KR100988310B1 - Thermotherapy acupuncture and acupuncture tube - Google Patents

Abstract

PURPOSE: A heat needle and a needle tube are provided, which facilitates surgical operation of a heat needle, enhances medical treatment, and prevents a patient from being burnt. CONSTITUTION: A heat needle comprises: a metal needle bottle(10) consisting of a needle arm and a needle rod; and a tube(20) which is inserted and fixed in the needle bottle, absorbs the external radiant heat, and has high thermal conductance. The needle is made of metal material selected from stainless, tungsten, gold, silver, and the like. The material of tube is thermal conductive resin in which the thermal conductance is similar to metal.

Description

Therapeutic acupuncture and acupuncture tube

The present invention relates to a thermal needle and acupuncture, and more particularly, to a thermal needle and acupuncture to increase the thermal effect during the procedure of acupuncture.

In general, acupuncture, which is a representative treatment method used in oriental medicine, is a method in which a practitioner inserts acupuncture points into the human acupuncture points and stimulates the group to promote health and treat diseases.

Acupuncture needles used in acupuncture are mainly made of metal such as stainless steel these days, and the structure is different in length and thickness, but its tip is polished and inserted into the acupuncture point of the patient's acupuncture points. It is composed of acupuncture, which is connected to the handle that can be held by the operator.

As described above, when the procedure is performed with a needle made of stainless steel, which is classified as a metal having cold properties, the effect of acupuncture may be reduced because cold air enters the acupuncture points of the patient.

There are two methods for giving warmth to acupuncture points: acupuncture and acupuncture. After acupuncture, acupuncture points are raised at the tip of acupuncture needles, and the acupuncture is delivered to the patient's acupuncture points along the metal needles. However, such a method has a problem that the procedure is difficult, the wormwood that burns when the patient moves falls on the patient's human body and burns or falls on clothes or sheets, causing a risk of fire.

The problem to be solved by the present invention for solving the above problems is to provide a thermal needle and a needle tube that can exhibit a thermal effect without using a heat source in direct contact with the needle.

The thermal needle of the present invention for solving the above problems is a needle of a metal material including a needle and a needle bar; And a coating layer that contacts the outside of the needle and absorbs external radiant heat and transfers the heat through the needle and the needle.

In addition, the needle tube of the present invention, the needles of the metal material consisting of needles and needles are inserted into the inside, and the three primary colors (R, G, B) of light to absorb the external radiant heat and transfer the heat through the needles and needles 50 or less coating layers, respectively, are formed on the outer circumferential surface.

The thermal needle of the present invention has a high thermal conductivity on the surface of the acupuncture and has a high absorption rate of radiant heat, and absorbs external radiant heat to supply warmth to the acupuncture points of the patient, thereby increasing the therapeutic effect, and the procedure of the thermal needle is more effective. It has an easy effect.

In addition, since it is possible to perform a thermal needle without using a heat source directly contacting the needle, there is an effect of preventing a patient from being burned or a fire.

1 is an exploded perspective view of a thermal needle according to a first embodiment of the present invention.
2 is a state diagram used in the thermal needle according to the first embodiment of the present invention.
3 is a cross-sectional view of a warm needle according to a second embodiment of the present invention.
Figure 4 is a cross-sectional view showing another embodiment of the coating layer applied to the present invention.
Figure 5 is a photograph taken a state in which the needle is black coating is made and the coating is not made.
6 is a photograph of a state in which an infrared light source is irradiated to the needle of FIG. 5.
FIG. 7 is a computer screen showing a result of measuring a temperature distribution of each needle of FIG.

When described in detail with reference to the accompanying drawings a preferred embodiment of the present invention a thermal saliva configured as follows.

1 is an exploded perspective view of a thermal needle according to a first embodiment of the present invention.

Referring to FIG. 1, a thermal needle according to a first embodiment of the present invention includes a needle 10 made of a metal material including a needle 11 and a needle 12, and a needle 11 of the needle 10. It is inserted and fixed, and has a high thermal conductivity, and comprises a tube 20 capable of absorbing external radiant heat.

