KR20100048596A - Manufacturing method of heating ceramics and hyperthermo-therapeutical apparatus using the heating ceramics - Google Patents

Abstract

PURPOSE: A manufacturing method of heating ceramics and a hyperthermo-therapeutical apparatus using the heating ceramics are provided, which can heat an object to the desired temperature in a short time. CONSTITUTION: A manufacturing method of heating ceramics comprises: a gel-type mixture production step manufacturing the gel-type mixture by pouring water to kaolin, yellow soil, jade, germanium, sea stone powder and mixing them; a mold manufacturing step for forming a mold using a material capable of moisture absorption; a molding step for drawing out the heating ceramics from the mold; and a step of the soft-baking the shaped heating ceramics. The hyperthermo-therapeutical apparatus includes a case(60), a belt(70), a band(71), and an attaching unit(61).

Description

Manufacturing method of heating ceramics and a thermotherapy device using the heating ceramics manufactured by the method {Manufacturing method of heating ceramics and hyperthermo-therapeutical apparatus using the heating ceramics}

The present invention relates to a method of manufacturing a pyrogenic porcelain for a thermotherapy device, and a thermotherapy device using the pyrogenic porcelain produced by the method, in particular, kaolin, ocher, elvan, talc, jade, and germanium powder that emits a large amount of far infrared rays when heated A method of manufacturing a heating device for a heat treatment device that manufactures a heating device for a heat treatment device by making a mold using a mold in a form in which an electric heating plate can be mounted inside by mixing with water, and the temperature control inside the heating device It provides a heat treatment device using a heating plate with a built-in heating plate, which can be easily located on the necessary parts for heat treatment, etc., and provides a heating device and a heat treatment device for a heat treatment device that emits a large amount of far infrared rays, which is beneficial to the human body.

In general, the heat treatment device generates infrared rays and heat through a heating element to obtain a therapeutic effect by acupressure and steaming the affected part of the human body. The conventional heat treatment device is composed of a plurality of acupressure rods having an infrared bulb. The acupressure rod-shaped porcelain was heated, and power was supplied to the infrared bulb to supply heat to the acupressure rod and infrared rays to the affected area with the infrared bulb.

The heat generating device of the heat treatment device is provided in the form of a plurality of acupressure rods, and since the infrared bulb is built in, it takes a lot of production cost, and in particular, the surface contacting the affected part due to the space between the acupressure rods constituting the heat generating ceramics. There is a problem that can not be achieved because of the smaller than expected.

In addition, there is a problem in that a high cost for repair when the infrared bulb is broken or the shiatsu rod is broken.

In order to solve the above problems, in one conventional embodiment, in constructing a heating device for a heat treatment device, the heating device comprises a main body and a cover, and the main body is formed using a health auxiliary stone, and the overall shape is It has a curved surface close to the abdomen or waist curve of the human body, is formed in the heater groove to heat the body evenly, install a heater, form an electric socket groove in the body to install an electric socket in the groove, the heater The fever pottery for the thermotherapy device connected with the

However, the thermal therapy device using pyrogenic ceramics formed as a single body using the health auxiliary stone as described above may release the fluorescent substances harmful to the human body in the process of fever by using natural stone as it may halve the therapeutic effect or harm the human body. There was a problem.

In addition, there is a problem that the manufacturing process is difficult and mass production is difficult due to the exact specifications because the stone to form a heating ceramic by cutting the stone, and because the heater must be operated for a long time to heat the stone, it costs a lot of electricity and there is no special temperature control means. There was also a problem that a burn may be caused when heated for a long time.

Accordingly, in order to solve the above problems, the present invention is to mix the powder of kaolin, ganseok, talc, germanium, jade, etc., from which the harmful components have been removed with water, and then poured into a mold of a desired form, followed by drying by heating. It is an object of the present invention to provide a heating device for a thermotherapy device capable of emitting a large amount of infrared rays, which is beneficial to the human body during heating, and to be heated to a desired temperature within a short time, and a method of manufacturing the same.

In addition, it is another object to be able to produce a large amount of exothermic ceramics having a desired form by mixing the powders as described above with water and pouring it into a mold.

In addition, by using the powder to make the desired shape and by performing the first roasting to remove the harmful components contained in the powder is harmless to the human body, so that it can be quickly heated by the heating plate to reduce the amount of power required for the heat treatment device do.

