KR102596009B1 - Smart wristband for fall detection and nerve stimulation according to the patient's condition - Google Patents

Abstract

The present invention relates to a smart wrist band capable of detecting falls and stimulating nerves according to the patient's condition, including a housing in which a band is formed to fit closely to the patient's wrist, and a housing formed on the back of the housing and the patient's health condition. , a sensor unit capable of measuring one or more of a fall state, a zone leaving state, an activity state, a muscle tension state, and a stress state, and a sensor unit formed on the back of the housing when the patient is determined to be in a muscle tension state or a stress state. A nerve stimulation unit that stimulates the nerves to relieve symptoms, a communication unit configured to transmit information measured through the sensor unit to the outside or receive data from the outside, the sensor unit, the nerve stimulation unit, and the communication unit. It is characterized by including a control unit that controls the operation.

Description

Smart wristband for fall detection and nerve stimulation according to the patient's condition}

The present invention relates to a smart wristband capable of detecting falls and stimulating nerves according to the patient's condition. It continuously monitors the biometric information and activity information of hospitalized patients and detects falls according to the patient's condition for emergency measures and prevention of medical accidents. and a smart wristband capable of nerve stimulation.

Generally, for patients admitted to a hospital, medical staff are equipped with various specific equipment at certain times and check the patient's temperature, blood pressure, heart rate, etc. to determine the patient's condition.

At this time, the nurse manages the patient by entering the checked patient's biometric information into the computer, and at the same time determines the patient's real-time status and stores the patient's biometric information for future use.

However, in this conventional method, nurses move around the ward with a plurality of pieces of equipment at a specified time and then individually check the patient's condition. It is difficult to transport the equipment, and each patient is individually monitored for temperature, blood pressure, There was a problem in that it took a lot of time because the patient's real-time biometric information, such as heart rate, had to be determined.

In addition, because biometric information is measured at regular intervals, when the patient's condition changes rapidly due to symptoms or environmental factors, medical staff cannot quickly confirm the emergency, and the patient's treatment time is often missed. .

In particular, in the case of patients who are able to move, if their condition changes suddenly while moving or they fall from their bed, they lose consciousness due to an external shock and cannot ask for help from medical staff, which is a problem in that patients are left unattended, leading to death.

To solve this problem, Korean Patent Publication No. 10-2016-0143608 relates to a monitoring device for patients in a nursing home, which uses a non-contact biometric sensor, an image sensor, and a camera to acquire patient information, and sends multiple information to a management server. It is possible to manage patient information in a batch, and is characterized by transmitting patient information to guardians and nurses via wired or wireless means, enabling real-time monitoring.

However, in the case of the prior art as described above, monitoring is possible only when the patient is in bed, so there is a problem in that the patient's health condition cannot be monitored while the patient is going to the bathroom or is out of the hospital room, and the state of a fall cannot be determined.

Korean Patent Publication No. 10-2016-0143608

The purpose of the present invention to solve the above problems is to double determine the presence or absence of a fall using the patient's life pattern or activity status, thereby providing fall detection and nerve stimulation according to the patient's condition, which can increase the precision of fall detection. The goal is to provide a smart wrist band where possible.

In addition, another object of the present invention is to provide a smart wrist capable of detecting falls and stimulating nerves according to the patient's condition, which can relieve symptoms by stimulating nerves to relax muscles or stimulating acupuncture points depending on the patient's stress or tension state. The band is provided.

Another object of the present invention is to provide a smart wristband capable of detecting falls and stimulating nerves according to the patient's condition, which is formed to remain in contact with the surface of the patient's wrist and can continuously measure biometric information.

The smart wrist band capable of detecting falls and stimulating nerves according to the patient's condition according to the present invention to solve the above problems includes a housing in which a band is formed so as to be in close contact with the patient's wrist, and is formed on the back of the housing, and is formed on the patient's wrist. A sensor unit is formed on the back of the housing and is capable of measuring one or more of the patient's health condition, fall condition, zone leaving condition, activity condition, muscle tension condition, and stress condition, and is formed on the back of the housing to detect the patient in a muscle tension state or a stress state. A nerve stimulating unit that stimulates the nerve when determined, a communication unit configured to transmit information measured through the sensor unit to the outside or receive data from the outside, and operations of the sensor unit, the nerve stimulation unit, and the communication unit. It is characterized in that it includes a control unit that controls.

