RU43755U1 - ENDOSURGICAL INSTRUMENT - Google Patents

Abstract

The proposed utility model relates to medical equipment, namely to endoscopic instruments intended for diagnosis and treatment, in particular endosurgical instrument is included in the group of instruments for manipulation, i.e. creating favorable access to tissues, allowing to perform certain surgical procedures. The purpose of the utility model is the development of a more advanced tool in which a tube-case with a mechanism for driving and turning the working part, and a module of scissor-shaped handles with a mechanism-ratchet interact with the help of a compression force stabilizer. The essence of the utility model is that in an endosurgical instrument included in the group of tools for manipulation, for example, for gripping and holding the walls of organs and tissues during surgical interventions, it contains a working part - anatomical, fenestrated clamps, Alles, Bebkokok clamps, etc. , a case-tube with a mechanism for driving and turning the working part, and a module of scissor handles with a mechanism-rack, a spring stabilizer of compression force was introduced, one side of which interacts with the case-tube, and others Guy - module scissor handles, and places in-tube joint body a recess for at least the thickness of the stabilizer, and in the module scissor handles formed guide sleeve for the drive mechanism, the end member portion which serves as a stop for the compression force of the stabilizer.

Description

The proposed utility model relates to medical equipment, namely to endoscopic instruments intended for diagnosis and treatment, in particular, an endosurgical instrument is included in the group of instruments for manipulation, i.e. creating favorable access to tissues, allowing to perform certain surgical procedures.

Known endosurgical instrument included in the group of tools for manipulation, for example, to capture-hold the walls of organs and tissues when performing surgical interventions, containing a working part - anatomical, fenestrated clamps, Alles, Beccoccus clamps, etc., a tube-case with a drive mechanism and turning of the working part, and a module of scissor-shaped handles with a ratchet mechanism. (Savelyeva G.M., Fedorov I.V. Laparoscopy in gynecology. - Moscow, “GEOTAR MEDICINE”, 2000. - p.26; RF patent No. 2062054, A 61 B 17/32, 1996).

Known endosurgical instruments, in particular clamps: anatomical, fenestrated, clamps of Alles, Bebkok, etc., have such a common drawback as tissue slipping out of compressed working parts due to squeezing out fluid from clamped tissues, which leads to loss of time during surgery (the operation time is longer, the dose of anesthesia increases, etc.).

The purpose of the utility model is the development of a more advanced tool in which a tube-case with a mechanism for driving and turning the working part, and a module of scissor-shaped handles with a mechanism-ratchet interact with the help of a compression force stabilizer.

This goal is achieved by the fact that in an endosurgical instrument included in the group of instruments for manipulation, for example, for gripping and holding the walls of organs and tissues during surgical interventions, it contains a working part - anatomical, fenestrated clamps, clamps of Alles, Bebkok, etc., the case - a tube with a mechanism for driving and turning the working part, and a module of scissor-shaped handles with a mechanism-ratchet, a spring stabilizer of compression force was introduced, one side of which interacts with the case-tube, and the other - with a module of scissor-shaped handles, and at the joints in the casing-tube, a groove is made not less than the thickness of the stabilizer, and in the module of scissor-shaped handles there is a guide for the drive mechanism bush, the end part of which serves as a stop for the stabilizer of the compression force.

The essence of the utility model is illustrated by drawings. Figure 1 shows the endosurgical instrument (General view); figure 2 - the rotation mechanism of the housing-tube with a stabilizer of the compression force.

An endosurgical instrument contains a working part 1 — anatomical, fenestrated clamps, Alles, Beccoccus clamps, etc., a tube-case 2 with a drive mechanism 3 and a rotation 4, a scissor handle module 5 with a ratchet mechanism 6 (Fig. 1). The drive mechanism 3, which transfers the compressive-expanding force of the scissor-shaped handles to the working part, includes a rod 7, interacting with the hinge of the working part 1, passing through the sleeve 8, mating with the guide 9. In this case, a spring stabilizer of the compression force 10 is placed on the neck of the sleeve 8, one the side of which interacts with the housing-tube 1, and the other with the housing of the module 5 scissor handles. The rotation mechanism 4, moving the working part 1 around the axis of the tool, includes a rotational "lamb" 11 with a conical part, which is made of

electrical insulation material, for example, polyamide (figure 2). Inside the rotation mechanism 4, a sleeve 8 with a groove is fixedly fixed, which mates with the housing of the module 5 of scissor-shaped handles. In addition, a latch 12 for the position of the working part 1 is installed on the housing of the module 5. A connector 13 for connecting the cable of the active electrode, a source of electron flow and voltage (ECG), is located on the end of the module housing (not shown in the drawing of FIG. 1). The tool also contains a silicone sleeve 14, conjugated with the conical part of the rotation mechanism 4, which serves for reliable sealing during operations involving other tools.

Endosurgical instrument works as follows.

In the disassembled state, the tool consists of two nodes: the case-tube 1 and the module 5 of scissor-shaped handles. To bring the tool to working condition, these two nodes are articulated by inserting the sleeve 8 into the guide 9 to the stop and press the position 12 of the working part 1 with the lock 12. To prepare for clamping the tissues, the module 5 of the handles are placed with the handles on the palm of the auxiliary hand, while large and index or middle fingers are inserted into the handle rings, after which the scissor-shaped handles are pulled apart to failure, loosening their fixation with the lever of the rack 6. This ensures that the jaws of the working part 1 are pulled apart by pressing the movable handle with the shoulder on the rod 7, which it is positioned longitudinally relative to the housing-tube 1 and acts on the hinge of the working part 1. Then, the working position lock 12 is loosened and the wing 11 is turned relative to the tool axis to achieve the position of the working part 1, which is convenient for clamping tissues intended for use in surgical intervention. In this position, the working part 1 is also clamped by the clamp 12 of the working position. Then, the working part 1 of the tool is brought to the clamped fabric and the handles are brought down for a few clicks of the rack 6 to the stable clamping of the fabric. In the process

the compression force is supported by the springy property of the stabilizer 10, which interacts with the ends: the inner case-tube 2 and the outer guide 9 of the module 4 of scissor-shaped handles.

At the end of the operation, the clamping of the working part 1 is removed by the lever of the rack 6, as described above.

During electrosurgery (SEC), a cable of an active electrode source of electron flow and voltage (not shown in the drawing) is connected to the connector 10 located in the end part of the housing 9, the current of the SEC passes through a small area of tissue sandwiched between the jaws of the working part of the tool.

At the end of the operation, the tool is disassembled for cleaning and sterilization by loosening the lock 12 of the working condition.

The stabilizer of the compression force provides the ability to maintain the closing force of the parts of the working body, regardless of the state of the tissues, and also provides conditions for smoother operation of the cremallera, which avoids slipping of tissues during operations.

The rotation mechanism made of a dielectric material, for example, polyamide, eliminates the destruction of insulation, makes the tool reliable and safe during endosurgical operations.

To achieve maximum effect in various types of operations, stabilizers with different compression forces can be used.

Claims (1)

An endosurgical instrument included in the group of instruments for manipulations, for example, for gripping-holding the walls of organs and tissues during surgical interventions, containing a working body in the form of clamps, a tube-case with a drive and turning mechanism for the working body, and a scissor handle module with a ratchet mechanism for fixing the compression force of the jaws, characterized in that a spring stabilizer of the compression force is introduced into the tool structure, one side of which interacts with the tube body and the other with the module scissor handles, and at the joints in the casing-tube, a groove is made not less than the thickness of the stabilizer, and a guide for the drive mechanism sleeve is made in the scissor handle module, the end part of which serves as a stop for the compression force stabilizer.