RU178750U1 - Fiber optic tool - Google Patents

Abstract

The utility model relates to medical equipment, namely to devices and devices for conducting minimally invasive laser surgical operations in various fields of surgery, and can be used, for example, in proctology, otorhinolaryngology, general surgery and other fields. The objective of this utility model is to create a simple fiber - an optical instrument and a simple standardized interchangeable tip for it, convenient from the point of view of observing sterility conditions, preferably compatible with a standard medical instrument for subcutaneous or intravenous or intracorporeal manipulations. The task in the fiber-optic instrument containing a trunk fiber, a housing with a lens, a first optical connector for connecting a trunk fiber, a second optical connector for connecting a replaceable tip and a replaceable tip including a sleeve and an output the optical fiber mounted in the sleeve along its axis is solved due to the fact that the second optical connector is made with a conical protrusion with a through qi indricheskim hole along its longitudinal axis, and a removable tip sleeve is provided with longitudinal tapered bore for mounting on a conical projection of the second connector.

Description

The utility model relates to medical equipment, namely to devices and devices for conducting minimally invasive laser surgical operations in various fields of surgery, and can be used, for example, in proctology, otorhinolaryngology, general surgery and other fields.

Known fiber-optic tool [1], containing a replaceable nozzle, including a smooth cylindrical flask and an output fiber, the locking mechanism, represented by a collet with one clamping area and a cylindrical nut, a standardized optical connector, the main fiber. The locking mechanism is represented by a collet with one clamping zone and a cylindrical nut. Fastening the interchangeable nozzles in the fixing mechanism is as follows: the interchangeable nozzle is inserted into the collet until the ends of the output and main optical fibers contact, and then it is fixed by tightening the cylindrical nut on the collet until it stops. Optical communication between the output and trunk fibers is realized through direct contact of the ends of the output and trunk fibers.

The disadvantages of this device are: the lack of the ability to quickly replace nozzles; the possibility of thermal damage to the optical fibers due to contamination of the direct contact of the ends of the output and main optical fibers; the possibility of mechanical damage to the optical fibers during manipulations with interchangeable nozzles; the possibility of contamination of the inner surface of the cylindrical nut due to the presence of a gap between the output light guide and the cylindrical nut; the possibility of contamination of the inner cavity of the collet due to the penetration of unwanted particles through the slots of the collet; the absence of a housing caused by a feature of the locking mechanism, which consists in the need for access to the locking mechanism in order to tighten the cylindrical nut; the possibility of non-observance of the distance between the ends of the output and main optical fibers specified when the replaceable nozzle is inserted into the collet while tightening the cylindrical nut on the collet until it stops, because it is necessary to perform three simultaneous manipulations with the tool: hold the locking mechanism, hold the interchangeable nozzle and tighten the cylindrical nut with the force on the collet.

The closest to both the claimed tool and the declared replaceable tips are the devices described in the patent of Belarus for utility model No. 10364 [2]. The known device is a fiber-optic instrument with interchangeable nozzles, containing a main fiber, a standardized optical connector, a housing with a lens and a replaceable nozzle, including a sleeve and an output fiber, a locking mechanism. The replaceable nozzle is equipped with a sealing element located in the annular groove of the sleeve of the replaceable nozzle; the replaceable nozzle sleeve comprises a centering cylindrical surface, a support flat surface, an expansion conical surface, a support conical surface and a fixing hexagonal surface, wherein the angle of the expansion conical surface is smaller than the angle of the support conical surface; the fixing mechanism comprises a cylindrical spring, represented by an elastic metal tape twisted into a ring with two longitudinal grooves for balls, the width of which is less than the diameter of the balls, balls, a centering cylindrical hole, a support flat surface, holes for balls having conical narrowing at the exit points to the internal cavity of the mechanism fixation, due to which the diameter of the holes in the exit points is less than the diameter of the balls, and a fixing hole of rectangular cross section.

A disadvantage of the known products is that they are non-standard specialized products of complex design. In addition, known products are incompatible with a standard medical instrument for subcutaneous or intravenous or intracorporeal manipulations.

The objective of this utility model is to create a simple fiber-optic instrument and a simple standardized interchangeable tip for it, convenient from the point of view of observing sterility conditions, preferably compatible with a standard medical instrument for subcutaneous or intravenous or intracorporeal manipulations.