In addition, the sensor unit of the smart wristband capable of detecting falls and stimulating nerves according to the patient's condition according to the present invention does not judge it as a fall if the patient's biometric information or rhythm does not change when a fall is detected while the patient is sleeping. It is characterized by not

In addition, the sensor unit of the smart wristband capable of detecting falls and stimulating nerves according to the patient's condition according to the present invention includes a biosignal sensor for measuring and collecting biometric information of the patient, and an IMU for collecting movement and activity information of the patient. It further includes a sensor and a positioning sensor that measures the distance from the patient's wrist to the ground, and temporarily determines whether or not the patient has fallen using the speed and altitude at which the patient's wrist is lowered through the IMU sensor and the positioning sensor, It is characterized by analyzing bio-signals that change due to impact through the bio-signal sensor to finally determine whether or not there was a fall.

In addition, the smart wrist band capable of detecting falls and stimulating nerves according to the patient's condition of the present invention has a strain gauge formed inside the band, so that the strain rate of the band according to the wrist size can be measured when worn on the patient's wrist. It is characterized in that the degree of obesity of the patient can be estimated based on the strain rate.

In addition, the nerve stimulation unit of the smart wristband capable of detecting falls and stimulating nerves according to the patient's condition of the present invention includes a rotating plate formed on the back of the housing so that it can be rotated according to the stimulation site, and formed at the edge of the rotating plate. A plurality of electrode ends are selectively protruded to apply electrical stimulation to the patient's wrist, and are formed in the center of the rotating plate. After exposing blood vessels by irradiating light, the stimulation position is photographed and the position of the electrode ends is determined by the rotating plate. It is characterized by consisting of a camera that controls .

As described above, according to the smart wristband capable of detecting falls and stimulating nerves according to the patient's condition according to the present invention, the presence or absence of a fall is double determined using the patient's life pattern or activity status, thereby improving the precision of the fall detection judgment. There is an effect that can increase it.

In addition, according to the smart wristband capable of detecting falls and stimulating nerves according to the patient's condition according to the present invention, symptoms can be alleviated by stimulating nerves to relax muscles or stimulating acupuncture points according to the patient's stress or tension state. There is a possible effect.

In addition, according to the smart wristband capable of detecting falls and stimulating nerves according to the patient's condition according to the present invention, it is formed to remain in contact with the surface of the patient's wrist, which has the effect of continuously measuring biometric information.

Figure 1 is a diagram showing the data communication configuration of a smart wristband capable of detecting falls and performing nerve stimulation according to the patient's condition according to the present invention.
Figure 2 is a configuration diagram showing the internal configuration of a smart wristband capable of detecting falls and performing nerve stimulation according to the patient's condition according to the present invention.
Figure 3 is a rear perspective view showing the wrist contact area of the smart wrist band capable of detecting falls and stimulating nerves according to the patient's condition according to the present invention.
Figure 4 is a rear view showing the nerve stimulation portion of a smart wrist band capable of detecting falls and performing nerve stimulation according to the patient's condition according to the present invention.

Specific features and advantages of the present invention will be described in detail below with reference to the accompanying drawings. Prior to this, if it is determined that a detailed description of the functions and configuration related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description will be omitted.

The present invention relates to a smart wristband capable of detecting falls and stimulating nerves according to the patient's condition. It continuously monitors the biometric information and activity information of hospitalized patients and detects falls according to the patient's condition for emergency measures and prevention of medical accidents. and a smart wristband capable of nerve stimulation.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 1 is a diagram showing the data communication configuration of a smart wristband capable of fall detection and nerve stimulation according to the patient's condition according to the present invention, and Figure 2 is a diagram showing the data communication configuration of a smart wristband capable of fall detection and nerve stimulation according to the patient's condition according to the present invention. It is a configuration diagram showing the internal configuration of a possible smart wrist band, and Figure 3 is a rear perspective view showing the wrist contact area of the smart wrist band capable of detecting falls and nerve stimulation according to the patient's condition according to the present invention, and Figure 4 is a perspective view of the present invention. This is a rear view showing the nerve stimulation part of a smart wrist band that can detect falls and perform nerve stimulation according to the patient's condition.

