RU113943U1 - HUMAN BODY TEMPERATURE REMOTE MONITORING SYSTEM - Google Patents

Abstract

1. A system for remote monitoring of human body temperature, including a body temperature control device, an information processing and display unit with a Wi-Fi standard wireless data transmission module, characterized in that a Wi-Fi Router and a data consolidation server are additionally introduced, which provide wireless data exchange with an information processing and display unit, while the body temperature control device is a single measuring and transmitting module containing a temperature measurement sensor, an information processing and display unit, which is connected to the temperature measurement sensor by a flexible conductor, while the information processing and display unit contains a microprocessor control module, Wi-Fi standard wireless data transmission module, display module, control panel. ! 2. The system for remote monitoring of human body temperature according to claim 1, characterized in that the information processing and display unit contains an audio signal reproduction module connected to a microprocessor control module.

Description

This utility model relates to the field of medical technology, namely to devices for monitoring and measuring the temperature of the human body, which can be used both in stationary medical institutions and at home.

There are various methods and devices that implement the measurement of human body temperature.

A device is known - an electronic thermometer (RF patent No. 2073217 published 02/10/1997 G01K 7/00, 7/22). The device contains two temperature sensors, a measuring transducer, a pulse generator, three key elements, a computing unit, a synchronizer, two comparators, a digital delay element, an exclusive OR element, a digital indicator, a range switch, an audio signal generator, an audio signaling device. However, this device does not allow automated control of threshold temperature values, remote monitoring, and there is no digital display to display the current measured temperature.

The following device is also known - a clinical thermometer with a digital and sound display (RF Application for IZ No. 93058504 published on 12/20/1996 G01K 7/00). The thermometer is designed to measure human body temperature. This device receives input signals from the signal processing cascade associated with the sensor, which contains a resistor with a negative temperature coefficient placed in contact with the region of the human body, a signal converter having a resistive-capacitive load circuit, and a microcontroller designed to transmit information from preliminary stages without the need for analog-to-digital conversion, the output of which is connected to a speech synthesizer, which includes filters to eliminate interfering signals, and an amplifying cascade of audio signals for driving an acoustic transducer, for example a loudspeaker, a digital display for displaying measured temperatures. The device also contains connected in a specific IC that processes signals from the probe, a microcontroller and a cascade for processing low-frequency signals supplied to the loudspeaker, while this IC has a speech synthesizer, a measuring circuit, a microcontroller that transmits the corresponding signals to modules with idealized functions formed by this circuit.

The main disadvantage of this device is the impossibility of continuous remote monitoring of the human body temperature without the participation of maintenance personnel, the lack of storage, analysis and retrospective display of accumulated data in the form of graphs and charts.

Closest to the proposed invention is a wearable telecommunications system for monitoring the physiological parameters of a person, including temperature (RF patent No. 91838 published March 10, 2010 A61B 5/05, 5/04). Which consists of a measuring module, designed for location on the human body, including nodes of the removal of physiological parameters, including temperature control; a processor module, consisting of a processor that processes and converts signals, a motherboard used to connect the devices of the measuring module with the processor, a memory card designed to store processed information; an interface module consisting of a monitor on which the received information is displayed, a keyboard including an alarm button, a screen activation button and an activation button for a device, a headset that performs the function of an audio diary of human health and the function of feedback from a doctor; a communication module, including a GSM / GPRS node, used to transmit alarms, a GPS node that determines the location of a person, Wi-Fi and Bluetooth node, transmitting the collected information to any other digital device.

The disadvantages of this complex are the need to place directly on the human body devices for storing, processing and displaying data (processor module, motherboard, monitor, keyboards). The inability to operate the electronic thermometer module in stand-alone mode without additional elements for processing and displaying information as a portable stand-alone device. The inability to carry out continuous continuous monitoring of the temperature of the human body in connection with the use in the system of a large number of energy-intensive components located directly on the human body. This complex does not allow using a single device (computer) as a device for processing, storing and displaying information for storing data of many patients without the use of additional interface and communication elements.

The problem to which the claimed technical solution is directed is to create a system for remote monitoring of the human body temperature, which allows for continuous continuous automated monitoring of the human body temperature, both in the conditions of being in stationary medical institutions and at home for making diagnostic schedules, as well as automated analysis and assessment of the dynamics of changes in body temperature and the use of a single centralized server consolid tion of patients a variety of data without placing it on the human body.

The technical result is the possibility of conducting long-term monitoring, collecting analysis and data processing in an automated mode, operational monitoring of exceeding the permissible temperature thresholds, reducing the influence of the human factor.

The solution to this problem is achieved by the fact that in the remote monitoring system of the human body temperature, including a body temperature control device, a processing unit and information display with a Wi-Fi standard wireless data transmission module. New is the addition of a Wi-Fi router and a data consolidation server that provide wireless data exchange with the information processing and display unit, while the body temperature control device is a single measuring and transmitting module containing a temperature measuring sensor, a processing unit, and information display, which is connected to the temperature measurement sensor by a flexible conductor, while the information processing and display unit contains a microprocessor control module, a wireless module aqueous transmitting Wi-Fi standard data display module, the control panel, except for that processing unit and displaying information comprises audio signal reproducing unit coupled to the microprocessor control unit.

