RU99310U1 - DEVICE FOR ASSESSING THE PARAMETERS OF BIOLOGICALLY ACTIVE POINTS - Google Patents

Abstract

1. A device for assessing the parameters of biologically active points, containing a measuring unit, a cylindrical body, passing from one end into a truncated cone, the small base of which is the working end of the device, a temperature control unit, the sensing element of which is located inside the truncated cone from the side of the working end of the device, and the leads are connected to the measuring block, the winding is coaxially located inside the truncated cone, the leads of which are connected to the measuring block, the waveguide section is located along the body, one end of which is brought into the plane of the working end of the device, and the second is connected to the measuring block, the electrode placed outside body, connected to the measuring unit, characterized in that it is equipped with a pulse generator, a tubular element made of a conductive material with high magnetic permeability, located inside the winding on the axis of the body, with one end of the tubular element brought to the working end of the device, and the second is connected to the pulse generator, and both ends are connected to the measuring unit, and photographic material, sensitive in the radiation range of 150-800 nm, taken out of the case and adjacent close to the working end of the device. ! 2. The device according to claim 1, characterized in that X-ray film is used as a photographic material.

Description

The utility model relates to medical equipment, namely, devices for evaluating the parameters of biologically active points (BAP). By changing the electrical parameters of individual acupuncture points, one can judge the localization of the pathological process, as well as its dynamics during the development of the disease or during treatment.

A device for evaluating the parameters of biologically active points, containing a hollow body, a tubular element, a measuring unit, a power supply unit and a position indicator unit BAT made in the form of a system of electrodes located around the perimeter of the inner cylindrical surface of the front working area of the tubular element and connected to the measuring unit and power supply unit (US Pat. RF N2066177, CL A61H 39/00, 23/00. BI N25, 1996).

However, the device does not allow to judge the localization of the pathological process, as well as its dynamics during the development of the disease or during treatment with a high degree of reliability, because provides an assessment of only one parameter of the skin in the area of BAP - electrical resistance.

Also known is a device for evaluating the parameters of biologically active points, comprising a housing with an axial channel and a temperature sensor (US Pat. RF N2082382, class A61H 39/00, 39/06).

However, the device also does not allow to judge the localization of the pathological process, as well as its dynamics during the development of the disease or during treatment with a high degree of reliability, because provides an assessment of only one parameter - temperature.

There is also known a device for evaluating the parameters of biologically active points (US Pat. USSR N1793937, class A61N 5/06 BI N5, 1993), containing a measuring unit, a cylindrical body passing from one end to a truncated cone, the small base of which is the working end of the device, an electrode, which is a conductive core located along the housing, one end of which is brought into the working end of the device, and the other is connected to the measuring unit, a temperature control unit, the sensitive element of which is placed inside the truncated cone CA from the working end of the device, and the findings are connected to the measuring unit. The device allows you to evaluate two parameters of the BAT - electrical resistance and temperature.

However, this device does not allow to judge the localization of the pathological process, as well as its dynamics during the development of the disease or during treatment with a high degree of reliability, because provides an assessment of only two parameters of a biologically active point - electrical resistance and temperature.

There is also known a device for evaluating the parameters of biologically active points (utility model patent No. 68894, A61H 39/06), which is a prototype, containing a measuring unit, a cylindrical body, passing from one end to a truncated cone, the small base of which is the working end of the device, an electrode , which is a conductive core located along the housing, one end of which is brought into the working end of the device, and the other is connected to the measuring unit, a temperature control unit, the sensitive element of which located inside the truncated cone from the side of the working end of the device, and the conclusions are connected to the measuring unit, a winding coaxially located inside the truncated cone, the conclusions of which are connected to the measuring unit, a section of the waveguide located along the body, one end of which is brought out into the plane of the working end of the device, and the second is connected to the measuring unit. Also, the electrode can be moved outside the housing.