As shown in Figures 1 to 4, the smart wrist band capable of detecting falls and stimulating nerves according to the patient's condition according to the present invention is worn on the patient's wrist to measure the patient's biosignals and activity information. A smart wrist band 100, a gateway 200 formed to transmit data by wirelessly transmitting and receiving signals with the smart wrist band 100, and a gateway 200 connected to the gateway 200 to transmit data from the smart wrist band 100. A server 300 configured to collect biometric signals and activity information, and a management device configured to monitor in real time the patient's biosignals and activity information stored in the server 300 in conjunction with the server 300. It is characterized by including (400).

In addition, the server 300 has a data storage unit 310 that collects and stores data measured from the smart wrist band 100, and health status, fall status, and area departure based on the data collected from the smart wrist band 100. It is characterized by consisting of a data processing unit 320 that determines one or more of the states, and a signal transmission unit 330 that transmits a signal to generate an alarm to the management device 400 according to the information determined by the data processing unit 320. Do it as

The smart wrist band 100 is worn on the patient's wrist and is designed to measure bio-signals generated from the patient in real time, and is designed to determine the patient's movement location and fall state.

At this time, the smart wristband 100 is formed so that it can be worn one by one for each patient, and multiple smart wristbands 100 can transmit data to the gateway 200 using wireless communication, and the gateway 200 transmits data. The received data is transmitted to the server 300.

A plurality of gateways 200 are distributed and placed inside the building, and can communicate with the smart wristband 100 at low power through wireless communication to transmit and receive data. If necessary, the gateway 200 or the management device 400 ) can also be transmitted to the smart wristband 100.

Here, the wireless communication network of the smart wristband 100 can use a wireless access network based on IEE802.15.4e/g, a low-power access network, and the gateway 200 configures a star topology or mesh network to transmit and receive data. do.

Additionally, the gateway 200 can use the collected information to build a DB (DataBase) on the server 300 through a typical IoT (Internet of Things) protocol.

The server 300 stores biosignals and activity information measured from the smart wrist band 100, and is used by medical staff to monitor the measured data or manage the condition of each patient.

The server 300 consists of a data storage unit 310, a data processing unit 320, and a signal transmission unit 330. The data storage unit 310 stores data measured and transmitted from a plurality of smart wrist bands 100. It is used to build a DB (DataBase) for each patient by storing it separately for each patient.

The data processing unit 320 uses the health status, fall status, and zone exit status set for each patient based on the data transmitted from the smart wrist band 100 to determine normal status, abnormal status, activity status, sleep status, and tension status. do.

Here, the health status and fall status set for each patient can be set differently for each patient depending on the patient's illness, disease, and health status, and in the case of an out-of-area status, the patient cannot receive treatment, rehabilitation, exercise, visits, and daily life. In order to do this, you can designate an area so that movement can only occur within the range of the route being moved.

In addition, the sleep state and activity state can be stored by pre-setting the patient's bedtime, meal time, exercise or rehabilitation time, or estimating what the smart wrist band 100 does at a specific time based on biometric signals measured at each time period. You may.

For more accurate measurement, if the biometric information measured when the smart wrist band 100 is first worn changes, it is desirable to record what the user did at each time of change, and the information entered initially is Based on this, it is possible to check when similar actions were performed.

The signal transmission unit is a medical staff management device linked to the server 300 when any one of the patient's health status, fall status, area departure status, activity status, muscle tension status, and stress status is determined to be abnormal through the data processing unit 320. It is used to send an alarm to (400) so that medical staff can quickly move to the patient and check the patient's condition.

The patient's biosignals and activity information measured through the smart wrist band 100 are stored as a DB (DataBase) in the server 300 through the gateway 200, and the server 300 is stored in a web method or other framework, etc. With the help of , it can be confirmed through the management device 400 used by medical staff.

In addition, the management device 400 is used to remotely monitor the patient's condition and can access the server 300 using the management PC 410 used by the medical staff or the mobile terminal 420 that the medical staff can carry. It becomes possible.

