CN101166558B - Warm moxibustion unit - Google Patents

Abstract

A trowel-form warm moxibustion unit comprising a trowel-form body (2), a heater (5), a dome-shaped, transparent glass cover (6) having a convex-form outer surface in contact with a humans body location and a concave-form inner surface formed with a fine unevenness (6b), a far infrared radiation layer (7) applied to the fine unevenness (6b)-formed inner surface of the glass cover (6), and a clay-form far infrared radiation material (8) filled in the glass cover (6) so as to be in close contact with the far infrared radiation layer (7), wherein an almost equalized far infrared radiation can be carried out and the unit has an excellent appearance.

Description

Warming moxibustion apparatus

Technical field

The present invention relates to mainly to carry out the warming moxibustion apparatus of the shovel shape that adds gentle far-infrared radiation of human body.

Background technology

As the warming moxibustion apparatus of the shovel shape that adds gentle far-infrared radiation that carries out human body, there is patent documentation 1 (international open WO2004/075986A1).Put down in writing the warming moxibustion apparatus of following shovel shape in patent documentation 1: this warming moxibustion apparatus is to only containing the far infrared irradiation material of radon generation rare element mineral, perhaps contain the tourmaline Ore, the two or more far infrared irradiation material of carbon or radon generation rare element mineral heats, produce far infrared, and make far infrared arrive the human body depths, and following formation disclosed: as depicted in figs. 1 and 2, at the metal cap of the arcuation that is heated by heater or the convex surface of bell glass is stacked for example by the tourmaline ore layer on the outer surface, the far infrared irradiation layer that carbon-coating and radon generation rare element mineral layer constitute, so on the concave curved surface of bell glass etc. the formation of coating or sintering far infrared irradiation layer; As shown in Figure 8, in the concave curved surface of bell glass etc., imbed far infrared irradiation material and constituting by the heater heating; Making the far infrared irradiation layer for example is the formation of 50 ℃, 60 ℃, 70 ℃, 80 ℃ temperature.

Moreover, as other with there is patent documentation 2～5 in the related technology of gentle far-infrared radiation of adding of human body.In patent documentation 2 (Japan real open flat 2-141445 illustrated throughout), put down in writing following far infrared irradiation masseur: in cylindrical shell, be built-in with the vibration generating unit and be coated with the ceramic particle of aluminium oxide, magnesium oxide, zirconium etc. up on the outer surface of perisporium, thereby the far infrared irradiation layer is set, possess its lower surface one be fixed with heater on the cover.

In patent documentation 3 (real public clear 63-18156 number of Japan), put down in writing following electrothermal piece: the attritive powder of naturally radioactive rare element minerals such as nuevite stone, fergusonite stone, xenotime, nicolayite stone, mutation zircon is mixed with conductive carbon, form lamellar or tabular matrix, both sides at this matrix set nichrome wire, and on nichrome wire mains connection are set.

In patent documentation 4 (real fair 3-25800 number of Japan), put down in writing from absorption of human body heat energy, be far infrared with the power conversion of absorb and the accumulation of heat of human body radiation stimulated part, and following formation disclosed: the contact surface that is applied coloured pottery and human body by nature of glass flat film, in ablating work procedure, with the softening fusion in the surface of above-mentioned thin film and form level and smooth shape, above-mentioned thin film reduced fire and painted by carbon.

In patent documentation 5 (TOHKEMY 2000-308668 number), put down in writing following formation: the metal inner core that intercalation rod moxa is set in the inboard of the urceolus of thermal insulation, cooperate in the front of inner core and to install, and be arranged on the helical spring that front end is equipped with the cloth that has adhered to ceramic powders etc. by the wire netting of convex-shaped and the apposition radiator body that constitutes of the glass fabric body of side within it.

Moreover, as other known technologies related with the application, put down in writing the manufacture method of pottery as described below in patent documentation 6 (TOHKEMY 2004-307313 number): the powder to the flower of the hot water that contains natural radium of beautiful river, autumn fields county hot spring heats, remove sulfur component, forming pulverous material with clay is heated mixes, adding moisture content then is shaped to spherical or tabular, carry out drying, at high temperature thereby the heating potteryization has also been put down in writing the situation that above-mentioned pottery continues radiation radium radiant and anion in patent documentation 6.