In addition, the case is made of a soft cloth that can hold the heating device for the heat treatment device, including a belt that can be fixed to the case and wound around the body, the heated heating device to prevent direct contact with hands or skin burn It is another object to double the therapeutic effect by supplying heat and infrared rays only to the affected part by fixing the case containing the heating element to the belt, and fixing the fixed case to the affected part. It is done.

In addition, the heating plate is built in the inside of the heating element, by connecting a temperature control means to the heating plate to prevent the heating element is heated to a predetermined temperature or more to prevent the burn to occur in the affected area.

In order to achieve the above object, the present invention is a method of manufacturing a pyrogenic porcelain for thermal therapy device, gel mixture mixture step of preparing a mixture by pouring water mixed with kaolin, ocher, jade, germanium, ganban stone powder purified into powder and ; A mold forming step of forming a mold by using a material capable of absorbing water to form an exothermic ceramic with the mixture; A molding step of pouring the gel mixture into the mold and withdrawing a heating element from the mold when a predetermined amount of water is absorbed into the mold; It provides a method of manufacturing a heating device for a thermal therapy device comprising the step of roasting the first baking after drying the molded exothermic.

In addition, the heating device is manufactured by the manufacturing method, the bottom surface has a concave shape of the center of the hollow and the upper surface is formed with a rectangular heating plate mounting portion and the first wire groove is connected to the heating plate is installed therein; A cover which is covered over the main body and has a second wire groove at a position corresponding to the first wire groove of the main body; A heating plate installed on the heating plate mounting portion of the main body; It is connected to the heating plate and provides a heat treatment device using a heating device characterized in that it comprises a power control means for controlling the temperature of the heating plate.

As described above, the heating element manufactured by the heating element manufacturing method of the present invention can be easily manufactured in a desired form, can emit a large amount of infrared rays which are beneficial to the human body when heated, and can be heated to a desired temperature within a short time. This is quick and convenient.

In addition, by mixing the above-mentioned kaolin, elvan powder and the like with water to form a mold can produce a large amount of heating ceramic having a desired shape.

In addition, by using the powder to form the desired shape and by performing the first roast to eliminate harmful components contained in the powder is harmless to the human body.

In addition, it can be quickly heated by the heating plate can reduce the amount of power required for the heat treatment device.

In addition, including a case and a band to put the heating device for the heat treatment device, the heated heating device to prevent direct burns to prevent contact with hands or skin, to facilitate handling, the case containing a heating device in the belt By fixing and fixing the fixed case in close contact with the affected area, heat and infrared rays are supplied only to the affected part, which can double the effect of steaming and infrared treatment.

In addition, the heating plate is built in the inside of the heating element, by connecting the temperature control means to the heating plate to prevent the heating element is heated above a certain temperature to prevent burns on the affected part.

In the manufacturing method of pyrogenic ceramics for thermotherapy according to the present invention, in the manufacturing method of pyrogenic ceramics for thermotherapy, preparing a gel-type mixture to prepare a mixture by pouring water mixed with powdered kaolin, jade, germanium, ganban stone powder Steps; A mold forming step of forming a mold using a material capable of absorbing water to form a pyrogenic ceramic with the gel mixture; A molding step of pouring the gel mixture into the mold and withdrawing a heating element from the mold when a predetermined amount of water is absorbed into the mold; After drying the molded heating ceramics is composed of a first roasting step to roast first.

To explain this in more detail, first, the gel-like mixture manufacturing step forms pulverized ganbanite, talc, germanium, and jade into particles of about 300 to 350 mesh sizes to form a powder, which is then purified and used. The method for purifying the powders is fired at about 750 to 1200 degrees for about 8 to 12 hours using a kiln or the like, and the calcined powders are naturally cooled. At this time, the elvan, talc, germanium, and jade powder may be respectively purified or mixed in the following ratio.

Water is poured into the purified powder and kaolin and loess as described above to prepare a mixture. At this time, the mixing ratio of each powder and kaolin is kaolin 15 to 20% by weight, loess 0.2 to 1% by weight, ganban stone powder 20 to 30% by weight, talc powder 15 to 25% by weight, germanium powder 15 to 25% by weight, jade 10 to 20% by weight of the powder is mixed and used, and 30 to 50% by weight of the powder mixture and 70 to 50% by weight of water are mixed.

The mixture mixed with water as described above is put in a stirrer to be evenly mixed. At this time, since the mixture is not easily dissolved in water, adding about 0.1 to 1% by weight caustic so that the mixture is easily dissolved in water and the viscosity is improved to make a gel form.