The utility model is illustrated by drawings: figure 1 - figure 3.

Figure 1 - structural diagram of a system for remote monitoring of human body temperature.

Figure 2 - external view of the measuring and transmitting module.

Figure 3 is a functional diagram of a measuring and transmitting module of a system for remote monitoring of human body temperature.

The positions in the drawings indicate: 1 - measuring and transmitting module, 2 - Wi-Fi Router, 3 - Wi-Fi access point, 4 - Router, 5 - data consolidation server, 6 - flexible conductor, 7 - information processing and display unit, 8 - temperature measurement sensor, 9 - microprocessor control module (MMU), 10 - Wi-Fi standard wireless data transmission module (MBPD), 11 - display module, 12 - audio signal playback module, 13 - control panel.

The system for remote monitoring of human body temperature (Fig. 1) includes a measuring and transmitting module 1 with the possibility of transmitting data over a wireless communication channel to a Wi-Fi Router 2, consisting of a Wi-Fi 3 access point and Router 4, and a data consolidation server 5, connected to Wi-Fi Router 2, for example, via a wireless communication channel.

The measuring and transmitting module 1 is an autonomous, portable technical device (Fig. 2), consisting of (Fig. 3) a temperature measuring sensor 8, an information processing and display unit 7, the main elements of which are a microprocessor control module (MMU) 9, connected to a Wi-Fi standard wireless data transmission module (MBPD) 10, an indication module 11, an audio signal reproducing module 12, a control panel 13.

The temperature measurement sensor 8 is connected to the information processing and display unit 7 by a flexible conductor 6 and allows measuring the body temperature in the armpit or the inner side of the forearm, and the information processing and display unit 7 is located on the outside of the forearm and mounted on a special cuff.

The core of the measuring and transmitting module is a microprocessor control module (MMU) 9. It is designed to implement the following functions:

1. Initialization of the parameters of the temperature measurement sensor 8.

2. Initialization of the parameters of the Wi-Fi standard wireless data transmission module (MBPD) 10.

3. Management of the operating modes of the temperature measurement sensor 8 and the start of the temperature measurement process.

4. Reception from the sensor of measurement of temperature of 8 results of measurement of temperature.

5. Correction of temperature measurement results to improve measurement accuracy.

6. Reception of control commands from the buttons of the control panel (PU) 13.

7. Display of temperature measurement results based on the display module (MI) 11.

8. Issuing the command 12 to the audio signal reproducing module when the upper or lower boundary of the threshold set by the software method is reached.

9. Management of the operating modes of the wireless data transmission module 10.

10. Periodically or in manual control mode, the control unit 13 initiates the transfer of temperature measurement results based on the wireless data transmission module 10.

The control panel 13 contains the “Start / Stop” and “Reset” buttons, which are designed to receive manual control commands from the user — respectively, turning the device on or off, as well as rebooting. Indication module 11, is a color liquid crystal display with anti-reflective coating or spraying, visually displays the results of temperature measurement. The audio signal reproducing module 12 is designed to generate sound signals when the measured body temperature is above / below the threshold of critical values specified by software.

The system for remote monitoring of human body temperature works as follows: a portable measuring and transmitting module 1 periodically measures a person’s body temperature through a temperature measuring sensor 8 at least 1 time in 10 minutes. The temperature measurement sensor 8, the parameters of which are initialized by the ММУ 9, upon the command of the ММУ 9, measures the temperature of the human body and transmits the result to the ММУ 9. The wireless data transmission module of the Wi-Fi 10 standard, the parameters of which are initialized by the ММУ 9, transfers the results by the command of the ММУ 9 temperature measurement via a Wi-Fi 10 standard wireless network to data consolidation server 5, via Wi-Fi router 2. Specialized software allows saving monitoring data to an information database, OS Carry out a retrospective analysis, carry out an operational analysis of temperature curves, supports functions for registering and authenticating users in the system in accordance with personal profiles. The system allows in an automated mode to carry out continuous monitoring of temperature without the participation of a person as a controlling subject, monitors body temperature in the Wi-Fi zone, without limiting the movement and location of a person. In automatic mode, it monitors and signals the excess of permissible threshold temperature levels.

The proposed embodiment of the measuring and transmitting module allows simultaneous visual control of the current state of temperature for the patient himself and for the medical staff. Provides unhindered long-term location of the measuring and transmitting module on the human body without the constraint of motor functions of the hand and the need to hold the device.

Claims (2)

1. A system for remote monitoring of human body temperature, including a body temperature control device, an information processing and display unit with a Wi-Fi standard wireless data transmission module, characterized in that a Wi-Fi router and a data consolidation server that provide wireless data exchange are additionally introduced with a data processing and display unit, while the body temperature control device is a single measuring and transmitting module containing a temperature measuring sensor, a processing unit heel and information display which is connected to a temperature sensor measuring the flexible conductor, wherein the processing unit and display control unit comprises a microprocessor, a wireless transmission module Wi-Fi standard, the display module, the control panel. 2. The system for remote monitoring of human body temperature according to claim 1, characterized in that the information processing and display unit comprises an audio signal reproducing module connected to a microprocessor control module.