Through the management device 400, the patient's condition stored in the data storage unit 310 of the server 300 can be monitored in real time, and if a specific patient is determined to be in an abnormal state, emergency information is managed as an alarm signal from the server 300. It is possible to alert medical staff through the app or program of the device 400.

In addition, the housing 110 is formed with a band 120 so as to be in close contact with the patient's wrist, and is formed on the back of the housing 110 to determine the patient's health status, fall status, area departure status, activity status, and muscle tension status. , a sensor unit 130 that can measure one or more of the stress states, and a nerve stimulation that is formed on the back of the housing 110 and stimulates the nerves to relieve symptoms when the patient is judged to be in a state of muscle tension or stress. Unit 140, a communication unit 160 configured to transmit information measured through the sensor unit 130 to the outside or receive data from the outside, a sensor unit 130, a nerve stimulation unit 140, It is characterized by including a control unit 170 that controls the operation of the communication unit 160.

The housing 110 is hollow on the inside so that the sensor unit 130, the nerve stimulation unit 140, the communication unit 160, and the control unit 170 can be built in, and the sensor unit 130 is located in the housing 110. It is located on the back and is designed to measure biometric information by contacting the patient's wrist.

In addition, the housing 110 is provided with a band 120, so that the band 120 wraps around and secures the patient's wrist, allowing the housing 110 to be maintained in close contact with the patient's wrist, and the material of the housing 110 It is desirable to use a silicone-based synthetic resin material so that it has no side effects on the skin and can adhere closely to the wrist.

In addition, it is preferable that the PCB board of the battery 112 and the control unit 170 formed inside the housing 110 are made of a flexible material so that the housing 110 bends when it is in close contact with the wrist.

In addition, a strain gauge 121 is formed inside the band 120, making it possible to measure the strain rate of the band 120 according to the wrist size when worn on the patient's wrist, and estimate the patient's obesity level based on the strain rate. It is characterized by what it can do.

The band 120 is made of a material that can be stretched by elastic force, so it can be worn on the wrists of various patients, and a strain gauge 121 is formed inside, allowing the band to measure strain according to the stretch state.

Both ends of the housing 110 protrude to the outside to form support ends 111 to allow the band 120 to be connected. Connecting shafts (not shown) are formed at both ends of the band 120. As the connecting shaft is inserted between the support ends 111, it is coupled and fixed.

At this time, the connecting shaft is electrically connected by contacting the support end 111, and the strain gauge 121 can transmit the value generated as the band 120 is stretched to the control unit 170 through the support end 111. , the control unit 170 can estimate the size of the patient's wrist circumference by measuring the strain using the measured value.

Using the strain measured here, it is possible to estimate the patient's obesity level through the change in wrist circumference based on the body information entered in advance by the patient.

The sensor unit 130 is used to detect the patient's health state, fall state, zone departure state, activity state, muscle tension state, and stress state, and measures basic data for determining the patient's state.

At this time, the sensor unit 130 is preferably formed to protrude from the back of the housing 110 by elastic force so that it can be maintained in contact with the surface of the patient's wrist.

The sensor unit 130 further includes a biosignal sensor 133 configured to measure one or more of the patient's electromyogram, electrocardiogram, blood flow, blood pressure, pulse, pulse wave, heart rate, oxygen saturation, and body temperature. The patient's health status can be continuously measured through the sensor 133.

In addition, the biological signal sensor 133 can measure and transmit signals in real time, and in order to reduce power consumption of the battery 112, if the measured signal is within the normal state range, the time interval for transmission to the server 300 is long. And, if the measured signal is in an abnormal state, it is desirable to be able to transmit the signal in real time regardless of the set transmission time interval.

At this time, the biosignal sensor 133 can determine the sleep state and activity state based on biometric information measured from the patient, and can also determine the type of exercise the patient does when exercising by linking with the IMU sensor, which will be described later.

In addition, the sensor unit 130 of the smart wrist band 100 is characterized in that when a fall is detected while the patient is sleeping, it does not judge it as a fall if the patient's biometric information or sleep state does not change.

