KR102712900B1 - Switch structure of electrosurgical handpeice - Google Patents

Abstract

The present invention relates to a switch structure of an electrosurgical handpiece, and more particularly, to a switch structure of an electrosurgical handpiece that enables the switch to be easily and quickly operated by turning and holding the handpiece during the process of performing electrosurgical surgery.

Description

{Switch structure of electrosurgical handpiece}

The present invention relates to a switch structure of an electrosurgical handpiece, and more particularly, to a switch structure of an electrosurgical handpiece that enables the switch to be easily and quickly operated by turning and holding the handpiece during the process of performing electrosurgical surgery.

Electrosurgery is a surgical method that uses high frequency (radio frequency) electrical energy to cut, excise, or cauterize a patient's tissue.

High-frequency electrical energy supplied through the electrode causes vibrations within the cells, which in turn increases the temperature within the cells and heats the tissues.

When the intracellular temperature reaches about 60℃, cell death occurs, and when heated to 60~99℃, tissue drying (dehydration) and protein coagulation occur, and when the intracellular temperature reaches 100℃, cell volume expansion and vaporization occur, and during this process, the tissue is cut or cauterized.

As shown in Fig. 1, this electrosurgical handpiece (10) is configured to have an operating rod (14) in the front of the body (11) slide into or out of the body (11) and rotate in the body (11), and is configured to secure the sliding or rotated operating rod (14) through a locking member (13).

And, a blade-shaped conductive electrode (15) is formed at the end of the above-mentioned operating rod (14).

The conventional hand piece (10) configured as described above is used after the surgeon slides or rotates the operating rod (14) depending on the surgical site and then locks the operating rod with the locking mechanism (13).

And depending on the surgical site, the surgeon holds the hand piece long, short, or rotates it to perform the surgery. However, since the position of the switch (12) of the hand piece (12) is fixed, a very inconvenient problem occurs.

Literature 1. Korean Intellectual Property Office Publication No. 10-2022-0015780, “Switching structure of hand piece for dual blade” Document 2. Korean Intellectual Property Office Registered Patent Publication No. 10-2021266, “Electrosurgical Handpiece” Document 3. Korean Intellectual Property Office Registered Patent Publication No. 10-2124015, “Electrosurgical Device”

The present invention has been made to solve the above problems, and the purpose of the present invention is to provide a switch structure of an electrosurgical handpiece that allows the surgeon to easily and quickly operate the switch regardless of how he or she holds the handpiece.

In addition, it is an object of the present invention to provide a switch structure of an electrosurgical handpiece in which an operating rod is secured simply by operating a switch without a separate locking mechanism for securing the operating rod.

In order to achieve the above object, the switch structure of the electrosurgical handpiece according to the present invention comprises: a first contact portion (110) formed in the shape of a ring or pipe in a body (101); a second contact portion (120) formed in the shape of a ring or pipe using an elastically deformable material and spaced apart from the first contact portion (110) by a predetermined distance and formed on the outside of the first contact portion (110); and a cover (130) sealing the first and second contact portions (110, 120), thereby enabling the switch to be operated from any direction in the body of the handpiece (100).

At this time, the second contact portion (120) is characterized by being composed of a pair of ends (122) formed in a ring shape and a column (123) formed radially to connect the pair of ends (122).

In addition, each of the above columns (123) is characterized by being formed to be curved outward.

In addition, the first contact portion (110) is formed of a material capable of elastic deformation, and a mold tension (102) is formed on the body (101) inside the first contact portion (110) at a position spaced apart from the operating rod (103) by a predetermined distance, which elastically deforms by the pressing force of the first contact portion (110) and presses and fixes the outer surface of the operating rod (103).

In addition, the cover (130) is characterized by having a protrusion (132) formed at the portion where the column (123) of the second contact portion (120) is located.

The switch structure of the electrosurgical handpiece of the present invention configured as described above is configured such that the switches are radially formed on the body and in multiple stages, so that the surgeon can easily and quickly operate the switches regardless of how he or she holds the handpiece.

In addition, the operating rod is quickly and firmly fixed the moment the surgeon operates the switch without the need for a fixture to fix the operating rod, thereby shortening the surgical time.

Figure 1 is a perspective view showing a conventional handpiece.
Figure 2 is a perspective view showing the main parts constituting the switch structure of the electrosurgical handpiece according to the present invention.
Figures 3 to 6 are perspective views illustrating the configuration of a switch of an electrosurgical handpiece in stages.
Figure 7 is a cross-sectional view showing the switch structure of an electrosurgical handpiece according to the present invention.
Fig. 8 is a side cross-sectional view showing the switch structure of an electrosurgical handpiece according to the present invention.