But, in the warming moxibustion apparatus of the shovel shape of patent documentation 1, be formed with on the surface of arcuation bell glass under the situation of lamellated far infrared irradiation layer, can produce bubble at lamellated far infrared irradiation layer, and then the affixed power on far infrared irradiation layer by coating and sintering formation and bell glass surface is not enough, therefore following unfavorable condition can appear: the gap occurs at the far infrared irradiation layer, the radiation of far infrared produces uneven, moreover, can see the gap of far infrared irradiation layer and damage attractive in appearance from transparent bell glass.Moreover, in bell glass, be filled with under the situation of far infrared irradiation material, be offset owing to the far infrared irradiation material moves in bell glass, so the radiation of far infrared produces inequality equally, moreover also can see the gap of far infrared irradiation layer and damage attractive in appearance from transparent bell glass.Therefore wish to obtain roughly normalization and have the warming moxibustion apparatus of the shovel shape of good appearance of a kind of radiation that can make far infrared.

Summary of the invention

The present invention proposes in view of above-mentioned problem, and its purpose is to provide a kind of and can carries out the radiation of the far infrared of normalization roughly and have the warming moxibustion apparatus of the shovel shape of good appearance.

Warming moxibustion apparatus of the present invention is characterised in that this warming moxibustion apparatus possesses: the main body of shovel shape; Be provided in the heater of body front part; Arcuation and transparent far infrared see through cover, are arranged on the outside of heater, and the outer surface of convex surface is connected to human body and is formed with micro concavo-convex on the inner surface of concave curved surface; The far infrared irradiation layer is coated with and is located at far infrared through on the inner surface that is formed with micro concavo-convex that covers; With claylike far infrared irradiation material, see through cover inner close fitting far infrared irradiation layer ground at far infrared and fill.

Moreover, warming moxibustion apparatus of the present invention is characterised in that, the temperature that this warming moxibustion apparatus can be adjusted to the output of heater with far infrared sees through the outer surface of cover becomes the corresponding output of cryogenic heter temperature in 37 ℃～43 ℃ the scope and becomes the corresponding output of pyritous heter temperature in 65 ℃～75 ℃ the scope with temperature that far infrared sees through the outer surface of cover.

Moreover, warming moxibustion apparatus of the present invention is characterised in that, this warming moxibustion apparatus can be regulated heater output, control part is imported to cryogenic change from high temperature corresponding to heater output, reduce heater output and make the cooling fan action, detection corresponding to the heter temperature corresponding with this low temperature of critesistor equitemperature test section stops cooling fan.

Moreover, warming moxibustion apparatus of the present invention is characterised in that, the position roughly corresponding at the 1st side with heater heating face at heater rear is provided with cooling fan, is formed with air inlet in main body with this heater roughly corresponding position of the 2nd side of roughly opposition side of the 1st side of face that generates heat.Above-mentioned the 1st side for example is the front end or the rear end of heater heating face, and above-mentioned the 2nd side for example is heater the generate heat rear end or the front end of face.

Moreover warming moxibustion apparatus of the present invention is characterised in that far infrared sees through cover and formed by the low material of heat conductivity.For example far infrared sees through cover and is the transparent bell glass that makes far infrared and see through or resin cover etc.

Moreover warming moxibustion apparatus of the present invention is characterised in that, is formed with the space between heater and far infrared irradiation material.

Moreover warming moxibustion apparatus of the present invention is characterised in that, makes the heating face of heater closely contact setting with the far infrared irradiation material.

In addition, warming moxibustion apparatus of the present invention also comprises appends specific item to each invention, perhaps the part with the specific item of each invention changes to other specific items, perhaps under the limit of performance partial action effect from the specific item of each invention the specific item of deletion and the warming moxibustion apparatus that obtains.