In addition, the sensor unit 130 includes a biosignal sensor 133 for measuring and collecting the patient's biometric information, an IMU (Inertial Measurement Unit) sensor 131 for collecting the patient's movement and activity information, and a It further includes a positioning sensor 132 that measures the distance to the ground, and uses the speed and altitude at which the patient's wrist is lowered through the IMU sensor 131 and the positioning sensor 132 to temporarily determine whether or not the patient has fallen. It is characterized by analyzing biological signals that change due to impact through the signal sensor 133 to finally determine whether or not there was a fall.

The IMU sensor 131 measures the patient's speed, direction, gravity, and acceleration, and can recognize the patient's movement situation using an accelerometer, angular velocity, geomagnetic machine, and altimeter.

The positioning sensor 132 measures the altitude of the location while the smart wrist band 100 is worn, and is used as an auxiliary means to determine the state of a fall by measuring the distance from the ground to the wrist using changes in the position of the wrist. can be used.

In other words, it is possible to measure the movement and acceleration of the wrist on which the smart wrist band 100 is worn through the IMU sensor 131, and to determine the patient's fall state by estimating the altitude of the wrist through the positioning sensor 132. It becomes possible.

At this time, the control unit 170 detects a rapid vertical fall toward the ground through the IMU sensor 131, and the positioning sensor 132 records the altitude measured in the patient's usual living condition and posture. It is desirable to reduce fall detection errors by detecting sudden changes in altitude.

The positioning sensor 132 measures the vertical distance from the patient's wrist to the ground using a laser or ultrasound, and is formed so that the measurement direction changes based on the gravity direction of the IMU sensor 131.

In addition, it is desirable that the positioning sensor 132 be measured by irradiating from the side of the housing toward the ground to prevent the back of the hand from being measured when measuring altitude, and the measured irradiation angle is based on 90 degrees, which is vertical. It may vary from 0 to 45 degrees.

If the irradiation angle changes, the ground can be measured even when the wrist is moved, and irradiation can be done in accordance with the direction of gravity using the IMU sensor 131, making measurement possible in various environments.

In addition, after a fall is detected based on the bio-signal sensor 133, the patient's heart rate and body temperature can be used as auxiliary indicators to precisely analyze whether the patient has fallen.

At this time, shock and acceleration may occur when the patient moves his or her wrist while tossing and turning during sleep. The sensor unit 130 determines that the patient is in a temporary fall state through the IMU sensor 131 and the positioning sensor 132, and detects a biological signal sensor ( 133), if the measured information indicates a sleeping state or biosignals do not change, it can be determined that the person did not fall.

That is, the presence or absence of a fall can be finally determined by measuring the increase in pulse rate, electrocardiogram change, and stress due to shock after a fall through the biological signal sensor 133.

Through this, when it is determined that the patient has fallen, the measured data is transmitted to the gateway 200 and the server 300 through the communication unit 160 of the smart wrist band 100, and the server 300 transmits the measured data to the gateway 200 and the server 300. If a fall is determined after a secondary verification is attempted based on the information to determine whether the patient has fallen, the management device 400 can guide the medical staff to take emergency measures to the patient who fell.

In addition, the sensor unit 130 of the smart wristband 100 further includes a GPS 134 that can determine the patient's location, and the server 300 detects the patient leaving the hospital and leaving a specific space and area within the hospital. It is characterized by detecting this and sending an alarm to the management device 400.

The GPS 134 is used to determine the patient's location, and transmits the patient's location information to the server 300 so that medical staff can quickly confirm the patient's location in the event of an emergency due to worsening disease or fall. It is used.

Additionally, the patient's location information measured through the GPS 134 is transmitted to the server 300, and the server 300 can determine whether the patient is located within a section set for each patient or outside of it.

At this time, if the patient approaches a restricted area within the hospital, leaves the designated area, or leaves the hospital, the server 300 transmits the patient's location and an alarm to the management device 400, so that the medical staff can It becomes possible to manage patients who leave the compartment.

A plurality of nerve stimulation units 140 are formed on the back of the housing and are used to stimulate one or more of the nerves, muscles, and acupuncture points formed near the patient's wrist using electrical stimulation.