Hereinafter, the present invention will be described in detail with reference to preferred embodiments of the present invention and the accompanying drawings, on the premise that like reference numerals in the drawings indicate like components.

When it is said in the detailed description of the invention or in the claims that one component "includes" another component, this is not to be construed as being limited to consisting of only that component unless otherwise specifically stated, but should be understood to mean that it may further include other components.

The terms “upper,” “lower,” “bottom,” “front,” “rear,” “bottom,” and the like, as used herein, are merely for ease of description and refer to the orientation of components as depicted in the drawings.

The handpiece switch structure according to the present invention is composed of a first contact portion (110), a second contact portion (120), and a cover (130), as shown in FIG. 2.

The first contact portion (110) may be formed in the shape of a single pipe using a metal, which is a conductive material, or may be formed by arranging a predetermined number of rings in series. In the embodiment of the present invention, the first contact portion (110) is described as a spring (112), which is the most preferred embodiment.

As the first contact point (110), the spring (110) is easy to process into various specifications, has excellent elasticity, is easy to assemble, and can secure reliability of switch operation.

As shown in Fig. 2, the second contact portion (120) is formed with a pair of ends (122) formed in a ring shape using metal as a material, and a column (123) made of metal in a bar shape is formed radially between the pair of ends (122).

At this time, the column (123) is formed to be bent in an outward direction and configured to be elastically deformable.

The first contact portion (110) and the second contact portion (120) described above are contacts that supply or block electrical energy to the conductive electrode (104). Since this portion is the portion that the user holds, a cover (130) is formed in the shape of a pipe using a non-conductive and non-slip material such as rubber or silicone.

The first contact portion (110), the second contact portion (120), and the cover (130) as described above constitute the switch of the handpiece (1100). This will be described in detail.

The body (101) of the handpiece (100) is formed into a pipe shape, and an operating rod (103) is inserted inside it so that the operating rod slides and rotates inside the body (101) with respect to the body (101).

As shown in Fig. 3, a mold tension (102) is formed radially in the body (101) of the handpiece (100).

Preferably, the mold tension (102) is formed to be spaced apart from the operating rod (103) by a predetermined distance, so that the operating rod (103) can slide and rotate inside the body (101).

As shown in Fig. 4, the hand piece (100) is inserted into the insertion hole (111) of the spring (112), which is the first contact portion (110), so that the mold tension (102) of the hand piece (100) is positioned inside the spring (112), which is the first contact portion (110).

And as shown in Fig. 5, by inserting the hand piece (100) into the insertion hole (121) of the second contact portion (120), the spring (112), which is the first contact portion (110), is positioned inside the second contact portion (120).

At this time, as shown in Fig. 8, the first contact portion (110) and the second contact portion (120) are maintained at a predetermined distance apart.

And as shown in Fig. 6, the hand piece (100) is inserted into the insertion hole (131) of the cover (130) so that the second contact part (120) is positioned inside the cover (130) of the hand piece (100).

The switch structure of the handpiece (100) of the present invention configured as described above is such that the mold tension (102) of the body (101) is spaced apart from the operating rod (103) by a predetermined distance, as shown in FIGS. 7 and 8, and the spring (112), which is the first contact portion (110), and the second contact portion (120) are spaced apart by a predetermined distance.

At this time, the second contact portion is formed with a predetermined number of columns (123) radially between a pair of ends (122) formed in a ring shape, and the columns (123) are formed to be curved in an outward direction and are capable of elastic deformation.

The operation of the switch of the present invention configured as described above will be described.

The first contact portion (110) and the second contact portion (120) are contacts that supply or block electric energy supplied from an unillustrated controller to the conductive electrode (104) at the end of the operating rod (103). When the first contact portion (110) and the second contact portion (120) are electrically connected, electric energy is supplied to the electrode (104), and when the first contact portion (110) and the second contact portion (120) are separated, the supply of electric energy to the electrode (104) is blocked.

When the user presses the cover (130) with a force greater than a certain level while holding the body (101) of the handpiece (100), the first contact portion (110) and the second contact portion (120) physically contact each other and electrical energy is supplied to the electrode (104).

