RU199317U1 - A device for monitoring the physiological state of a person. - Google Patents

Abstract

The useful model relates to devices for monitoring the physiological state of a person, in particular, such indicators as ECG, respiratory system activity, body temperature. The device is an elastic adjustable belt with built-in ECG sensors located on both sides of the belt (front and back), a sensor for determining the volume of the lungs, by the method of impedance pneumography, according to a two-electrode circuit; a removable recording unit is attached to the front of the belt, consisting of a housing with an electronic board inside (not shown in the figure), on which are built: - a non-volatile battery that allows you to replace the battery without losing data and without stopping the operation of the device. The built-in battery allows saving settings and data when the main battery is discharged, sending a signal to the mobile device about the lack of power and the need for charging. The device has the ability to charge using wireless and fast charging (Quick Charge and Fast Wireless Charger) or magnetic contacts; - LoRaWAN and ZigBee modules, which ensure the operation of the device for monitoring the physiological state in closed rooms where global positioning satellites are not available; - NFC module , which provides the transmission of data on the patient's condition at the current moment; - a pulse sensor and registration of the RR-interval of the heart rate, according to which the calculation of various indicators of the heart, reflecting the level of activation of the body, the balance of excitatory and inhibitory processes of the nervous regulation of the body, the cost of resources for monitoring the current states and stress level; - body temperature sensor; - accelerometer; - bluetooth; - SOS alarm button, brought out of the case. 3 ill.

Description

The useful model relates to devices for monitoring the physiological state of a person, in particular, such indicators as ECG, respiratory system activity, body temperature.

Known mobile diagnostic device (MDD) containing a housing, sensors for monitoring the activity of the cardiovascular system, body temperature, the main module, a radio communication channel, sensors for monitoring the activity of the respiratory system, sensors for analyzing the hydrophilicity of tissues and water balance of the user's body, sensors of motor activity, body position in space and the function of recording a full-fledged single-channel ECG, heart rate variability, the dynamics of the ST segment of the cardiogram, which allows to classify various types of cardiac arrhythmias, the function of registering the fact of the user's fall, the function of recording and analyzing the user's individual biometric card, presented by statistical information on the parameters of his vital activity during a certain period of time, the function of monitoring biophysical parameters in the mode 24 hours a day, 7 days a week; the body of the main module contains an electronic circuit that controls sensors for monitoring biophysical parameters of an organism, microcontrollers, an internal memory on an electronic medium, a wireless data transmission module, an autonomous power source, a geolocation controller, a module for cellular communication, a plate of elastic material with an adhesive surface; the body of the main module of the device is attached to a plate made of elastic material with an adhesive surface treated with a conductive substance, due to which it is fixed on the human skin in the area of the projection of the organ provided for recording biophysical parameters; the body of the main module of the device and the self-adhesive surface form a detachable connection, due to which the body is removable and interchangeable (RU No. 128469, IPC A61B 5/00, publ. 27.05.2013).

The disadvantages of the MDU is a "plaster" (a plate of elastic material with an adhesive side using an adhesive gel, which does not guarantee reliable fixation and contact during perspiration and shaking, for example, when running and playing sports.

The closest analogue is a chest belt for detecting physiological parameters, containing an electrocardiograph detection section and a respiration detection section. The detection section of the electrocardiograph is provided with a housing and at least one connecting section. The connecting parts are connected to the upper side and the lower side of the body. The connecting pieces and the body together form a through-piece. At least a pair of electrocardioelectrodes are located on the outer surface corresponding to the person to be detected on the body; the electrocardiographic electrodes extend to the outer portions of the connecting portions of the detection portion of the electrocardiograph through the wires; the breathing detecting portion includes a belt-shaped elastic body, and the respiration induction sensor is disposed on the belt-shaped elastic body in a length direction of the belt-shaped elastic body; the two ends of the respiratory induction sensor pass through the outer wires of the connecting portions of the detection portion of the electrocardiograph through the wires; a belt-shaped elastic body of the breathing detection portion is inserted into a through portion of the detection portion of the electrocardiograph, so that the electrocardioelectrodes on the body of the detection portion of the electrocardiograph can be tightly attached to the portion to be detected on the chest; the elastic body in the form of a belt of the breath detection portion and the body of the detection portion of the electrocardiograph are fixed together at at least one point and form a combined portion (CN203662728 (U) - 2014-06-25).