In addition, the nerve stimulation unit 140 includes a rotating plate 143 that is formed on the back of the housing so that it can be rotated to match the stimulation site, and is formed on the edge of the rotating plate 143 and selectively protrudes to provide electrical stimulation to the patient's wrist. A camera is formed at the center of a plurality of applied electrode ends 142 and a rotating plate 143, exposes blood vessels by irradiating light, then photographs the stimulation position and adjusts the position of the electrode ends 142 by the rotating plate 143. It is characterized by consisting of (141).

The rotating plate 143 is used to change the position of the electrode end 142, and is formed on the back of the housing 110 so that it can be rotated by a motor formed inside.

At this time, in order to prevent the rotating plate 143 from coming into contact with the skin of the wrist, the rotating plate 143 is embedded in the inner surface of the housing 110, so that it can be located inside the back of the housing 110.

A plurality of electrode ends 142 are formed at regular intervals at the edge of the rotating plate 143, and are formed to protrude from the rotating plate 143 to the outer surface so as to contact the wrist skin, and as the rotating plate 143 rotates, the electrode ends ( 142) can be changed.

At this time, the electrode end 142 is formed so that only the part closest to the stimulation site protrudes from the rotating plate 143, and after it protrudes, it stimulates one or more of nerves, muscles, and acupuncture points through electrical stimulation to relieve the patient's stress, It can relieve muscle tension.

In addition, if necessary, it is possible to perform oriental medical treatment by stimulating the wrist acupoints, and it is also possible to massage the wrist by physically pressing it using the protruding electrode end 142.

The camera 141 is located at the center of the rotating plate 143 and is used to determine the location of stimulation by the electrode tip 142 by irradiating light to the wrist using an LED and photographing blood vessels near the inner neck.

When the LED formed in the camera 141 irradiates light, the blood vessels inside the wrist can be seen, and by photographing them, the location of stimulation on the wrist can be estimated.

That is, the location of the blood vessel is identified through the camera 141, and one of the muscles, nerves, and acupuncture points according to the patient's symptoms is selected, and the position of the electrode tip 142 is changed through the rotating plate 143 to select the stimulation site. It is possible to induce electrical stimulation to be applied at a nearby location.

Additionally, inside the housing 110, there is a battery 112 made of lithium ion to supply power to the sensor unit 130, nerve stimulation unit 140, communication unit 160, and control unit 170 and to store power from the outside. , It is formed on the side of the housing 110 and includes a charging terminal 113 for charging the battery 112.

As the charging terminal 113 is formed on the side of the housing 110, charging is possible without taking off the smart wrist band 100.

In addition, the battery 112 is composed of a built-in battery and a removable battery, and the removable battery can be separated from the side of the housing for external charging.

The removable battery is used as the main power source and is designed to be inserted or discharged from the side of the housing 110, so when the removable battery is discharged, it can be replaced with a fully charged removable battery and used continuously.

At this time, in order to prevent power loss when replacing the battery, a built-in battery is formed inside the housing 110. Although it has a smaller capacity than the removable battery, it continuously supplies power to the smart wrist band 100 when replacing the battery, thereby maintaining continuous vital energy. The signal can be measured.

The communication unit 160 is for transmitting event information based on information measured or collected in real time by the sensor unit 130, and is an IoT network in the sub-GHz band that extends the transmission distance to several kilometers with low power. The technology you use will be used.

In addition, an RF module 161 is formed in the communication unit 160 to identify each smart wristband 100, so when data measured by the smart wristband 100 is transmitted to the server 300, the data is transmitted for each patient. It is desirable to classify and store them.

In addition, the communication unit 160 of the smart wrist band 100 further includes an NFC module 162 for storing one or more of the patient's personal information, disease information, medical information, prescription information, hospitalization information, and management information, Before administering a prescribed drug, the medical staff tags the drug to the NFC module 162 to cross-verify whether the drug administered to the patient is correct.

The NFC module 162 receives and stores prescription information prescribed to the patient from the server 300. The prescription information also includes information on drugs to be administered or taken to the patient, and, if necessary, prescriptions according to the patient's rehabilitation treatment. Methods may also be included.

Before administering or providing medication, the medical staff tags the housing 100 with the RFID formed on the medication bottle so that the NFC module 162 can receive drug information, and the received information is converted into prescription information from the server 300. It is also possible to verify whether the drug prescribed to the patient is correct by comparing the two.