In an embodiment of the present invention, the column (123) of the second contact portion (120) located at the portion where the user presses the cover (130) is elastically deformed by the pressing force and physically contacts the spring (112), which is the first contact portion (110), causing electric energy to flow to the electrode (104).

At this time, it is preferable that the cover (130) be molded from rubber or silicone material so that the user's hand can operate the switch smoothly without slipping.

In addition, it is desirable to form a protrusion (132) on the cover (130) portion where the column (123) of the second contact portion (120) is located so that the user can accurately press the column (123) portion by touch alone.

And when the user removes the force for pressing the switch, the column (123) of the second contact portion (120) elastically restores and the contact with the spring (112) of the first contact portion (110) is released, thereby blocking the flow of electric energy to the electrode (104).

As described above, a part of the second contact portion (120) (in the embodiment of the present invention, a column (123)) is configured to supply and cut off electricity to the electrode (104) while elastically deforming and elastically restoring. It is preferable to configure the column (123) of the second contact portion (120) to be bent outward so that the column (123) has a click sensation and a sense of distinction when elastically deforming and elastically restoring, thereby allowing the user to intuitively know the switch operating state by feeling it with their hand.

When the user presses to turn on the switch, the column (123) of the second contact portion (120) elastically deforms and comes into contact with the first contact portion (110), and electrical energy is supplied to the electrode (104). In this state, when the user presses with a little more force, the first contact portion (110) presses the mold tension (102), and the mold tension (102) elastically deforms and presses the outer surface of the operating rod (103), thereby fixing the operating rod (103) so that it does not move.

That is, simply by pressing the switch after the surgeon rotates or slides the operating rod (103), the switch is turned on and the operating rod (103) is fixed simultaneously, so the operating rod (103) can be fixed quickly and firmly without a separate fixing device for fixing the operating rod, thereby shortening the surgical time and reducing the surgeon's fatigue.

The present invention configured as described above allows the switch to be easily operated from any direction since the switch is formed in a 360° direction based on the axial direction of the handpiece (100).

In addition, since a plurality of switches are configured in the axial direction of the hand piece (100) as shown in Fig. 6, the surgeon can easily operate the switches even if he or she holds the hand piece (100) short or long.

Additionally, the movement of the operating rod can be quickly and easily fixed simply by operating the switch.

The technical idea of the present invention has been examined through the embodiments described above.

It is obvious that a person having ordinary skill in the art to which the present invention pertains can variously modify or change the above-described embodiments based on the description of the present invention.

In addition, even if not explicitly illustrated or described, it is obvious that a person having ordinary skill in the art to which the present invention pertains can make various modifications including technical ideas of the present invention from the description of the present invention, and this still falls within the scope of the rights of the present invention.

The above embodiments described with reference to the attached drawings are described for the purpose of explaining the present invention, and the scope of the rights of the present invention is not limited to these embodiments.

100 : Hand piece
110 : 1st contact point
111 : Insertion hole
112 : Spring
120: Second contact point
121 : Insertion hole
122 : End
123 : Column
130 : Cover
131 : Insertion hole
132 : Protrusion

Claims (5)

In the switch structure of an electrosurgical handpiece configured to allow an operating rod (103) to which an electrode (104) is attached inside a body (101) to slide and rotate relative to the body (101),
A first contact portion (110) that is elastically deformable and formed into a ring or pipe shape in the body (101);
The body (101) inside the first contact portion (110) is elastically deformed by the force applied by the first contact portion (110) at a position spaced apart from the operating rod (103) and the mold tension (102) presses and fixes the outer surface of the operating rod (103);
A second contact portion (120) formed in the shape of a ring or pipe using an elastically deformable material and spaced apart from the first contact portion (110) by a predetermined distance and formed on the outside of the first contact portion (110); and
A switch structure of an electrosurgical handpiece characterized in that it comprises a cover (130) that seals the first and second contact points (110, 120), thereby enabling the switch to be operated from any direction of the handpiece body (100). In the first paragraph,
The above second contact portion (120) comprises a pair of ends (122) formed in a ring shape,
A switch structure of an electrosurgical handpiece characterized by comprising columns (123) formed radially to connect the pair of ends (122).
In the second paragraph,
A switch structure of an electrosurgical handpiece, characterized in that each of the above columns (123) is formed to be curved outward.
delete In the second paragraph,
The switch structure of an electric surgical handpiece is characterized in that the cover (130) has a protrusion (132) formed at the portion where the column (123) of the second contact portion (120) is located.