RU85809U1 - DEVICE FOR DIAGNOSTICS OF THE STATE OF BIOLOGICAL OBJECTS - Google Patents

Abstract

1. A device for diagnosing the state of biological objects, containing a sensor device, a computer and a signal processing device, as well as an interface, an analog-to-digital converter (ADC) and a switch, characterized in that a microammeter is introduced into the signal processing device, the input of which is connected to the output of the switch , and the output with the ADC input, while the sensor device contains at least two measuring electrodes made of dissimilar metals. ! 2. The device for diagnosing the state of biological objects according to claim 1, characterized in that the input of the switch is connected to the output of the sensor device, and the computer is connected to the signal processing device through an interface, and the input of the interface is connected to the output of the ADC, and the output of the interface is connected to the second input of the switch.

Description

The utility model relates to diagnostic tools and can be used in medicine and healthcare.

Known devices for diagnosing the state of biological objects based on the measurement of electrical resistance (conductivity) of individual sections of the skin [1]. For example, Foley diagnostics is based on measuring the conductivity (in arbitrary units) of a meridian section and the dynamics of establishing current at acupuncture points. In this case, weak direct currents (up to 1.5 μA) and voltages (up to 1.5 V) are used. The smaller the magnitude of the used currents and voltages, the more accurate the diagnosis.

A device for measuring the energy parameters of acupuncture points of biological objects [2], containing active and passive electrodes, a stabilized source of electrical energy, a current-voltage converter, amplifier, indicator and device for sampling and storage of the analog signal. However, this device has a low diagnostic accuracy due to the influence of the active electrode. The functionality of the device is also limited due to the fact that it is impossible to simultaneously measure at several points of the object. In addition, there is no possibility of connecting to a computer device that allows for automatic analysis of the results.

The closest technical solution in terms of technical nature and the achieved result to the proposed utility model is a device for diagnosing the state of biological tissue [3], which contains a sensor device, a signal processing device and a computer. In this case, the signal processing device contains analog-to-digital and digital-to-analog converters, a switch, an interface and a timer, and the sensor device contains at least two pairs of electrodes and two reference resistors. However, this solution has a complex structure of a signal processing device and a sensor device.

The proposed utility model is aimed at simplifying the design while maintaining high quality diagnostics. The technical result is achieved by the fact that instead of a digital-to-analog converter and a timer, a microammeter is included in the signal processing device, and the sensor device is simplified and consists of only measuring electrodes made of dissimilar metals. When electrodes are connected to a biological object, a contact potential difference arises between them, and an additional source of electrical energy is not required. When connecting the electrodes to the microammeter located in the signal processing device, a current will flow in the circuit, the value of which characterizes the state of the biological object. Due to the fact that the contact potential difference does not exceed tenths of a volt, a high diagnostic quality is achieved.

Figure 1 schematically presents a utility model.

Designations of the positions in figure 1:

1 - sensor device;

2 - signal processing device;

3 - computer;

4 - interface;

5 - analog-to-digital Converter (ADC);

6 - switch;

7 - microammeter.

The diagnostic device for the state of biological objects consists of a sensor device, a signal processing device and a computer.

The sensor device contains electrodes made of dissimilar metals (for example, copper - silver), with the possibility of their installation on a biological object, and is connected by wires to a signal processing device containing an interface, an ADC, a switch, a microammeter. The signal processing device is an electronic device located in a plastic case, and is connected via an interface to a computer.

The operation of the device for diagnosing the state of biological objects is as follows.

The measuring electrodes of the dacha device are installed at the corresponding points of the biological object. According to the diagnostic program, a command is sent from the computer through the interface to the switch to connect the necessary electrodes to the microammeter. The magnitude of the current flowing in the formed circuit depends on the state of the object and is measured by a microammeter. Then, through the ADC and the interface, the measurement result is sent to a computer for storage and analysis.

Information sources:

1 D.M. Tabeeva. "Guide to acupuncture." Moscow, "Medicine", 1982

2 Utility Model Patent RU No. 30549, IPC A61B 5/053, A61H 39/02, 2003

3 Utility Model Patent RU No. 32381, IPC A61B 5/053, 2003

Claims (2)

1. A diagnostic device for the state of biological objects, containing a sensor device, a computer and a signal processing device, as well as an interface, an analog-to-digital converter (ADC) and a switch, characterized in that a microammeter is introduced into the signal processing device, the input of which is connected to the output of the switch and an output with an ADC input, while the sensor device contains at least two measuring electrodes made of dissimilar metals. 2. The diagnostic device for the state of biological objects according to claim 1, characterized in that the input of the switch is connected to the output of the sensor device, and the computer is connected to the signal processing device via an interface, the input of the interface connected to the output of the ADC and the interface output to the second input of the switch.