The task in the fiber-optic instrument, consisting of a trunk fiber; a housing with a lens containing a first optical connector for connecting a trunk fiber and a second optical connector for connecting a replaceable tip; a replaceable tip containing a sleeve with a connector and an output fiber fixed in the sleeve along its axis, is solved due to the fact that the second optical connector is made with a conical protrusion with a through cylindrical hole in its longitudinal axis, and the sleeve of the replaceable tip is made with a longitudinal conical hole for installation on the conical protrusion of the second connector.

Preferably, the replaceable tip sleeve is made in the form of a first cylinder and is provided with a second cylinder, connected by a base to the first cylinder, made hollow and having a conical protrusion with a through cylindrical hole coaxial with the conical hole of the first cylinder, for securing the output fiber therein.

Particularly preferably, a thread is made on the inner surface of the walls of the second cylinder of the sleeve, wherein the end of the first cylinder of the sleeve is provided with a flange, the outer diameter of which is equal to the inner diameter of the second cylinder, and the outer surface of the flange is threaded.

Most preferably, the replaceable tip sleeve is in the form of a standard Luer Conical Lock type connector.

Outside of the conical protrusion of the second optical connector, a hollow cylinder can be mounted on the inner surface of the walls of which a thread is made.

The first optical connector can be made in the form of a standard SMA 905 connector.

The instrument may be further provided with a standard medical instrument for subcutaneous or intravenous or intracorporeal manipulations mounted on a replaceable tip so that a portion of the output fiber is located in the inner channel of said standard medical instrument.

The indicated standard medical instrument may be a disposable needle, cannula, catheter or other instrument having a channel with a Luer Conical Lock type connector.

The claimed utility model is presented in the form of implementation examples in non-limiting drawings, in which:

In FIG. 1 shows a general view of an optical fiber assembly;

In FIG. 2 shows a general view of a first embodiment of a replaceable tip;

In FIG. 3 shows a sectional fiber-optic instrument (in transport position);

In FIG. 4 shows a first sectional view of a replaceable tip (enlarged)

In FIG. 5 shows a general view of a second embodiment of a replaceable tip.

The claimed fiber-optic instrument contains a trunk fiber 1, a housing 2 with a lens 3 and a replaceable tip 4. The housing 2 is equipped with a first optical connector 5 for connecting the trunk fiber 1, made in this example as a standard SMA 905 connector, and a second optical connector 6 for connecting a removable tip 4 made with a conical protrusion 7 with a through cylindrical hole 8 along its longitudinal axis. Outside of the conical protrusion 7, a hollow cylinder 9 is fixed, on the inner surface of the walls of which a thread is made.

The interchangeable tip 4 includes a sleeve 10 and an output light guide 11 fixed to the sleeve 10 along its axis. The sleeve 10 of the interchangeable tip 4, in this example, is made in the form of a standard Luer Conical Lock type connector and consists of a first cylinder 12 with a longitudinal conical hole 13 for installation on a conical protrusion 7 and a second cylinder 14 connected by a base 15 to the first cylinder 12, made hollow and having a conical protrusion 16 with a through cylindrical hole 17, coaxial with the conical hole 13 of the first cylinder 12, for securing the output fiber 11 therein so that the ends of the output fiber 11 are outside the longitudinal the conical hole 13 of the first cylinder 12 and second cylinder walls 14. The inner surface of the second cylinder wall 14 is threaded. The end face of the first cylinder 12 is provided with a flange 18, the outer diameter of which is equal to the inner diameter of the second cylinder 14, and the outer surface of the flange 18 is threaded.

In the transport position, the housing 2 of the fiber optic instrument is closed with plugs 19 and 20 (see Fig. 3)

In the second embodiment, the inventive interchangeable tip 4 is additionally equipped with a standard medical instrument for subcutaneous or intravenous or intracorporeal manipulations, in this example, a standard disposable needle 21, installed so that the portion of the output fiber 11 is located in the inner channel of the specified needle 21. Moreover, the type connector The Luer Conical Lock holding the needle 21 consists of a first cylinder 22 with a longitudinal conical hole 23 mounted on a conical protrusion 16 of the sleeve 10. The end face of the first cylinder 22 is provided a flange 24, the outer diameter of which is equal to the inner diameter of the second cylinder 14 of the sleeve 10, is fixed in the specified second cylinder 14 of the sleeve 10 by means of a thread on the side surface of the flange 24.

