RU181546U1 - PERSONAL MANUFACTURER FOR MONITORING AND ANALYSIS OF BIOMETRIC INDICATORS - Google Patents

Abstract

The utility model relates to the field of medicine, in particular to medical diagnostic systems. The utility model can be used to assess, control and monitor the state of the human body. The technical result, which the utility model is aimed at, is to increase the information content of the device for monitoring and analyzing biometric indicators by placing additional sensors in the device and realizing the possibility for a long time to display the current state of the monitored parameters, as well as the long-term accumulation and storage of data on an external memory device connected to the device port. The technical result is achieved in a device for monitoring and analysis of biometric indicators, made in one case in the form of a wristband, containing in its case at least one microprocessor that processes the sensor readings, as well as calculates the parameters of pulse oximetry, thermometry, electrocardiogram, pacemaker, a clock unit for recording the time of measurements, a block of timers and alarms for the implementation of measurement planning and treatment procedures, an initial storage unit x measurements and calculation parameters, a wireless information transfer unit that provides information transfer to external devices, an accelerometer, a gyroscope, a sensor for recording heart rate and blood saturation level, body temperature and ambient temperature sensors, a skin resistance measurement sensor, a vibration motor and / or sound emitter for providing feedback with the user, a unit for synchronizing data and time with external devices, a power supply, a display, characterized in that the display is made by electronic boom technology AGI (e-ink), characterized by ultra-low power consumption in the static display mode and the device further comprises an electric field sensor EPIC (Electric Potential Integrated Circuit) for recording the user's electrocardiogram. 1 s.p. f-ly, 2 ill.

Description

The utility model relates to systems for remote monitoring of biological and physiological parameters of a person. The utility model can be used to assess, control and monitor the state of the human body.

A self-contained wrist device for remote monitoring of human condition (RF patent for utility model No. 136315, published January 10, 2014) is located in the case in the form of a watch and contains a microcontroller, a pulse sensor, a skin temperature sensor for the wrist of the user, an accelerometer, a memory unit, a temperature sensor ambient air.

The disadvantage of this device is the lack of information due to the limited number of sensors in the device and the lack of an indicator.

A biometric device is known (PCT application WO2012092221, published July 5, 2012), equipped with a display, for measuring biometric user data, including heart rate, heart rate variability, blood flow velocity, skin temperature, pulse oximetry, stress level or stressful events, emotional levels of awakening, blood glucose and blood pressure, made in the form of a watch, which includes an optical emitter, a processor that processes information from sensors, including Some: optical sensor, sensor for measuring skin resistance, ambient temperature sensor, skin temperature sensor, motion sensor.

The disadvantage of this device is the lack of information due to the high energy consumption in the display state of the display, which is used as a plasma, liquid crystal or LED indicator, and therefore, the use of the device without recharging is limited in time, or the indicator is periodically turned off in order to save energy.

The technical result, which the utility model is aimed at, is to increase the information content of the device for monitoring and analyzing biometric indicators by placing additional sensors in the device and realizing the possibility to display the current state of the monitored parameters for a long time.

The technical result is achieved in a device for monitoring and analysis of biometric indicators, made in one case in the form of a wristband, containing in its case at least one microprocessor that processes the sensor readings, as well as calculates the parameters of pulse oximetry, thermometry, electrocardiogram, pacemaker, a clock unit for recording the time of measurements, a block of timers and alarms for the implementation of measurement planning and treatment procedures, an initial storage unit x measurements and calculation parameters, a wireless information transfer unit that provides information transfer to external devices, an accelerometer, a gyroscope, a sensor for registering a pulse and a level of blood saturation, body temperature and ambient temperature sensors, a sensor for measuring skin resistance, a vibromotor to provide feedback from user, data and time synchronization unit with an external control device, power supply, display, characterized in that the display is made by electronic paper technology (e-ink), characterized by ultra-low power consumption in the static display mode and the device further comprises an electric field sensor EPIC (Electric Potential Integrated Circuit) for recording the user's electrocardiogram.

