RU2119294C1 - Urethroscope - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: urethroscope is used for examination of magnified picture, diagnostics and treatment of diseases of urethra internal surface when filed of vision is illuminated by "cold light". Urethroscope has fiber light guide which protects tube from heating. Urethroscope also has optical head, accumulator handle with storage battery and four changeable tubes with obturators. Optical head includes light source in the form of small-size halogen lamp, fiber light guide and eyepiece. Optical system of eye-piece uses lens telescopic Galileo system with visible X1.3 eyepiece which is capable of moving relative to objective along optical axis for focusing of picture of urethra internal surface. Changeable tubes of urethroscope are of four standard sizes selected by Scharier scale. Urethroscope is supplied from 220 V mains. It is also provided with autonomous supply from accumulator handle containing storage battery which may be recharged from charging device. EFFECT: safe diagnostics, enhanced reliability. 2 cl, 3 dwg

Description

 The invention relates to medical equipment, namely to urethroscopes and can be used to examine an enlarged image, diagnose and treat diseases of the inner surface of the urethra (urethra) when illuminating the field of view with a "cold" light.

 Known urethroscope containing a cylindrical tube and a magnifier, mounted on a holder, and a light source. (Endoscopic devices for urology, Moscow: TsBNTI Medprom, 1976, p. 18, 19-20).

 The disadvantage of such urethroscopes is that it is necessary to alternate the insertion and removal of the bulb mounted at the end of the lamp holder and the obturator through the tube during the diagnostic process, as a result of which the bulb comes into contact with the tube walls, the lamp is not fixed in the lamp holder, which leads to burnout lamps, which reduces the reliability of the known urethroscope and complicates the diagnosis.

 In addition, the introduction of a tube with a shutter into the urethra leads to tissue injury by the last end of the tube, since its working end in practice (due to the need to insert a bulb with a lamp holder) has sharp edges that cause increased trauma after removing the shutter.

 A urethroscope is known that contains a cylindrical tube, a magnifier mounted on the holder, and a light source in which the tube is a fiber, the bevel is made on its working end, and diffraction gratings are made on the inner wall of the tube opposite its inlet and on the outer wall of the tube, and the light source is located on the outer wall of the tube at the location of the diffraction grating. The tube is a light guide made of a material that provides light canalization, for example, glass, organic glass and quartz glass, and the diffraction gratings located on it serve to introduce and remove the light flux (Auth. Certificate. USSR N 1011110, A 61 B 1 / 30, published in Bulletin N 14 of 04/15/83).

 As a prototype, a urethroscope was selected that contains an optical head equipped with a fiber optic fiber, a cylindrical tube and an eyepiece; there is a bevel at the working end of the electric tube, the edges of which are wired (DE, 3912797, C1, A 61 B 1 / 30,1990).

 The disadvantage of such urethroscopes is the heating of the tube, which occurred when placing incandescent lamps on the outer wall of the tube as a light source.

 The objective of the invention is the creation of an urethroscope having a lighting system that eliminates the heating of the tube, which took place earlier when using incandescent lamps.

 The problem is solved in that the urethroscope has a fiber light guide, which ensures the exclusion of tube heating. The optical scheme of the eyepiece uses a Galilean lens telescopic system (tube) with a visible magnification of the eyepiece 1, 3 times and the ability to move the eyepiece relative to the lens along the optical axis. Replaceable cylindrical tubes of the urethroscope make up a set of 4 sizes (18.21, 24, 27), selected on the Charrier scale. The size of the light diameter of the fiber is 3 mm, based on the provision of illumination of half the minimum diameter of the trunk of the tube. A small-sized halogen lamp is used as a light source. Moving the eyepiece relative to the lens along the optical axis provides the ability to focus the image of the inner surface of the urethra.

 The urethroscope has universal power from the 220 V network and autonomous power from the battery handle, inside of which there is a battery with the possibility of recharging from the charger.

 In FIG. 1 shows a diagram of an urethroscope; in FIG. 2 - scheme of the tube; in FIG. 3 is a diagram of a shutter.

 The urethroscope (Fig. 1) contains an optical head 1, a battery handle 2, a replaceable cylindrical tube 3, an eyepiece 4. A light source (not shown) is made in the cylindrical cavity of the optical head 1, made in the form of a small-sized halogen lamp (for example, MNG- 3,5 / 2,5), which enters with its protrusion at the bottom of the lamp housing into the groove on the end surface of the cylindrical cavity. The cylindrical cavity passes into the optical fiber 6, the length of the protruding part of which is 140 mm The optical diameter of the optical fiber 6 is selected to be 3 mm, based on providing illumination of half the minimum diameter of the tube 3. The battery handle 2 contains an adapter sleeve (not shown in the drawing) for connecting to the optical head with a battery switch of three series-connected batteries (for example, 3 NKHZ 1 , 2-1), a nut with a spring for fixing the battery. The eyepiece 4 is made (not shown in the drawing) structurally from the eyepiece itself, consisting of a lens in the body with an external thread and a plastic figured tube for observation and a lens in the lens body with an internal thread into which the threaded part of the eyepiece is screwed, with the possibility of focusing the image along the axis eyepiece and lens.