The device allows you to evaluate several parameters of BAP, which allows with a slightly greater reliability to judge the localization of the pathological process, as well as its dynamics during the development of the disease or during treatment, because allows you to more fully characterize the condition of the skin in the BAP area.

However, this device does not allow to sufficiently reliably judge the localization of the pathological process, as well as its dynamics during the development of the disease or during treatment. To obtain a more reliable description of the condition of the skin, it is necessary to analyze the picture of a gas discharge photograph (GRF) of the skin in the BAP area, which is not provided for in this device.

The objective of the utility model is to create a device for evaluating the parameters of biologically active points, which allows to more accurately judge the localization of the pathological process, as well as its dynamics during the development of the disease or during treatment.

This is achieved by the fact that the device for evaluating the parameters of biologically active points, containing a measuring unit, a cylindrical body passing from one end to a truncated cone, the small base of which is the working end of the device, a temperature control unit, the sensitive element of which is placed inside the truncated cone from the side the working end of the device, and the conclusions are connected to the measuring unit, a winding coaxially located inside the truncated cone, the conclusions of which are connected to the measuring unit, about a waveguide cutter located along the housing, one end of which is brought out to the plane of the working end of the device, and the other is connected to the measuring unit, an electrode extended outside the housing connected to the measuring unit is introduced, a pulse generator, a tubular element made of conductive material with high magnetic permeability, located inside the winding on the axis of the housing, with one end of the tubular element displayed in the working end of the device, and the second connected to the pulse generator, and both ends of the pipe chatogo element connected to the measuring unit, and photographic material, which is sensitive in the range of 150-800 nm radiation, made outside the body and closely adjacent to the working end of the device.

Also, X-ray film can be used as photographic material.

The drawing shows the proposed device, which contains a measuring unit (BI 1), a cylindrical body 2, passing from one end to a truncated cone 3, the small base of which is the working end of the device, the temperature control unit 4, the sensitive element of which is placed inside the truncated cone 3 with the sides of the working end of the device, and the conclusions are connected to the measuring unit (BI 1), the winding 5, coaxially located inside the truncated cone 3, the terminals of which are connected to the measuring unit (BI 1), the wavelength yes 6, located along the housing 2, one end of which is brought out to the plane of the working end of the device, and the second is connected to the measuring unit (BI 1), an electrode (E 7), taken outside the housing 2, connected to the measuring unit (BI 1), a pulse generator (GI 8), a tubular element 9 made of a conductive material with high magnetic permeability, located inside the winding 5 on the axis of the housing 2, one end of which is brought into the working end of the device, and the second is connected to a pulse generator (GI 8), moreover both ends of the tubular About element 9 are connected to the measuring unit (BI 1), and photographic material 10, sensitive in the radiation range of 150-800 nm, is taken out of the housing 2 and adjacent to the working end of the device. As photographic material 10, an x-ray film may be used.

The pulse generator (GI 8) is made according to the scheme of a high-voltage converter based on an inductive energy storage [Shustov MA, Protasevich ET Theory and practice of gas discharge photography. - Tomsk: Tomsk Publishing House, Polytechnic. University, 2001. - 252 s].

The measuring unit (BI 1) is made according to the scheme of the prototype device and contains nodes for measuring electrical resistance to direct and alternating current, potential of direct and alternating current at low frequencies, potential at high frequencies, temperature, magnetic induction of direct and alternating magnetic field, display unit, power supply .

The device operates as follows.