Preferably, to provide feedback to the user, the implementation of the device with an additional sound emitter.

The device allows real-time monitoring and analysis of biometric parameters of the patient, process the results of observations, store the results of observations and provide access to them and the results of the analysis to the patient, medical workers and other interested parties.

Figure 1 shows a block diagram of a device for monitoring and analysis of biometric indicators. 1 - case, 2 - bracelet, 3 - microprocessor, 4 - clock block, 5 - block of timers and alarms, 6 - block for storing initial measurements and calculated parameters, 7 - block for wireless transmission of information, 8 - accelerometer, 9 - gyroscope, 10 - a sensor for recording the pulse and level of blood saturation, 11 - a body temperature sensor, 12 - an ambient temperature sensor, 13 - a skin resistance measurement sensor, 14 - a vibration motor, 15 - a sound emitter, 16 - a data and time synchronization unit with external devices, 17 - power supply, 18 - display, 19 - electronic sensor nical field EPIC (Electric Potential Integrated Circuit).

Figure 2 shows the appearance of the device for monitoring and analysis of biometric indicators.

The utility model can be implemented in a device made in one case 1 in the form of a wristband 2, containing in its case at least one microprocessor 3 that processes the sensor readings, as well as calculates the parameters of pulse oximetry, thermometry, ECG, ECS, a watch unit 4 for recording the time of the measurements, a block of timers and alarms 5 for implementing the planning of measurements and treatment procedures, a storage unit for 6 initial measurements and calculated parameters, a wireless information transmission unit 7, providing transmitting information to external devices, for example, a smartphone or the Internet and controlling the device from the outside, an accelerometer 8, a gyroscope 9, a sensor for detecting heart rate and blood saturation level 10, body temperature and ambient temperature sensors 12, a skin resistance measurement sensor 13, a vibration motor 14 and a sound emitter 15 for providing feedback with the user, a data and time synchronization unit 16 with external devices, a power supply 17, a display 18 made by electronic paper technology (e-ink), characterized ultra-low power consumption in the mode of static indication and an electric field sensor 19 EPIC (Electric Potential Integrated Circuit) for recording the user's electrocardiogram. The signals from the sensors 8 - 13 and 19 are sent to the microprocessor 3, where they are processed and the processing results, together with the initial data, are sent to the storage unit for the initial measurements and calculated parameters 6, and to the display 18. In this case, the vibration motor 14, the sound emitter 15 and the display 18 provide feedback and informing the user about the monitoring results, and the wireless information transfer unit 7 provides information transfer to external devices and to the Internet, as well as device control using external devices or via be online by the user, the attending physician or other interested person.

The device together with external devices can provide non-invasive registration of the main diagnostic parameters of the body for early warning of possible diseases, determine the presence of risks of diseases and assess adaptive reserves of the body.

Thus, since an additional EPIC sensor is placed in the device and it is possible for a long time to display the current state of the monitored parameters on the e-ink display, the claimed technical result is achieved in the device in the form of increasing information content.

Claims (2)

1. A device for monitoring and analysis of physiological parameters, made in one case in the form of a wristband, containing in its case a microprocessor made with the possibility of processing sensor readings, as well as calculating the parameters of pulse oximetry, thermometry, a watch unit configured to record the time of measurement , a block of timers and alarms, a unit for storing initial measurements and calculated parameters, a wireless information transmission unit, configured to transmit information to the internal External devices, an accelerometer, a gyroscope, a sensor for recording the pulse and level of blood saturation, a body temperature sensor, an ambient temperature sensor, a sensor for measuring skin resistance, a vibration motor, a unit for synchronizing data and time with external devices, a power supply, a display, characterized in that the microprocessor is configured to calculate the parameters of the electrocardiogram, pacemaker, and the display is made using electronic paper technology (e-ink), in addition, the device further comprises an electric sensor eskogo field EPIC (Electric Potential Integrated Circuit) for registering user electrocardiogram. 2. A device for monitoring and analysis of physiological parameters according to claim 1, characterized in that it further comprises a sound emitter.

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