RU7828U1 - REMOTE MEDICAL MONITORING DEVICE - Google Patents

Abstract

1. A remote medical monitoring device containing at least one subscriber unit, including data transmission equipment connected in series with a bandpass filter of overtone frequencies, and a telephone set in series connected with a bandpass filter of low frequencies, a data center, including a band an overtone filter, a telephone connected in series with a low-pass bandpass filter, and a computer, wherein the subscriber unit is connected to the data processing center via a telephone communication channel, characterized in that a frequency mixer is introduced into each subscriber unit, and the data transmission equipment is made in the form a serial connection of a biosignal sensor, a bioamplifier and an amplitude-frequency converter, the output of a bandpass overtone filter is connected to the first input of a frequency mixer, the second input of which is connected to a bandpass low-pass filter, and the output of the frequency mixer is the output of the subscriber unit, a frequency-amplitude a converter and a frequency selector, the input of which is the input of the data processing center, the output of the overtone signal of the frequency selector is connected to the computer input through a series-connected bandpass overtone filter and a frequency-amplitude converter, and the low-frequency output of the frequency selector is connected to a low-pass bandpass filter. The device according to claim 1, characterized in that the subscriber unit is structurally placed inside the handset of the telephone, and the biosensor is installed on the outer surface

Description

REMOTE MEDICAL DEVICE

MONITORING

The technical field to which the utility model relates. This utility model relates to the field of medical diagnostics and can be used in monitoring systems for the physiological state of a person.

A known medical monitoring system comprising a group of medical monitoring devices, two groups of distribution posts connected by a telephone wire line, and a group of monitoring equipment systems for information analysis (PCT Application WO No. 97/12474, class N04M 11/00). The disadvantage of this system is its complexity, which allows it to be used only in stationary medical institutions.

The closest in technical essence to the proposed utility model is a device for transmitting data through an automatic telephone exchange (PBX), containing at least one subscriber unit and a data center, which include equipment for transmitting (receiving) data, bandpass filters for natal and low frequencies and telephone sets (USSR Author's Certificate No. 438133, class N04M 11/00, 1973). The disadvantage of this device is that the organization of a natal communication line for the transmission of additional information requires the introduction of an additional switch in the telephone exchange, which prevents the use of this device where the completion of the automatic telephone exchange is impossible.

MPK6 А61В 5/04, Н04М 11/00 о The essence of the utility model The technical result of the proposed utility model is the expansion of its functionality through remote medical monitoring using any telephone communication channel. This result is achieved by the fact that in a remote medical monitoring device containing at least one subscriber unit, including data transmission equipment connected in series with a bandpass filter of the natal frequencies, and a telephone set, connected in series with a bandpass filter of low frequencies, a data processing center including a band-pass filter of natal frequencies, a telephone set connected in series with a band-pass filter of low frequencies, and a computer, and The power unit is connected to the data center via a telephone communication channel, a frequency mixer is introduced into each subscriber unit, and the data transmission equipment is made in the form of a serial connection of a biosignal sensor, a bio amplifier and an amplitude-frequency converter, the output of a band pass filter is connected to the first input of the frequency mixer, the second input of which is connected to a low-pass bandpass filter, and the output of the frequency mixer is the output of the subscriber unit, entered the data center us chastotnoamplitudny converter and a frequency selector having an input is the input of the data center, the output signal of the frequency selector supersonic via series connected bandpass filter and supersonic chastotnoamplitudny converter is connected to the input of the computer, and the low-frequency output of the frequency selector is coupled to a band pass filter low frequencies.

The ability to implement a utility model

The device for remote medical monitoring contains at least one subscriber unit 1, which includes a biosignal sensor 2 connected in series, a bio-amplifier 3, and an amplitude-frequency converter 4, the output of which is connected through a band pass filter 5 to the first input of the frequency mixer b, the second input of which is through a band-pass filter 7 low frequencies is connected to the telephone 8 of the subscriber unit 1, and the output of the frequency mixer 6 is connected via a telephone channel 9 to the input of the center 10 data channels, which is the input of the frequency selector 11, the output of the natal signal through a series-connected bandpass nadal filter 12 and the frequency-amplitude converter 13 is connected to the input of the computer 14, and the low-frequency output of the frequency selector 11 through the bandpass filter 15 is connected to the telephone 16 data processing center 10, and the telephone communication channel 9 can be made both wired and wireless, and the biosignal sensor 2 can be structurally placed, for example, on the external surface of the portion of the handset between the microphone and the telephone, where it is covered by the palm of the subscriber.

The device operates as follows.

After establishing a telephone connection between, for example, telephones 8 and 16, the biosignal sensor 2, located on the telephone receiver of the apparatus 8, starts to take biosignals from the subscriber’s hands, which, after amplification by the bio-amplifier 3, are converted into a supratonal frequency signal by the transducer 4 and through the band pass overtone filter 5 in the frequency mixer 6, the output of which information about the physiological state of the subscriber enters the telephone channel 9 without interrupting the telephone tonal communication. The total signal suphonal and low frequencies is transmitted to the input of the frequency selector 11,

where it is divided into a low-frequency tone signal, which through a band-pass filter 15 enters the telephone 16, and a nadton signal, which carries information about the physiological state of the subscriber. This signal, passing through the band-pass filter 12, is converted into an amplitude form in the converter 13 and enters the computer 14.

The possibility of constructive placement of the elements of the subscriber unit 1 in the handset of the apparatus 8 allows you to use for remote medical monitoring equipment as a wired telephone, and wireless mobile devices.

Claims (4)

1. A device for remote medical monitoring, comprising at least one subscriber unit, including data transmission equipment connected in series with a bandpass filter of the natal frequencies, and a telephone set, connected in series with a bandpass filter of low frequencies, a data center, including a strip a natal frequency filter, a telephone set connected in series with a low-pass bandpass filter, and a computer, the subscriber unit being connected to the processing center by means of a telephone communication channel, characterized in that a frequency mixer is introduced into each subscriber unit, and the data transmission equipment is made in the form of a serial connection of a biosignal sensor, a bio-amplifier and an amplitude-frequency converter, the output of a band pass filter is connected to the first input of the frequency mixer, the second input which is connected to a low-pass bandpass filter, and the output of the frequency mixer is the output of the subscriber unit, frequency-amplitude the inverter and the frequency selector, the input of which is the input of the data processing center, the output of the overtonal signal of the frequency selector is connected to the computer input through a series-connected bandpass filter and the frequency-amplitude converter, and the low-frequency output of the frequency selector is connected to the low-pass bandpass filter.  2. The device according to claim 1, characterized in that the subscriber unit is structurally placed inside the telephone handset, and the biosensor is installed on the outer surface of its section between the microphone and the telephone.  3. The device according to claim 1, characterized in that a standard wired telephone line is used as a telephone communication channel.  4. The device according to claim 1, characterized in that the standard wireless mobile telephone service is used as a telephone communication channel.