In the mold manufacturing step, a mold is manufactured in a desired form using a material capable of absorbing moisture. At this time, gypsum or the like is used as the casting material.

The mold is divided into a main mold and a cover mold. The main body formed by the main mold has an elliptical shape with an oval shape as shown in FIG. 1, and a bottom surface has a concave shape in which the center is recessed. A first wire groove 12 connected to the installation unit 11 and the heating plate installed therein is formed, and first bolt insertion holes 13 for fixing the cover 20 are formed at both sides. In addition, the cover 20 formed by the cover mold is covered with an upper portion of the main body 10 and the second wire groove 21 formed at a position corresponding to the first wire groove 12 of the main body 10, The second bolt insertion hole 22 is formed at a position corresponding to the first bolt insertion hole of the main body.

When the mold is manufactured as described above, the gel mixture is poured into the mold to form an exothermic ceramic. The exothermic molding step is to pour the gel mixture first to the mold to wait for the water to be absorbed in the mold, and then to repeat the pouring of the gel mixture to fill the mold internal space. After repeating the step of pouring the gel mixture at least three times as described above to allow the moisture to be absorbed, and after a certain period of time to separate the body and the cover from the mold.

Next, the first roasting step is to completely dry the body and the cover formed by the mold in the shade, put the dried body and the cover in a kiln and bake for 12 to 15 hours at a temperature of 850 to 950 degrees to heat the heat treatment device To prepare.

Next, the heating element manufactured by the manufacturing method as described above is configured as shown in Figure 1, the bottom is formed in a concave shape as shown in Figure 2, the bottom of the hand-shaped protrusion 14 Is formed to touch the human body so that you can feel the hand rub. In addition, the heating plate mounting portion 11 of the main body 10 is installed in the heating plate 40 of FIG. 3 to be described later, the wire 41 is drawn through the first wire groove 12, and then covers the cover 20 The bolt 30 and the nut 31 are inserted into the first bolt insertion hole 13 and the second bolt insertion hole 22 to be fastened.

Next, as shown in FIG. 3, the heating plate installed in the heating plate mounting unit 11 of the main body 10 includes a rectangular heating plate 40 inserted into the heating plate mounting unit 11 and the heating plate 40. A wire 41 is drawn out at one side and an arm plug 42 is provided at an end thereof. In addition, in order to supply power to the heating plate 40 through the female plug 42, at one end, a second male plug 53 is inserted into the female plug provided in the building, and at the other end, the female plug 42 is provided. The first male plug 52 is inserted into the center, and the center is provided with a power supply line 50 provided with a temperature control unit 54 for controlling the temperature of the heating plate 40 by controlling the power supplied thereto.

As described above, the heat treatment device is composed of a heating plate with a heating plate and a power supply line.

Next, Figure 4 shows the configuration of the case 60 and the belt 70 for using the heat treatment device configured as described above, the heat treatment device as described above can be used immediately by supplying power to the heated heat treatment device Due to the burns may occur on the hand or affected part, the belt is made of a soft material that can hold the heating ceramics and forms a belt attaching portion 61 attached to a female velcro or a male velcro on a portion of the outer circumferential surface thereof and a zipper on a side portion thereof. The case 60 having the case 60 installed therein can be prevented from burning by supplying power in a state in which the case 60 contains a heating conductor.

In addition, as described above, the band 71 having elasticity to fix the case 60 containing the heating conductor to the affected part, the arm Velcro 72 provided at one inner end of the band 71, and the band 71. With a case having a male Velcro 73 having a wide width installed at the other end of the inner side, and a male Velcro or an arm Velcro to which a belt attaching portion 61 of the case 60 is attached to a portion of the inner circumferential surface of the band 71. It is provided with the belt 70 comprised from the part 74.

In the method of using the belt 70 and the case 60 configured as described above, after inserting a heating ceramic having a heating plate therein into the case 60, the case 60 is attached to the case attaching portion 74 of the belt 70. ), And the case 60 is placed on the affected part so that the bottom face of the heating element faces the affected part. Next, the belt attached to the case is wound around the affected part to fix the heating element contained in the case to the affected part, and a power supply line is connected to the outlet of the heating element to supply power to infrared and heat to the affected part.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be appreciated that one embodiment is possible. Accordingly, the true scope of the present invention should be determined by the technical idea of the claims.