A common disadvantage of similar devices is the lack of the ability to work indoors, where there is no way to determine the coordinates by GPS or Glonass. In addition, the measuring sensors are located on the same side, close to each other, which cannot give accurate readings, because to take more accurate ECG readings, the sensors should be located on opposite sides of the heart. Another disadvantage is the lack of an alarm button "SOS".

The task facing the author is to eliminate the identified shortcomings by creating a more functional and accurate device for monitoring the physiological state of a person, both in closed rooms and in open spaces.

The essence of the device is the possibility of continuous, round-the-clock monitoring of the physiological state of a person, in particular ECG, respiratory system, body temperature, in real time or for a certain period, even in closed rooms and other places where global positioning satellites are not available, this is achieved thanks to the claimed device , which is an elastic, adjustable belt with built-in ECG sensors located on both sides of the belt, a sensor for determining the volume of the lungs; a removable recording unit is attached to the front of the belt, which consists of a case, inside which a non-volatile battery is built-in LoRaWAN and ZigBee modules, an NFC module, a pulse sensor and RR-HR interval registration, a body temperature sensor, an accelerometer, bluetooth, an SOS alarm button.

FIG. 1 schematically shows a general view of a device for monitoring the physiological state of a person.

FIG. 2 shows the belt of the device, with fasteners for the unit body, in the form of buttons-fasteners.

FIG. 3 shows an example of a method of wearing a human physiological monitoring device.

The inventive device is an elastic adjustable belt (1) with built-in ECG sensors (not shown in the figure), located on both sides of the belt (front and back), a lung volume determination sensor (not shown in the figure), by impedance pneumography, according to two-electrode circuit; on the front part of the belt, a removable recording unit is attached, consisting of a housing (2) with an electronic board inside (not shown in the figure), on which are built:

- non-volatile battery that allows you to replace the battery without losing data and without stopping the device. The built-in battery allows saving settings and data when the main battery is discharged, sending a signal to the mobile device about the lack of power and the need for charging. The device has the ability to charge using wireless and fast charging (Quick Charge and Fast Wireless Charger) or magnetic contacts;

- LoRaWAN and ZigBee modules, which ensure the operation of the device for monitoring the physiological state in closed rooms where global positioning satellites are not available;

- NFC-module, providing data transmission about the patient's state at the moment;

- a pulse sensor and registration of the RR-interval of the heart rate, according to which the calculation of various indicators of the heart, reflecting the level of activation of the body, the balance of excitatory and inhibitory processes of the nervous regulation of the body, the cost of resources for monitoring the current state and the level of stress;

- body temperature sensor;

- accelerometer;

- bluetooth;

- SOS panic button (3), brought out outside the case.

The registering unit can be attached to the belt using, for example, snap fasteners (k) (Fig. 2).

The way the device works.

The device is put on the chest of a person (figure 3), and is conveniently fixed on it using an elastic adjustable strap (1). In this case, the body (2) of the recording unit is located in front, and the ECG sensors are located on opposite sides (front and back) of the chest, which provides accurate readings of the heart. The pulse sensors and the registration of the RR interval of the heart rate, the sensor for determining the volume of the lungs, the body temperature sensor work without interruption and allow you to monitor the physiological state of a person (ECG, respiratory system activity, body temperature) around the clock. The built-in LoRaWAN and Zigbee modules wirelessly transmit to the information processing server the collected data about the human condition, both for a certain period of time and at the current moment, even in closed rooms where global positioning satellites are not available, to determine the location and monitoring of geo-zones. The processed data is sent to a smartphone, for example, a device carrier or a computer, for example, an observing doctor.

The device is very lightweight, comfortable, compact and allows you to wear it under clothes without causing discomfort. The elastic adjustable strap (1) reliably holds the device on the human (animal) body, even during active activities, which allows the device to be used to monitor the physiological state of athletes during training.

In the event of an emergency health situation (for example, a heart attack), you can use the SOS button (3), after which, a call will automatically go to the ambulance service and a certain number of subscribers specified when calling SOS.

Thus, the task assigned to the author has been completed.

Claims (1)

A device for monitoring the physiological state of a person, which is an elastic adjustable belt with built-in ECG sensors, a sensor for determining the volume of the lungs, a removable recording unit is attached to the front of the belt, consisting of a case, inside which there is a battery, characterized in that a pulse sensor is located inside the case of the recording unit and registration of the RR interval of the heart rate, body temperature sensor, accelerometer, built-in ECG sensors are located on both sides of the belt with the possibility of placing them on opposite sides of the chest, in addition, the recording unit contains a non-volatile battery, wireless charging, NFC module, LoRaWAN modules and ZigBee, additionally there is an SOS alarm button.

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