RU53884U1 - ELECTROSURGICAL TONGS - Google Patents

Abstract

The proposed utility model relates to medical equipment, namely to tools for creating exposure and surgical intervention, in particular, electrosurgical forceps are designed to coagulate tissues in bipolar or monopolar modes. The purpose of the utility model is to expand the functionality and increase the reliability of the tool. The essence of the utility model lies in the fact that in the electrosurgical forceps included in the group of tools for creating exposure, for example, for coagulation and stopping bleeding. including a housing-tube, a handle, a working part — a bipolar tip and a plug connector for connecting to a current source, while the bipolar tip is made in the form of two branch electrodes — fixed and movable, pivotally connected by an axis, and the fixed branch is rigidly connected to the body— a tube, which in turn is connected to the handle and provides rigidity of the tool in the longitudinal direction, and the movable jaw is electrically connected through the metal of the tool to the peripheral contact of the plug and pivotally connected to a hollow rod passing in the tube housing interacting with the movable handle of the handle; in addition, an insulated detachable conductor passes from the central contact of the plug connector to the electrode of the working surface of the fixed jaw made in the form of a metal notch on a ceramic substrate fixed to the inner the surface of this jaw, in addition, the handle is made in the form of two scissor-shaped handles, with the help of which the movement of the movable jaw is relatively stationary, in addition, the tool the cop contains a mechanism for turning the working part around

the longitudinal axis of the tool, in addition, the jaws are made of an electrically conductive material, the coefficient of thermal expansion of which is identical to the coefficient of thermal expansion of the insulating ceramic coating with which they are coated on the outside, while the remaining surface of the tool is teflon, in addition, the plug is mounted on the fixed handle of the handle and the junction does not experience mechanical stress when performing tissue compression, while the plug is made of parts that do not require high manufacturing accuracy, which simplifies the design of the tool.

Description

The proposed utility model relates to medical equipment, namely to tools for creating exposure and surgical intervention, in particular, electrosurgical forceps are designed to coagulate tissues in bipolar or monopolar modes.

Electrosurgical forceps are known that are included in the group of tools for creating an exposure, for example, coagulation and stopping bleeding during surgical interventions, including a tube body, a handle, a working part — a bipolar tip and a plug connector for connecting to a current source. The bipolar tip is made in the form of two movable branch electrodes connected to a rod passing in a tube body, inside which two conductors pass. The handle is made in the form of two levers interacting with the housing-tube and rod (Fedorov I.V. Surgical instruments. Functions and purpose. - Kazan, AKP Adelaide, 2001. - p. 152; RF patent No. 2062054, A 61 V 17 / 32, 1996).

The disadvantages of the known electrosurgical forceps are as follows.

1. Two movable branches, acting from one traction, clamp tissue only for coagulation, but cannot be used as forceps to create compression and retention forces, because their rigidity is not enough, which limits the functionality of the tool.

2. Both movable branches are protected by an insulating coating, which, under mechanical stresses that cause bending, does not guarantee the tool from cracks and chips, which reduces its safety.

3. The tip, casing and handle are inseparably connected, which makes sterilization of the instrument difficult.

4. Difficult to accurately install the electrodes of the instrument at the site of coagulation due to the longitudinal displacement of the branches when creating a compressive force.

5. The drawback of the plug is the design complexity, which requires high precision manufacturing of insulating and contacting parts and high qualification during assembly, in addition, the connection of the plug with the cable is subject to longitudinal loads when clamping fabrics, which creates conditions for breaking electrical contact.

The purpose of the utility model is to eliminate these drawbacks, in particular, to expand the functionality and increase the reliability of the tool.

