KR20190025286A - Electrode member for high frequency medical treatment - Google Patents

Abstract

The present invention relates to an electrode member mounted on a high-frequency treatment device, which comprises: an electrode body (20) formed by a stem (21) and a disk (22); and a cover body (30) having a ceramic layer (31) and a coating layer (32) in a predetermined area of the electrode body (20). Accordingly, since a coating material added to the electrode of the high-frequency thermal therapy device which transfers heat in contact with the human body is improved, the flexibility of a mass production process is improved, thereby enhancing competitiveness in terms of quality and price.

Description

[0001] DESCRIPTION [0002] Electrode member for high frequency medical treatment [

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a medical device for high frequency treatment, and more particularly, to an electrode member for a high frequency therapy device that transfers heat in a state of being in contact with a human body in a hyperthermia treatment device using a high frequency.

The use of high frequency hyperthermia therapy is increasing not only in physiotherapy area but also in beauty and other areas. In the case of a high-frequency treatment apparatus or a management apparatus, a coated electrode (ceramic) is generally used, and the metal electrode body is coated with a dielectric (insulator) having a high dielectric constant. Electrodes are important parts that come into contact with the body directly or indirectly, and they require excellent functionality and durability. In terms of mass production of high frequency treatment devices, cost (price) as well as quality of electrodes are also important management factors.

Korean Patent Registration No. 0758025 (Prior Art 1) and Korean Patent Registration No. 1488805 (Prior Art 2) are known as prior art references which can be referred to in connection with the electrodes of a high-frequency therapy apparatus.

The prior art document 1 includes a handle having a switch for controlling power supply; A hollow electrode connected to one side of the handle and insulated and coated on the surface and having a space inside; An electrode needle provided at one end of the hollow electrode and adapted to be inserted into a living tissue; . Thus, the effect of reinforcing the strength of the insulated coating portion of the hollow electrode and accurately positioning the conductive portion on the lesion site is expected.

In the prior art document 2, a plurality of electrode plates are formed of the metal electrode terminal plate and the insulating coating layer coated on the outer surface thereof, thereby reducing the contact impairment of the electrode plate with respect to the body surface, Therefore, the use safety is expected to be further improved.

However, it is not easy to adjust the non-uniformity of the energy passage due to the limit of the heat generation and the variation of the coating thickness due to the fixed permittivity in the case of the nylon coating treatment of the terminal board of a common aluminum material as in the prior art. In other words, it is disadvantageous that the manufacturing cost is relatively increased because the electrostatic powder coating is required due to the limitation of the general plasticizer for nylon.

Korean Registered Patent No. 0758025 entitled "Electrode for High Frequency Electro Surgical Instrument" (published on September 11, 2007). Korean Patent Registration No. 1488805 entitled "Electrode Unit for High Frequency Therapeutic Apparatus" (Open date: Feb.

It is an object of the present invention to overcome the above-mentioned problems of the prior art, and it is an object of the present invention to provide a high-frequency thermal therapy apparatus for improving the flexibility of the mass production process by improving the coating material added to the electrodes of the high- Member.

According to an aspect of the present invention, there is provided an electrode member mounted on a high frequency treatment apparatus, comprising: an electrode body formed of a stem and a disc; And a cover body having a ceramic layer and a coating layer in a predetermined area of the electrode body.

In the detailed construction of the present invention, the ceramic layer is composed of a mixture of 70 to 60 wt% of loess or clay, 35 to 25 wt% of an electrolyte containing salt and copper sulfate, and 7 to 3% of an epoxy resin.

In the detailed construction of the present invention, the powder is mixed with a solution prepared by mixing ABS and xylene at the same weight ratio, and is coated in a mortar form, followed by curing.

In a detailed configuration of the present invention, the coating layer is formed by mixing a pigment with a resin having electrical insulation, heat resistance, and abrasion resistance.

As a modification of the present invention, the electrode body further includes an annular groove communicable with the outside air.

As described above, according to the present invention, the coating material added to the electrode of the high-frequency thermal therapy apparatus for transmitting heat in contact with the human body is improved to improve the flexibility of the mass production process, have.

1 is a schematic view illustrating an electrode according to the present invention in an installed state
2 is a schematic view showing the electrode according to the present invention in partial cross-
3 is a photograph showing a manufacturing process of an electrode according to the present invention

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention proposes an electrode member mounted on a high-frequency treatment device. A medical treatment area, a cosmetic area, and other areas, but the present invention is not limited thereto.

1 illustrates a fixed-mount type high-frequency therapy device 10, but it is also applicable to a portable treatment device. In the latter case, a plurality of relatively small electrodes can be disposed adjacent to each other.

