SU1266548A1 - Apparatus for h.f. and s.h.f. therapy of tubular bones - Google Patents

Description

The device relates to medical technology, namely to the UHF apparatus of the decimeter and centimeter ranges, and can be used for rectal and vaginal physiotherapy. The aim of the invention is to improve the accuracy of localization of exposure due to the concentration of radiation outside the helix. 1 shows an emitter without an internal rod (quarter-wave resonator); figure 2 - emitter with an internal rod (half-wave resonator). The emitter contains a spiral 1 made of a conductor of arbitrary cross section (for example, copper pin), and a helical groove cut to the size of the conductor on (the surface of cylinder 2, made by Voro from a dielectric with low high-frequency losses. (For example, fluoroplastic). One end the helix 1 is connected to the metal case 3 and 2-3 times from the end is connected to the loop A of the connection, which in turn is connected to the electrode 5. The electrode 5 forms a coaxial path together with the metal case 3. The other end of the helix 1 is not closed ut (in the case of a quarter-wave resonator). The design of the electrode 5 shown in Fig. 2 is characterized by the presence of a metal rod 6 passing along the axis of the helix. One end of the helix 1 is connected to the metal body 3, the other END of the helix 1 is closed on the metal rod 6 ( in the case of a half-wave resonator). A metal disk 7 is used as a clamping bridge. Outside the helix 1 is covered with a dielectric cap 8 (for example, from fluoroplastic), screwed onto a metal case 3. At the end of the body 3 dard coaxial input 9 of the connections to the coaxial path about razovannym electrode 5 and the body ' s coaxial tract can be effected either by whether ne 4, closing several spiral coils 1 as shown in FIG. ; or by connecting the electrode 5 with a metal rod 6, as shown in FIG. 2. The device works as follows. Electromagnetic oscillations of a fixed frequency are supplied from a generator (not shown) to coaxial input 9, then along a coaxial path formed by electrode 5 and housing 3, through a communication device (for example, loop 4) to a resonator formed either by coil 1 or coil 1 and rod 6. The connection between helix 1 and the generator is chosen such that the Q of the resonator without an external load is not less than five. Electromagnetic oscillations excited in the resonator are partially absorbed in the tissue surrounding the resonator, and the main part of the energy is absorbed by two-thirds of the cavity length from its open end (in the case of a quarter-wave resonator) or two-thirds of the resonator's length in the middle part of it. resonator). The depth of penetration of the electromagnetic field is of the order of two-thirds of the length of the resonator, but not more than the depth of penetration of the field into the tissue of the body at the operating frequency. The resonator geometry (length 1, pitch h, average radius b of helix 1, width p and thickness W of conductor helix 1, radius d of dielectric cap 8) is selected as follows. The resonator length should be equal to half or quarter (depending on the type of resonator chosen) slow wave length B t 1 4 A quarter-wave resonator is selected when you need to receive it. : greater penetration depth. The length of the slow wave, L, is chosen so that the length of the resonator 1 exceeds the length of the working section by one third. This is explained by the fact that the electric field of the resonator is distributed over the cosine from the end of the quarter-wave resonator and from the middle of the half-wave resonator. At a distance of two-thirds of the maximum, the electric field is halved. Such a decrease can be considered marginal. The outer radius of the resonator d is chosen typical of rectal or vaginal electrodes (1-2 cm). The ratio of the outer radius d to the radius b of the helix 1 is from

Claims (1)

Claim A device for high-frequency and ultra-high-frequency therapy of tubular organs, comprising a housing with an emitter placed therein, made in the form of a resonator connected to a coaxial power cable, characterized in that, in order to improve the accuracy of localizing the impact, the emitter is made in the form of a cylindrical spiral from a ribbon conductor, moreover, the housing is connected to the beginning of the spiral emitter, and the coaxial input is connected to one of the subsequent turns. FIG. 2