Before work, the working end face of the device is wiped with a disinfectant solution, supplied to the BAP and the following BAT parameters are evaluated sequentially (or selectively in parallel):

- electrical resistance to direct and alternating current using an electrode (E 7), a tubular element 9 and a measuring unit (BI 1),

- potential constant and variable at low frequencies using an electrode (E 7), a tubular element 9 and a measuring unit (BI 1),

- potential at high frequencies using the length of the waveguide 5 and the measuring unit (BI 1) (the length of the waveguide 6 acts in this case as an antenna),

- temperature using the temperature control unit 4 and the measuring unit (BI 1),

- magnetic induction of an alternating magnetic field using winding 5 and a measuring unit (BI 1) (under the influence of a magnetic field, a measured emf is induced in the winding 7, which is converted into units of magnetic field induction by the measuring unit (BI 1),

- magnetic induction of a constant magnetic field using a tubular element 9, a winding 5 and a measuring unit (BI 1) (in this case, an alternating current at a frequency of 80 kHz is passed through the tubular element 9 (NN Zatsepin, VG Gorbash. Flux-gate transducers with transverse excitation. Minsk: Science and technology. 1988))

as well as obtaining a GRF picture of the skin in the BAP region using a pulse generator (GI 8), a tubular element 9 and photographic material 10. Gas discharge occurs between the tubular element 9 and the skin surface in the BAP region and is recorded by the photographic material 10.

The picture of a gas discharge arising between the electrode and the skin, assesses the presence, absence or development of the pathological process of a particular organ [Boychenko A.P. Shustov M.A. The basics of gas discharge photography. - Tomsk: STT, 2004. - 316 s].

The device allows you to register images of a gas discharge on the surface of the investigated object on photographic film or other photographic material. For this, the photographic material is placed between two electrodes, and the studied object serves as one of them. When the pulse generator (GI 8) is turned on and when the BAP and the electrode (tubular element 9) are coated with a dielectric film (photo material 10), the electric discharge occurs. The discharge glow is recorded by the recording material (photo material 10). The characteristics of the state of the surface influence the discharge pattern: object structure, density, humidity, potential, etc., which depends on the state of a particular organ. The discharge is low current (less than 10 μA / cm ² ), therefore - safe for humans.

The technical result obtained from the use of the proposed utility model is that the device allows to obtain more complete information characterizing the condition of the skin in the BAP region by introducing a pulse generator, a tubular element and photographic material, providing a picture of the GRF of the skin in the BAP region . By changing the picture of the GRF BAT — the presence of glow breaks, streamers, and the appearance of dots — one can judge the state of the corresponding human organ, the localization of the pathological process, and its dynamics during the development of the disease or during treatment. The imperfection of methods for assessing the electrical and physical parameters of the skin in the BAP area, their dependence on diverse, often random, factors do not allow us to judge with sufficient reliability the state of any organ according to the evaluation of one of the BAP parameters or a group of points.

Upon receipt of additional information on the GRF BAT picture, which is highly dependent on the presence, absence or development of the pathological process of a particular organ, the reliability of the diagnosis increases.

Thus, the proposed device allows you to more fully characterize the condition of the skin in the area of the BAP due to the introduction of a node that provides a picture of the GRF of the skin in the BAP, and, therefore, with greater reliability allows us to judge the localization of the pathological process, as well as its dynamics when the development of the disease or during treatment.

Claims (2)

1. A device for evaluating the parameters of biologically active points, containing a measuring unit, a cylindrical body passing from one end to a truncated cone, the small base of which is the working end of the device, a temperature control unit, the sensitive element of which is placed inside the truncated cone from the side of the working end of the device, and the conclusions are connected to the measuring unit, the winding coaxially located inside the truncated cone, the conclusions of which are connected to the measuring unit, the length of the waveguide, position married along the housing, one end of which is brought out into the plane of the working end of the device, and the other is connected to the measuring unit, an electrode extended outside the housing, connected to the measuring unit, characterized in that it is equipped with a pulse generator, a tubular element made of conductive material with high magnetic permeability located inside the winding on the axis of the housing, with one end of the tubular element displayed in the working end of the device, and the second connected to the pulse generator, and both ends and connected to the measuring unit, and a photographic material sensitive to radiation between 150-800 nm, made outside the body and closely adjacent to the working end of the device. 2. The device according to claim 1, characterized in that the x-ray film is used as the photographic material.