According to the present invention, the electrode body (20) is formed of the stem (21) and the disk (22). The stem (21) is in the form of a relatively small diameter rod and the disk (22) is in the form of a thin plate. A stem (21) is integrally connected to the center of one surface of the disk (22) to constitute an electrode body (20). The material of the electrode body 20 is aluminum alloy and copper alloy but may at least partially contain gold or silver. At the end of the stem (21), a spiral (25) for coupling to the high frequency treatment device (10) is provided.

In addition, according to the present invention, the shell 30 has the ceramic layer 31 and the coating layer 32 in a predetermined region of the electrode body 20. The passing rate of the high frequency energy is determined in accordance with the dielectric constant of the sheath body 30 coated on the disk 22, and the degree of heat generation for the heat treatment is changed. 2 may include an outer surface of the disc 22, and a portion of the stem 21 and a front surface of the disc 22 in a broad sense. The material of the ceramic layer 31 has a high dielectric constant and permits dielectric constant fluctuation depending on the composition (application). The coating layer 32 is coated relatively thinly over a wide area including the ceramic layer 31. [

In a detailed configuration of the present invention, the ceramic layer 31 is characterized by being composed of 70 to 60 wt% of loess or clay, 35 to 25 wt% of an electrolyte containing salt and copper sulfate, and 7 to 3% of an epoxy resin . The loess or clay for maintaining the basic skeleton is not limited to any one but may be mixed. As an electrolyte for the expression of electric conductivity, it is preferable to mix salt and copper sulfate in a weight ratio of 2: 1. Epoxy resin is added in powder form in order to increase the bonding force in the coating process. By applying such a method, it is possible to easily and flexibly cope with variation of the dielectric constant of the ceramic layer 31 which is the outer casing 30.

At this time, if the content of each component constituting the powder of the ceramic layer 31 is out of an appropriate range, not only the dielectric constant but also physical properties such as strength and electrical conductivity are caused.

In the detailed construction of the present invention, the powder is mixed with a solution prepared by mixing ABS and xylene at the same weight ratio, and is coated in a mortar form, followed by curing. The powder is mixed with a mixed solution of ABS and xylene and stirred at a low speed for 20 to 40 minutes using a stirrer to form a kneaded state. The dough is uniformly applied to the outer surface of the disk 22 to form the ceramic layer 31. The coated ceramic layer 31 is cured by heating and drying.

As a detailed configuration of the present invention, the coating layer 32 is formed by mixing a pigment with a resin having electrical insulation, heat resistance, and abrasion resistance. The coating layer 32 is formed by mixing the additive based on the resin material and is coated after the hardening of the ceramic layer 31 is completed. In order to perform the electrode function of the high frequency treatment device 10, electrical insulation, heat resistance, and wear resistance are required. The coating layer 32 can be expressed in the orange color of Fig. 1 or the black color of Fig. 3 depending on the choice of pigment.

At this time, the coating process of the shell 30 may be performed at any cost lower than that of the electrostatic powder coating, but does not exclude the application of the electrostatic powder coating at least partially.

On the other hand, the coating layer 32 may be constituted by mixing a UV curable resin, a photoinitiator, an antistatic agent, etc. suitably in terms of improving the mass productivity and functionality.

As a modification of the present invention, the electrode body 20 further includes an annular groove 35 communicating with the outside air. 3, a plurality of annular grooves 35 having different diameters are arranged concentrically. The annular groove 35 is provided with a passage (not shown) communicating with the outside air and is utilized as a cooling function for preventing overheating. Even in this case, the ceramic layer 31 and the coating layer 32 are coated with a uniform thickness so that the annular groove 35 is retained.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention. It is therefore intended that such variations and modifications fall within the scope of the appended claims.

10: RF treatment device 20: Electrode body
21: stem 22: disk
25: helix 30: outer shell
31: ceramic layer 32: coating layer
35: annular groove

Claims (5)

An electrode member to be mounted on a high frequency treatment apparatus, comprising:
An electrode body (20) formed of a stem (21) and a disk (22); And
And a cover body (30) having a ceramic layer (31) and a coating layer (32) in a predetermined area of the electrode body (20). The method according to claim 1,
Wherein the ceramic layer (31) comprises a mixture of 70 to 60 wt% of loess or clay, 35 to 25 wt% of an electrolyte including salt and copper sulfate, and 7 to 3% of an epoxy resin. The method of claim 2,
Wherein the powder is mixed with a solution in which ABS and xylene are mixed at the same weight ratio, and is applied in a mortar form, followed by curing. The method according to claim 1,
Wherein the coating layer (32) is formed by mixing a pigment with a resin having electrical insulation, heat resistance, and abrasion resistance. The method according to claim 1,
Wherein the electrode body (20) further comprises an annular groove (35) communicable with the outside air.

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