1 is an exploded perspective view showing the configuration of a heating conductor according to the present invention.

FIG. 2 is a view showing the bottom of the heating conductor body shown in FIG. 1; FIG.

Figure 3 is a view showing the configuration of a heating plate and a power supply line installed inside the heating conductor according to the present invention.

4 is a view showing the configuration of a case and a belt according to the present invention.

<Explanation of symbols for the main parts of the drawings>

10 main body 11: heating plate mounting portion

12: first wire groove 13: the first bolt insertion hole

14: hand-shaped protrusion 20: cover

21: 2nd wire groove 22: 2nd bolt insertion hole

30: bolt 31: nut

40: heating plate 41: electric wire

42: female plug 50: power supply line

52: first male plug 53: second male plug

54: temperature control means 60: case

61: belt attachment 62: zipper

70: belt 71: band

72: amber velcro 73: male velcro

74: case attachment

Claims (13)

In the manufacturing method of fever porcelain for thermal therapy device, A gel mixture preparation step of preparing a gel mixture by pouring water into kaolin, loess, jade, germanium, and elvan powder purified by powder; A mold manufacturing step of forming a mold by using a material capable of absorbing water to form a heating element with the gel mixture; A molding step of pouring the gel mixture into the mold and withdrawing a heating element from the mold when a predetermined amount of water is absorbed into the mold; Method for producing a thermal therapy device for a thermal therapy device, characterized in that it comprises the step of baking the molded fever ceramics. The method of claim 1, The mixing ratio of the powder is kaolin 15 to 20% by weight, loess 0.2 to 1% by weight, ganthanite powder 20 to 30% by weight, talc powder 15 to 25% by weight, germanium powder 15 to 25% by weight, jade powder 10 to 20% by weight Method of producing a pyrogenic pottery for a heat treatment device, characterized in that the. The method according to claim 1 or 2, Particle size of the powder is a method of manufacturing a heating ceramic for a heat treatment device, characterized in that 300 to 350 mesh. The method of claim 1, Method for purifying the powder is a method of manufacturing a pyrogenic porcelain for a thermotherapy device, characterized in that baked for 8 to 12 hours at a temperature of 750 to 1200 degrees. The method of claim 1, The mixing ratio of the powder and water is 30 to 50% by weight of the powder mixture and 70 to 50% by weight of water, the method of manufacturing a pyrogenic porcelain for a thermotherapy device. The method of claim 1, In the process of mixing the water and powder mixture, caustic soda 0.1 to 1% by weight based on the total weight of the mixture is further characterized in that the method for producing a pyrogenic porcelain for heat treatment. The method of claim 1, The mold is a manufacturing method of a heating device for a thermal therapy device, characterized in that made of gypsum. The method of claim 1, In the molding step, the gel mixture is injected into the mold at least three times with a time interval for the mold to absorb the water, the method of manufacturing a pyrogenic ceramic for a thermotherapy device. The method of claim 1, In the first roasting step, the method of manufacturing a heat treatment device for a thermal therapy device, characterized in that for 12 to 15 hours to bake the molded body and the cover at a temperature of 850 to 950 degrees. It is manufactured by the method of manufacturing a heating conductor of claim 1, the bottom surface has a concave shape with a recessed in the center and the upper surface is formed with a rectangular heating plate mounting portion and the first wire groove is connected to the heating plate installed therein, and the upper body A heating conductor covered with the cover and having a cover having a second wire groove formed at a position corresponding to the first wire groove of the main body; A heating plate installed on the heating plate mounting portion of the main body; And a temperature control means connected to the heating plate and configured to control the temperature of the heating plate. The method of claim 10, The body and the cover is a heat treatment device having a heating element, characterized in that the bolt insertion hole for fixing and fastening the main body and the cover is formed through each other. The method of claim 10, The concave bottom surface of the main body heat treatment device having a heating device, characterized in that the hand-shaped protrusions are further formed. The method of claim 10, A case made of a cloth of soft material that can hold the heating conductor, and a belt attaching part formed on a portion of an outer circumferential surface thereof and a zipper installed on a side portion thereof; A band having elasticity to fix the case to the affected part, an arm Velcro provided at an inner end of the band, a male Velcro having a wide width provided at an outer end of the band, and a belt of the case on a portion of the inner circumferential surface of the band. Heat treatment device having a heating element characterized in that it further comprises a belt consisting of a case attachment portion to which the attachment portion is attached.

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