The claimed tool is used as follows:

The claimed tool is transferred from the transport position to the working one. Remove the plugs 19 and 20. The main fiber 1, which serves to transmit laser radiation from the laser unit generation unit (not shown in the drawings), is connected to the first optical connector 5. A disposable sterile disposable tip 4, designed to apply laser radiation to human tissues and organs within the surgical field, they are connected to the second optical connector 6 by means of a sleeve 10 made in this example in the form of a standard Luer Conical Lock type connector. The claimed fiber optic device is ready for use.

To provide access to organs and tissues during interventions in the claimed fiber optic device, sterile disposable flexible and rigid replaceable tips are used together. Disposable flexible interchangeable tips are made according to the first embodiment, as described above and shown in FIG. 2 and 4. The composition of the hard interchangeable tips (according to the second embodiment, as described above and shown in Fig. 5) includes medical instruments and devices (needles, cannulas, catheters or other instruments having a channel with a Luer Conical Lock type connector) required in accordance with the methodology of the manipulation.

Case 2 is designed to perform the functions of a manual holder.

In the case 2 there are no cavities and channels into which biological fluids, i.e. It complies with sterility requirements.

In a laser medical device (not shown in the drawings), radiation is supplied to the output optical connector. Next, the radiation enters the trunk fiber 1, the lens 3 and the interchangeable tip 4, connected in series to the laser device, and thus is delivered to the surgical field.

The area of influence of the invisible main laser radiation at the output of the interchangeable tip 4 can be highlighted by the visible radiation of the pilot laser, which is part of the laser radiation source. The shape and size of the spot of the pilot laser in the exposure zone are fully consistent with the shape and size of the main laser radiation invisible to the eye. This allows you to control the location and size of the area affected by the main laser radiation and to avoid unwanted damage to surrounding tissues.

Further work with the device is carried out in accordance with the methodology for performing this type of manipulation.

After the completion of the manipulation, the replaceable tip and (in the second embodiment) the medical instrument are disposed of.

Thus, a simple fiber-optic instrument and two versions of a simple standardized replaceable tip for it were developed, convenient from the point of view of observing sterility conditions, and, due to the design of the replaceable tip bush, compatible with a standard medical instrument for subcutaneous, intravenous or intracorporeal manipulations.

Information sources

1. Fiber optic instrument, http://lasermed.volo.ru/docs/evlk_econom.pdf.

2. Patent of Belarus for utility model No. 10364, publ. 10/30/2014 (prototype)

Claims (8)

1. Fiber optic instrument, consisting of a trunk fiber; a housing with a lens containing a first optical connector for connecting a trunk fiber and a second optical connector for connecting a replaceable tip; interchangeable tip containing the sleeve and the output fiber mounted in the sleeve along its axis, characterized in that the second optical connector is made with a conical protrusion with a through cylindrical hole in its longitudinal axis, and the sleeve of the interchangeable tip is made with a connector for connecting a medical instrument and with a longitudinal conical hole for installation on the conical protrusion of the second connector. 2. The tool according to p. 1, characterized in that the replaceable tip sleeve is made in the form of a first cylinder and is equipped with a second cylinder, connected by a base to the first cylinder, made hollow and having a conical protrusion with a through cylindrical hole coaxial with the conical hole of the first cylinder, fixing the output fiber therein. 3. The tool according to claim 2, characterized in that a thread is made on the inner surface of the walls of the second cylinder of the sleeve, while the end face of the first cylinder of the sleeve is provided with a flange, the outer diameter of which is equal to the inner diameter of the second cylinder, and the outer surface of the flange is threaded. 4. The tool according to claim 3, characterized in that the replaceable tip sleeve is made in the form of a standard Luer Conical Lock type connector. 5. The tool according to claim 1, characterized in that a hollow cylinder is fixed on the outside of the conical protrusion of the second optical connector, and a thread is made on the inner surface of its walls. 6. The tool according to claim 1, characterized in that the first optical connector is made in the form of a standard SMA connector. 7. The instrument according to claim 1, characterized in that it is additionally equipped with a standard medical instrument for subcutaneous or intravenous or intracorporeal manipulations mounted on a replaceable tip so that the section of the output fiber is located in the inner channel of the specified standard medical instrument. 8. The instrument according to claim 7, characterized in that said standard medical instrument is either a disposable needle, or a cannula, or a catheter, or an instrument having a channel with a Luer Conical Lock type connector.

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