At this time, it is desirable to generate an alarm in case of incorrectly prescribed information, and display the incorrect medication administered on the mobile terminal 420 held by the medical staff.

In particular, information on drugs administered or taken to patients by being tagged by the NFC module 162 is stored in the server 300 so that medical staff can continuously check the information on drugs administered or taken, and when a medical accident occurs, the server ( 300), it is possible to take quick action based on the information stored.

In addition, when the mobile terminal 420 carried by the medical staff is close to the NFC module 162, it is tagged so that patient information can be output, and the medical staff checks whether it is appropriate to take or administer medication to the tagged patient according to the prescription prescribed by the medical staff. This allows cross-validation.

Here, the NFC module 162 is configured to store data information received from the server 300 through the RF module 161, and includes the patient's personal information, disease information, medical treatment information, and prescription information stored in the server 300. , it is possible to periodically receive and store the latest hospitalization information and management information.

Therefore, when the mobile terminal 420 tags the NFC module 162, the nurse can check whether the patient is the subject of the prescription through the patient's personal information output, and further, take the medication based on the prescription information registered in the server 300. Alternatively, medical accidents can be prevented by cross-verifying administered drugs.

The control unit 170 has a PCB board formed so as to be electrically connected to the sensor unit 130, the nerve stimulation unit 140, and the communication unit 160 built into the smart wrist band 100, through the battery 112. Power is controlled by supplying power to the sensor unit 130 and the communication unit 160.

In addition, if necessary, an emergency situation can be determined primarily through the patient's biosignals, fall status, and location information based on the information measured by the sensor unit 130, and the server 300 through the communication unit 160. By transmitting the data, the server 300 makes a final decision and sends an alarm to the management device 400 to inform of the patient's emergency condition.

Additionally, the control unit 170 may be configured to reduce consumption of the battery 112 by adjusting the period in which the communication unit 160 transmits and receives data according to the amount of power of the battery 112.

In addition, the server 300 transmits an alarm through the management device 400 when the smart wrist band 100 is determined to be motionless or not worn for a certain period of time due to damage to the band 120 or separation from the wrist. Do it as

The band 120 has an elastic ring shape, but can also be shaped like a watch strap. In the present invention, the band 120 is formed so that it can be used interchangeably.

In addition, when the patient takes off the band 120, there is no data measured by the sensor unit 130, and the server 300 detects that there is no movement or no data measured by the data transmitted from the smart wrist band 100. In this case, it is determined that the patient is not in a wearing state, and measures can be taken so that the medical staff can check the patient's condition through the management device 400.

In addition, the smart wrist band 100 further includes an output unit 150 that informs the patient of one or more of status information, health information, medical information, schedule information, device information, and server 300 information through vibration or sound. It is characterized by:

The output unit 150 outputs the patient's medication time, rehabilitation time, treatment time, and instructions according to the medical staff's prescription information and automatically guides the patient's schedule.

The output unit 150 is used to inform patients wearing the smart wrist band 100 of various events, and a display 151 is formed on the front of the housing 110 to check the measurement status or alarm message. A vibration motor 152 and a speaker 153 are formed inside the housing 110 to provide information to the patient through vibration and sound.

At this time, the output unit 150 records the patient's disease or disease state recorded by the medical staff, the patient's health information, location and time information for treatment, schedule information about meals, exercise, rehabilitation and visitation times, and the smart wrist band 100. It is possible to output device information about the operating state and information about the communication state with the server 300.

In addition, it is possible to input various information through the display 151 or display time or schedule information on the screen, and also includes information about status information, health information, medical treatment information, schedule information, device information, and server 300 information. It can also be displayed on a display so that patients can easily recognize it.

In addition, the output unit 150 receives alarm information from the server 300 based on the prescription information recorded by the medical staff in the server 300 and sounds an alarm at the patient's medication and medication time to induce the patient to be located in the hospital room and perform rehabilitation. By printing out the time, treatment time, and medical staff's instructions, the patient can automatically recognize what to do at that time.

In other words, through the output unit 150, the patient can check the time and location for medication or treatment in advance and wait at the designated location on time, thereby reducing the fatigue of the medical staff and allowing medical treatment to be performed quickly.

In addition, the smart wrist band 100 is characterized by being able to call a medical staff through voice recognition or motion recognition when help is needed.

