means (5) leaves the main body (1). It is possible to receive alarms even at different locations. As a result, during bathing, if you become unconscious due to some disease and your breathing or heartbeat stops, disturbed consciousness due to decreased blood pressure, or if you fall asleep and your face falls into the bath water and falls into the state as it is However, because the alarm issued by the communication means (5) makes it possible to take life-saving treatment at an early stage by noticing the incident at the front of the accommodations such as a family in a distant place or a business hotel, the worst. It became possible to avoid the situation.

  Further, since the human body is detected and the LED (1e) is automatically turned on / off, the useless lighting due to forgetting to turn off is suppressed to save energy and save electricity usage.

1 Body
1a Outer case
1b Dome cover
1c base
1d AC-DC unit
1e LED
1f Screw part
2 Microwave sensor
3 Notification means
4 Control unit
5 Communication means

Claims (5)

  A biological information detection system built-in lamp using a microwave sensor, wherein a lamp provided with means for mounting on a lighting fixture is integrally provided with a microwave sensor and an alarm means for generating an alarm.   A biological information detection system using a microwave sensor, characterized in that a lamp provided with means for mounting on a lighting fixture is integrally provided with a microwave sensor, an alarm means for issuing an alarm, and a communication means for transmitting an alarm signal. Built-in lamp.   The living body information detection system built-in lamp using a microwave sensor according to claim 2, wherein the communication means for transmitting the alarm signal is one of power line carrier communication (PLC) and wireless communication.   A lamp equipped with a means for mounting on a lighting fixture is provided with a microwave sensor and an alarm means for issuing an alarm. The microwave sensor detects the presence of the human body, and detects and monitors body movement, breathing, and heart rate. 2. The living body information detection system built-in lamp using a microwave sensor according to claim 1, wherein when the breathing and / or heartbeat are not detected for a predetermined time, an alarm is issued by the notification means.   A lamp equipped with a means for mounting on a lighting fixture is integrally provided with a microwave sensor, a notification means for issuing an alarm, and a communication means for transmitting an alarm signal. The microwave sensor detects the presence of a human body, Motion, breathing, heartbeats are detected and monitored, and when either breathing or heartbeating or both are not detected for a predetermined time, an alarm is issued by the notification means and the communication means for transmitting an alarm signal is sent outside the bathroom. 6. The biological information detection system built-in lamp using a microwave sensor according to claim 2, wherein an alarm is issued by a receiving means for receiving the provided alarm signal.

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