This goal is achieved by the fact that in the electrosurgical forceps included in the group of tools for creating an exposure, for example, for coagulation and stopping bleeding, including a tube body, a handle, a working part - a bipolar tip and a plug connector for connecting to a current source, the bipolar tip is made in the form of two branches-electrodes - fixed and movable, pivotally connected by an axis, and the fixed branch is rigidly connected to the tube body, which in turn is connected to the handle and provides It increases the rigidity of the tool in the longitudinal direction, and the movable jaw is electrically connected through the metal of the instrument to the peripheral contact of the plug and pivotally connected to the hollow rod passing in the tube housing interacting with the movable handle of the handle, in addition, an insulated detachable conductor passes from the central the contact of the connector-plug to the electrode of the working surface of the fixed jaw, made in the form of a metal notch on a ceramic substrate fixed to the inner surface of oh branches, in addition, the handle

made in the form of two scissor-shaped handles, with the help of which the movement of the moving jaw is relatively stationary, in addition, the tool contains a mechanism for turning the working part around the longitudinal axis of the tool, in addition, the jaws are made of electrically conductive material, the coefficient of thermal expansion of which is identical to the coefficient of thermal expansion of insulating ceramic the coatings with which they are coated from the outside, while the coating of the remaining surface of the tool is teflon, except oh plug mounted on the fixed handle of the handle and the junction does not undergo mechanical stress when the compression fabric, wherein plug is made of parts that do not require high manufacturing accuracy, which simplifies the design tool.

The essence of the utility model is illustrated by drawings. Figure 1 shows the electrosurgical forceps (General view); figure 2 - a view of figure 1.

Electrosurgical forceps included in the group of tools for creating an exposure, for example, for coagulation and stopping bleeding, include a tube-case 1, a handle 2, a working part — a bipolar or monopolar tip 3, and a connector 4 for connecting to a current source (Fig. 1 )

The tip 3 is made in the form of two branches-electrodes - stationary 5 and movable 6, pivotally connected by an axis.

The fixed jaw 5 is rigidly connected to the housing-tube 1, which in turn is connected to the handle 2 and provides rigidity of the tool in the longitudinal direction. The electrode of the working surface of the stationary jaw 5 is made in the form of a metal notch 7 on a ceramic substrate 8, mounted on the inner surface of the jaw 5.

The movable jaw 6 is electrically connected through the metal of the instrument to the peripheral contact of the plug and pivotally connected to the hollow rod 9,

passing in the housing-tube 1, interacting with the handle 2 to control the movable jaw.

In the hollow rod 9, an insulated detachable conductor 10 passes from the central pin 11 of the connector 4 to the electrode 7 of the working surface of the fixed jaw 5.

The handle 2 is made in the form of two scissor-shaped handles, a movable handle 12 and a fixed 13, which transmit the movement of the movable branch 6 relative to the stationary 5.

The tool contains a turning mechanism 14 of the working part around the longitudinal axis of the tool, including a rotary “lamb”, which is rigidly connected to the housing-tube 1 and is made of an insulating material, for example, polyamide.

The housing-tube 1 pivotally mates with the handle 13 of the handle 2 and is fixed in it by a spring clip 15.

The jaws-electrodes are made of a material whose thermal expansion coefficient is identical to the thermal expansion coefficient of the insulating ceramic coating 16. with which they are coated on the outside, and the remaining surface of the instrument is coated with Teflon 17.

The plug 4 is mounted on the fixed handle 13 of the handle 2 and the connection does not experience mechanical stress when performing tissue compression, while the plug is made of parts that do not require high precision manufacturing, which simplifies the design of the tool.

Electrosurgical forceps work as follows.

In preparation for work, the parts of the instrument are sterilized: tip 3, one-piece connected to the rod 9 and the conductor 10, the tube body 1 and the handle 2. Next, the tip 3 is mounted on the tube case 1, while the rod 9 with the conductor 10 is passed into the case -tube and then the casing-tube with the second end is articulated with a handle

13 of the handle 2 and is locked by the latch 15, and the conductor 10 is connected to the central pin 11 of the plug 4 by the second end 9. Next, the electric cable of the current source (not shown) is connected to the plug 4 and the tool is thus ready for operation.

