RU2126646C1 - Medical fibroendoscope - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: fibroendoscope is used to agnose diseases of hollow organs and ducts of man and animals. Fibroendoscope has only one light-guide observation channel in the form of fiberoptical line. Illumination channel is made as semiconductor radiator positioned on working end of flexible probe. It makes flexible probe rotate through 360 deg. If flexible probe contains only one observation channel without illumination channel diameter of fiberoptical line may be considerably reduced, thus decreasing its mass as a whole and facilitating fibroendoscope manipulation. EFFECT: improved design. 4 cl, 3 dwg

Description

 The invention relates to devices for diagnosing diseases of hollow organs and ducts of humans and animals, and more particularly to medical fibroendoscopes.

 Medical fibroendoscopes are known that contain two light guide channels in a flexible probe, one for illumination, another for observation, and made in the form of fiber optic lines, and an instrumental channel for introducing instruments and medicinal fluids into the test cavity. The light guide light channel, in turn, has an additional lateral light guide channel connected to a power supply unit with a lamp. A probe bending control mechanism and a lens system for observing internal cavities through a light guide channel are located in the body of the fibroenoscope.

 Closest to the invention in technical essence is a fibroendoscope company "ASAHI OPTICAL Co. LTD." - Tokyo: Japan, "Pentax fiberscope for broncho". Printed in Japan 1992. 8. D. 1,500, Maeno-cho 2-36-9, Itabashiku, Tokyo, Japan, having the above design features.

 A disadvantage of this type of fibroendoscopes is the large diameter of the flexible probe, due to the need to place two fiber-optic lines in the flexible probe, and the reduction in their diameter is limited by the light and optical characteristics of the lighting and observation channels. A sufficiently large mass of the fiber endoscope is determined by the presence of a lateral light guide channel, which in turn limits the possibilities of manipulation and virtually eliminates rotational movements with a flexible probe. In addition, the binding of a power supply with a lighting lamp to a stationary network makes it difficult to use a fiber endoscope in the field.

The aim of the invention is to reduce the diameter of the flexible probe, reducing the mass and facilitating the manipulation of the fiber endoscope with a rotation of 360 ^o .

This goal is achieved in that the fiber endoscope has only one optical fiber observation channel in the form of a fiber optic line, and the illumination channel is made in the form of a semiconductor emitter located on the working end of the flexible probe and has the ability to perform rotational movements with a flexible probe 360 ^o , and the emitter is powered produced by two microwires located in the probe or as one of the wires supplying voltage to the semiconductor emitter, the instrument channel is used, or rods and control the bending of the probe. In this case, an external low-voltage source or autonomous batteries connected in parallel or in series and placed in the fiber-optic housing can be used to power a semiconductor emitter. In addition, the semiconductor emitter may be provided with a lens for concentration of the light flux, and the number of such emitters may be one or more.

 In FIG. 1 shows a general view of a fiber endoscope, FIG. 2 is a view 1, in FIG. 3 - view A. It consists of a housing 1, in which a system of lenses for observation 2 is located, a control mechanism for the bend of the probe 3, autonomous batteries 4, an input 5 of the instrument channel 8, a flexible probe 6 connected to the housing 1, a light guide channel 7 , a semiconductor emitter 9, power wires 10, a lens 11, a second emitter with a lens 12.

 Work with the proposed fibroendoscope is no different from working with well-known fibroendoscopes. A flexible probe is introduced into the channel under study, while the illumination of the channel cavity is provided by a semiconductor emitter, and observation through the fiber optic channel through a lens system.

The proposed fibroendoscope uses a silicon carbide semiconductor emitter with a crystal size of 0.5 x 0.5 mm, the rest of the elements are standard. The emitter was powered by a 12 V dry cell battery. The mass of the fibroendoscope according to the invention is reduced by about 20%, and the work with the fiber endoscope was significantly facilitated, it became possible to rotate with a flexible probe 360 ^o , which, when the instrument channel is autumn-symmetrical, allows more accurate delivery of instruments to the organ under study.

Claims (4)

1. Medical fibroendoscope, made in the form of a flexible probe containing channels, characterized in that it has only one fiber-optic fiber-optic observation channel, and the illumination channel is made in the form of a semiconductor emitter located on the working end of the flexible probe with the possibility of making rotational movement flexible probe 360 ^o, wherein the emitter is powered by two microwires disposed in the flexible probe light channel or as one of the wires of supply voltage to the semiconductors kovomu emitter used instrument channel or bend the probe control rod.  2. The fiber endoscope according to claim 1, characterized in that the semiconductor emitter is equipped with a lens.  3. The fiber endoscope according to claim 1, characterized in that at the end of the flexible probe there are two or more semiconductor emitters connected in parallel or in series and powered from a single voltage source.  4. The fiber endoscope according to claim 1, characterized in that the power of the semiconductor emitter is carried out from an external source or autonomous elements located in the body of the fiber endoscope.

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