 The optical system of the eyepiece uses a Galilean lens telescopic system (tube) with a visible magnification of the eyepiece 1.3 times and the ability to move the eyepiece relative to the lens along the optical axis.

 The eyepiece casing 4 is equipped with a figured guide pin 5 for connecting to the hole of the optical head 1 and secured therein with a lateral clamping screw with a cylindrical head having a notch for the convenience of attaching the eyepiece 4 along the optical axis of the urethroscope. On the body of the optical head 1, under the protruding part of the fiber 6, there is a hole with a clamping screw and a cylindrical protrusion 7, respectively, for fastening and fixing with a cylindrical tube 3.

 The design of the tubes (Fig. 2) is a set of 4 hollow cylindrical trunks with an inner diameter selected on the Charlier scale (18, 21, 24, 27). On the one hand, the cylindrical tube 3 has a round flange 8 with an external guide pin 9 (pin), which serves, respectively, for fastening and fixing when mating with the optical fiber 6 of the optical head 1 of the urethroscope. At the working end of the tube, a bevel 10 is made, the edges of which are zawed. The shape and geometric dimensions of the bevel 10 are selected in such a way as to ensure patient injury and fix the position of the obturator 11 inserted into the tube 3 (its protruding part), forming a smooth transition of the obturator - tube. The obturator 11 (figure 3) is designed for painless insertion of the tube 3 into the urethra. Structurally, it is a thin round rod (to reduce weight) with two cylindrical thickenings at the ends with a diameter corresponding to the inner diameter of the cylindrical tube. One end side of the shutter ends with a hemisphere 12 and is inserted into the tube 3, the other has a thickening in the form of a handle 13 for introducing and removing the shutter 11 from the tube 3. The working length of the barrel of the tubes 3 of all diameters is 151 mm.

 Tubes 3 and shutters 11 have high corrosion resistance and resistance to biological fluids and tissue secretions, non-toxic, made of high quality alloy steel (for example, 12X18H9T).

 The composition of the urethroscope may include a set of medical instruments used in the process of diagnosis and treatment of urethral diseases. The instruments are a set of four cylindrical rods made of high-quality alloy steel, with a diameter of less than 0.5 from the caliber of the tubes 3. On one side, the rods have a bulge in the form of a handle for inserting and removing the instrument into the urethra through the tube. At the working end of the rod there is a screw part, on which cotton wool is screwed for sterilization in the process of diagnosis and treatment of urethral diseases.

 The design of the urethroscope provides universal power from the 220 V network using the mains handle and autonomous power from the battery handle.

 Visual examination of the patient using an urethroscope is carried out as follows.

 An obturator 11 of a selected diameter is inserted into the corresponding tube 3, and then the tube 3 is inserted into the urethra of the patient. After the introduction of the tube 3, the obturator 11 is removed, a fiber light guide 6 is inserted into the tube and the light supply is turned on. The enlarged image of the inner surface of the urethra is focused by moving the eyepiece 4 along the optical axis (by rotating the plastic figured tube) and the patient is examined.

 A viewing urethroscope with a fiber waveguide is intended for use in medical institutions, intensive care units and emergency rooms, emergency medicine, the home doctor service, and field medicine.

Claims (1)

 A urethroscope containing an optical head equipped with a fiber optic waveguide, a cylindrical tube and an eyepiece, wherein a bevel is made on the working end of the cylindrical tube, the edges of which are wired, characterized in that a light source is provided inside the optical head, equipped with a fiber light guide protruding from the cylindrical part of the optical head the casing of which is provided with a cylindrical protrusion, in which a hole is made with a clamping screw and the possibility of introducing a shutter into the cylindrical tube, while The second tube is interchangeable and is a hollow tube with an inner diameter selected on the Charrier scale, and has a round flange on which there is a guide pin for docking with a cylindrical protrusion, and the obturator is made in the form of a thin round rod with two thickenings at the ends and with a diameter corresponding to the inner diameter of the tube, and at the working end the thickening is made in the form of a hemisphere, and on the other - in the form of a handle with the possibility of fixing it in a cylindrical tube, in addition, to the hole in the optical ovke figure via the guide pin secured okulyator movably along the optical axis of the urethroscope.

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