The needle 10 is a metal material, stainless, tungsten, gold, silver, copper may be applied.

The material of the tube 20 is made of a thermally conductive resin material similar to a metal so as to absorb external radiant heat and transmit it to the acupuncture points of the patient through the needle 10, and the thermally conductive resin material is a thermally conductive filler. Silicon, PPS (Polyphenylene Sulfide), PC (Polycarbonate), PA (Polyamide) or PE (Polyethylene) may be used.

The thermally conductive filler may use silicon carbide (SiC), aluminum nitride (AlN), or boron nitride (BN).

In particular, the thermally conductive resin material has a color of black to facilitate absorption of radiant heat of an external light source. The black means that most of the radiant heat can be absorbed when each of the three primary colors (R, G, B) of the color is 50 or less, and when the RGB values are each 0, it is most preferable to absorb the radiant heat.

2 is a state diagram used in the thermal needle according to the first embodiment of the present invention configured as described above.

Referring to FIG. 2, the thermal needle according to the first embodiment of the present invention has a state in which the tube 20 is coupled to the needle 11, and the operator grips the needle 11 on which the tube 20 is covered. Insert the needle 12 into the acupuncture points of the patient in the procedure.

As described above, when the radiating heat source 30 such as a thermal infrared light source is installed around the patient after the procedure with the needle 10, the black tube 20 absorbs the radiant heat and is instantaneously heated. It is transmitted to the patient's menstrual blood through 11 and needle 12.

As such, the procedure can be easily performed using radiant heat, and thus the procedure is easy, and it is possible to prevent a risk of burn or fire that may occur when the heat source is directly attached to the needle.

Since the tube 20 is detachable from the needle 10, the needle 20 can be recycled through a separate disinfection process even when the life of the needle 10 is exhausted or contaminated, and nanometer-sized silver particles are contained therein. By adding antimicrobial properties, the hygienic needle can be more hygienically secured.

3 is a cross-sectional view of a warm needle according to a second embodiment of the present invention.

Referring to FIG. 3, the thermal needle according to the second embodiment of the present invention may include a needle 10 including a needle 11 and a needle 12, and a needle 11 attached to an outer surface of the needle 10 of the needle 10. It comprises a thermally conductive film (40).

The thermal conductive film 40 may be coated with a thermal conductive resin of the same material as the material of the tube 20 described in the description of the thermal needle according to the first embodiment of the present invention described above, It may have been attached to the outer surface of the needle bottle (11).

The thermally conductive sheet constituting the thermally conductive film 40 may be a silicone sheet having adhesiveness or a graphite sheet having adhesiveness, including a thermally conductive filler. Known thermal conductivity of thermally conductive sheet is in the range of 50 to 90W / mk, and thermal conductivity is high. Especially, silicon is easy to make color black, and graphite sheet is black without its own processing. As much as possible.

The color of the thermal conductive film 40 is also assumed that the RGB value is 50 or less, respectively, the value of all 0 is most advantageous for the absorption of radiant heat.

The thermal conductive film 40 and the tube 20 (hereinafter referred to collectively as the thermal conductive film and the tube) are both thin, and the coating layer has a high thermal conductivity to conduct the body temperature of the operator to the needle 10 so that The cold energy of the needle 10 may be partially eliminated, and thus, the effect of the acupuncture may be prevented from being lowered by the cold energy of the metal, which is a metal during the operation of the thermal needle.

On the other hand, the coating layer is a coating agent capable of coating the surface of the needle bottle 11 in a black series, including liquid paints, dyes, pigments, etc. is not limited to the above embodiment can be applied to all.

In the above, the structure for forming the coating layer on the needles 11 has been described, but in the case of using a needle tube (not shown), a black coating layer is formed on the needle tube, and the needle layer inserted inside the needle tube does not form a coating layer. Or black coating layer on all of the needles 11 together with the needle tube.

As described above, the thermal needle according to the present invention, in which the coating layer including the black thermal conductive film 40 and the tube 20 is provided on the needle bottle 11, is radiated heat source such as a thermal infrared lamp which is spaced apart from the thermal needle. It is easily heated by the heat transfer to the acupuncture points of the patient, it is possible to further improve the effect of the acupuncture procedure, it is easy to heat the acupuncture procedure, it is possible to prevent the occurrence of burns or fire.