For this purpose, the sensor unit 130 is equipped with a microphone for voice recognition, so the control unit 170 analyzes the voice information input through the microphone and transmits it to the server 300, which then uses the medical staff's management device 400. ), so that medical staff can quickly assist if the patient needs help.

In addition, it is possible to analyze the movement of the wrist through the IMU sensor 131 of the sensor unit 130 instead of the microphone, so that medical staff can be called when the wrist moves according to the gesture shape set in the control unit 170.

Through this, when an emergency situation occurs while the patient is far away from the medical staff, the patient can be protected in an emergency situation by being able to call the medical staff using voice recognition or motion recognition.

As described above, according to the smart wristband capable of detecting falls and stimulating nerves according to the patient's condition according to the present invention, the presence or absence of a fall is double determined using the patient's life pattern or activity status, thereby improving the precision of the fall detection judgment. Depending on the patient's stress or tension, the symptoms can be alleviated by stimulating the nerves to relax the muscles or stimulating the acupoints. It is formed to remain in contact with the patient's wrist surface, so biometric information It has the effect of being able to measure continuously.

As described above, the present invention has been described with a focus on preferred embodiments, but those skilled in the art may vary the present invention without departing from the technical spirit and scope of the claims of the present invention. It can be implemented by modifying or modifying it accordingly. Accordingly, the scope of the present invention should be construed by the appended claims to include examples of many such modifications.

100: Smart wrist band
110: housing
111: support group
112: battery
113: charging terminal
120: band
121: strain gauge
130: sensor unit
131: IMU sensor
132: Positioning sensor (distance measurement)
133: Biosignal sensor
134 : GPS
140: Nerve stimulation unit
141: camera
142: electrode end
143: rotating plate
150: output unit
151: display
152: Vibration motor
153: speaker
160: Department of Communications
161: RF module
162: NFC module
170: control unit
200: gateway
300: Server
310: data storage unit
320: data processing unit
330: signal transmission unit
400: Management device
410: Management PC
420: mobile terminal

Claims (5)

A housing with a band formed so as to be in close contact with the patient's wrist;
a sensor unit formed on the back of the housing and capable of measuring one or more of the patient's health condition, fall condition, area departure condition, activity condition, muscle tension condition, and stress condition;
a nerve stimulation unit formed on the back of the housing and stimulating a nerve when the patient is determined to be in a state of muscle tension or stress;
a communication unit configured to transmit information measured through the sensor unit to the outside or receive data from the outside;
It includes a control unit that controls the operation of the sensor unit, the nerve stimulation unit, and the communication unit,
The nerve stimulation unit
a rotating plate formed on the back of the housing so that it can be rotated according to the stimulation site;
a plurality of electrode ends formed on the edge of the rotating plate and selectively protruding to apply electrical stimulation to the patient's wrist;
A camera is formed at the center of the rotating plate and irradiates light to expose blood vessels, then photographs the stimulation position and adjusts the position of the electrode end by the rotating plate.
A smart wristband that can detect falls and provide nerve stimulation according to the patient's condition.
According to clause 1,
The sensor unit
Characterized in that when a fall is detected while the patient is sleeping, it is not judged as a fall if the patient's biometric information or rhythm does not change.
A smart wristband that can detect falls and provide nerve stimulation according to the patient's condition.
According to clause 1,
The sensor unit
a biosignal sensor that measures and collects biometric information of the patient;
an IMU sensor for collecting movement and activity information of the patient;
It further includes a positioning sensor that measures the distance from the patient's wrist to the ground,
Temporarily determine whether a fall has occurred using the speed and altitude at which the patient's wrist is lowered through the IMU sensor and the positioning sensor,
Characterized in that the final determination of the presence or absence of a fall is made by analyzing the biological signals that change due to impact through the biological signal sensor.
A smart wristband that can detect falls and provide nerve stimulation according to the patient's condition.
According to clause 1,
A strain gauge is formed inside the band, so that when worn on the patient's wrist, the strain rate of the band can be measured according to the wrist size, and the patient's obesity degree can be estimated based on the strain rate. doing
A smart wristband that can detect falls and provide nerve stimulation according to the patient's condition.
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