To work with the tool, the handles 12, 13 of the handle 2 are put on the thumb and forefinger of the surgeon. The tip 3 of the tool is brought to the tissue of the object of operation. The rotation mechanism 14 by rotating the rotary “lamb” sets the desired exposure of the working part 3. By breeding the handles 12, 13, the branches are opened and they grab the tissue of the operation object, and when the handles 12, 13 are pressed, the clamp is clamped, after which the current source can be switched on to coagulation for the time regulated by the operation. At the end of coagulation, the power source is turned off and the forceps can be used as a clamp. To perform only clamping, the sequence of operations is similar to that described above, but the power source is not turned on.

At the end of the work, the tool is returned to its original state, for which the current source cable is disconnected from plug 4 and the tool is disassembled in the following sequence: the latch 15 is pulled out, the rod 9 is released completely and the rod 9 is released and the tube-case 1 is removed from the handle 13. Tip 3 with a rod 9 and a detachable conductor 10 are removed from the housing-tube 1. Next, the parts are treated with a sterilizing solution and dried, after which the tool can be prepared for operation as described above. After sterilization, the contact point of the conductor with the central contact of the plug connector and the contacts of the plug connector must be wiped with a clean rag soaked in alcohol.

The advantages of electrosurgical forceps are as follows.

1. The tool can be used both for coagulation and stopping bleeding, as well as holding forceps, due to the fact that the working part - the tip is made in the form of a fixed jaw, rigidly connected with the body and handle, and a movable jaw, driven by rigid traction, which makes it possible to create the force necessary to hold, in addition, the toothed metal working surface of the fixed jaw is isolated from the jaw itself by a ceramic substrate and serves as an electrode for coagulation, and the second The ode is the working surface of the movable jaw, thereby expanding the functionality of the tool.

2. The tool provides the ability to accurately install the electrodes in the coagulation area, due to the fact that at the time of creation of the compression and holding forces, the branches move only in the direction of the compressive force.

3. A special material with a thermal expansion coefficient identical to the coefficient of thermal expansion of the coating, as well as the stiffness of the branches allow their external coating to be ceramic, thereby reducing the likelihood of cracks and chips and increasing tool reliability.

4. The tool is made detachable due to the detachable design of the electrical conductor connecting the central contact of the plug connector with the inner working surface of the fixed jaw, which improves the quality of sterilization of the tool.

5. The reliability of the connection of the plug with the cable is increased due to the fact that the plug is mounted on the fixed handle of the handle and the connection point does not undergo mechanical loads when performing tissue compression, in addition, the plug is made of parts that do not require high precision manufacturing, which simplifies the design of the tool.

Claims (1)

Electrosurgical forceps included in the group of tools for creating exposure, for example, for coagulation and stopping bleeding, including a tube-case, a handle, a working part — a bipolar tip and a plug connector for connecting to a current source, characterized in that the bipolar tip is made in the form two jaws-electrodes, fixed and movable, pivotally connected by an axis, and the fixed jaw is rigidly connected to the tube body, which in turn is connected to the handle and provides rigidity of the tool in in the longitudinal direction, and the movable jaw is electrically connected through the metal of the tool with the peripheral contact of the plug and pivotally connected to the hollow rod passing in the tube housing interacting with the movable handle of the handle, in addition, an insulated detachable conductor passes from the central pin connector connector to the electrode of the working surface of the fixed jaw, made in the form of a metal notch on a ceramic substrate fixed to the inner surface of this jaw, the handle is made in the idea of two scissor-shaped handles, with the help of which the movement of the movable jaw is formed relatively stationary, in addition, the tool contains a mechanism for turning the working part around the longitudinal axis of the tool, jaws are made of electrically conductive material, the coefficient of thermal expansion of which is identical to the coefficient of thermal expansion of the insulating ceramic coating with which they are coated from the outside, while coating the rest of the surface of the instrument is Teflon, in addition, the plug is mounted on the fixed handle of the handle and the joint does not experience mechanical stress when performing tissue compression, while the plug is made of parts that do not require high manufacturing accuracy, which simplifies the design of the tool.