4 is another embodiment of the coating layer applied to the present invention.

Referring to FIG. 4, an anti-slip groove 51 may be provided on the surface of the coating layer 50 including the thermal conductive film 40 and the tube 20 described above to facilitate the procedure of the thermal needle.

Since the coating layer 50 is a thermally conductive resin or a thermally conductive sheet, the coating layer 50 has an appropriate frictional force, so that the procedure is easy. However, when the surgeon performs the thermal needle, the coating layer 50 may prevent sweat from slipping.

In addition, the surface area of the coating layer 50 is further increased by the formation of the anti-slip groove 51, and the area for absorbing the radiant heat is increased, so that the absorption efficiency of the radiant heat can be further improved.

In addition, when the coating layer 50 is a tube 20, it may further include a non-slip projection 52 protruding toward the needle 11 in the inner circumferential surface of the coating layer 50.

As described above, slippage is prevented between the operator's hand and the coating layer 50 and the coating layer 50 and the needle 11 to enable more accurate thermal needle treatment.

5 is a picture taken a state in which the needle is black coating and the needle is not coated, Figure 6 is a picture taken a state in which the infrared light source is irradiated to the needle of Figure 5, Figure 7 is a This is a computer screen showing the result of measuring the temperature distribution of a needle with a thermal infrared scanner.

As shown in FIG. 5, the non-coated general needle, the gloss black coated needle, and the matte black coated needle are inserted into the white styrofoam sequentially from the upper left to the lower.

On the right side, semi-transparent general needles, gloss black coated needles, and matte black coated needles are sequentially arranged from top to bottom, and the inside of the non-coated needles is inserted therein.

In this state, as shown in FIG. 6, when the infrared light source is irradiated, a temperature distribution as shown in FIG. 7 may be obtained.

Referring to FIG. 7, the black coated needles (b, c) are shown to have a high temperature distribution of about 3 degrees, and the uncoated general needles (d) are compared with the non-coated needles (a). Compared to), black coated coating tubes (e, f) also showed a high temperature distribution of about 3 degrees.

In the above experiment, the result of inserting a non-coated general needle into the needle tube (d, e, f) or a higher temperature effect can be obtained when the needle with black coating is inserted into the needle tube with the black coating. .

As such, when a high temperature is formed in the acupuncture and acupuncture, a high temperature difference occurs between the skin and the acupuncture as compared with the case of using a general acupuncture and acupuncture, thereby supplying warmth to the acupuncture points of the patient, thereby improving the therapeutic effect.

10: Saliva 11: acupuncture
12: needle 20: tube
30: radiation heat source 40: thermal conductive film
50: film layer

Claims (8)

Metal needles, including needles and needles; And
A coating layer that contacts the outside of the needle to absorb external radiant heat and transfers the heat through the needle and the needle,
The coating layer is made of a thermally conductive resin material containing a thermally conductive filler using silicon carbide (SiC), aluminum nitride (AIN) or boron nitride (BN), and the primary colors (R, G, B) of light are 50 or less, respectively. Featuring a thermal saliva.
The method of claim 1,
The coating layer,
The needle is detachable to the needle, the thermal needle, characterized in that the tube of thermally conductive resin containing a thermally conductive filler.
The method of claim 2,
The tube,
Slip prevention groove provided on the outer circumferential surface, and the thermal needle, characterized in that the anti-slip projection is provided on the inner circumferential surface.
The method of claim 1,
The coating layer,
Thermal needle, characterized in that the thermal conductive resin coating layer comprising a thermally conductive filler, coated on the needle.
delete delete delete Metal needles made of needles and needles are inserted inside, and silicon carbide (SiC), aluminum nitride (AIN) or boron nitride (BN) is used to absorb external radiant heat and transfer the heat through the needles and needles. An acupuncture tube made of a thermally conductive resin material containing a used thermally conductive filler and having a coating layer having three primary colors (R, G, B) of light of 50 or less on each outer peripheral surface.

Images