Warming moxibustion apparatus of the present invention is owing to be coated with the far infrared irradiation layer on the inner surface that is formed with micro concavo-convex of far infrared through cover, so the far infrared irradiation layer is by being fixed on the inner surface with high strength with engaging of micro concavo-convex, thereby can prevent peeling off of far infrared irradiation layer.And then, because claylike far infrared irradiation material is filled in the cover with being close to the far infrared irradiation layer, so for example in the generation of far infrared irradiation layer bubble the position and local position of peeling off has appearred, also can dispose the far infrared irradiation material, moreover, since claylike far infrared irradiation material and far infrared irradiation layer be close to the intensity height, so the configuration of far infrared irradiation material becomes stable.Therefore; can see through on roughly whole that covers at far infrared and dispose far infrared irradiation layer or radioactive material reliably; the radiation that can make far infrared is normalization roughly, and can not see through cover from transparent far infrared and not see and can improve the attractive in appearance of warming moxibustion apparatus in the gap.And then, can guarantee far infrared irradiation layer or radioactive material that surface area is big, human body is shone far infrared effectively.

Moreover, by the thermoregulation that far infrared can be seen through cover outer surface the high temperature in the scope of low temperature in 37 ℃～43 ℃ the scope and 65 ℃～75 ℃, user is used at the warming moxibustion apparatus fixation that to become the temperature that is slightly higher than body temperature under the situation of desirable human body be above-mentioned 37 ℃～43 ℃ low temperature, can be strong thermostimulation, can use for a long time, moreover, move under the situation of use along skin in warming moxibustion apparatus, can use with above-mentioned 65 ℃～75 ℃ high temperature, thus can adapt to the above-mentioned fixation of user and situation about moving under use.And then, move along skin under the situation of use in warming moxibustion apparatus, because sendible temperature descends about 20 ℃～30 ℃, so can make sendible temperature roughly the same under the user mode of above-mentioned fixation and above-mentioned mobile user mode.

Moreover, heter temperature from high temperature when low temperature changes, make cooling fan action up to reaching set heter temperature, can reduce the temperature that heter temperature and far infrared see through cover outer surface thus rapidly.

Moreover, by cooling fan being set in the roughly corresponding position of the 1st side with heater heating face at heater rear, the position roughly corresponding at the 2nd side main body and roughly opposition side the 1st side forms air inlet, can form along the air-flow at the back side of heater, thus the heat cooling that can seize heater by said flow efficiently.

Moreover, see through cover by far infrared and form by the low material of pyroconductivity, weakened the conduction of heat of the heating of heater, therefore can suppress the excessive thermostimulation of human body or violent thermostimulation.

Moreover, by between heater and far infrared irradiation material, forming the space, can weaken conduction of heat, thereby can suppress the excessive thermostimulation of human body or violent thermostimulation.

Moreover, closely contact setting by the heating face that makes heater with the far infrared irradiation material, can make the heat that sends be passed to far infrared irradiation material/far infrared irradiation layer/far infrared effectively and see through cover, can reduce consumption electric power.

Description of drawings

Fig. 1 (a) is the front view of the warming moxibustion apparatus of the 1st embodiment, and Fig. 1 (b) is the vertical view of the warming moxibustion apparatus of the 1st embodiment,

Fig. 2 is the longitudinal section of the warming moxibustion apparatus of the 1st embodiment,

Fig. 3 is the vertical profile key diagram of stepped construction of bell glass, far infrared irradiation layer and far infrared irradiation material of the warming moxibustion apparatus of expression the 1st embodiment,

Fig. 4 is the piece figure that the control of the warming moxibustion apparatus of expression the 1st embodiment constitutes,

Fig. 5 is the vertical profile key diagram of configuration structure of bell glass, far infrared irradiation layer and far infrared irradiation material of the warming moxibustion apparatus of expression the 2nd embodiment.

The specific embodiment

The 1st embodiment to warming moxibustion apparatus of the present invention describes.

As Fig. 1～shown in Figure 3, the warming moxibustion apparatus 1 of the shovel shape of the 1st embodiment has to overlook and is the main body 2 of the shovel shape of spoon literal shape roughly, is formed with oval-shaped opening 3 in the front portion of main body 2.Internal fixation at opening 3 is provided with thermal insulation board 4, this thermal insulation board 4 has with opening 3 overlooks roughly the same shape and roughly the same size, and has recess 4a in central authorities, and the heater 5 with flat heating face 5a of but undersized roughly the same with opening 3 plan view shapes holds and is arranged among the thermal insulation board recess 4a, and heating face 5a is configured in the front surface of thermal insulation board 4.5b is arranged on the critesistor in the heater 5.

The place ahead at the heating face 5a of heater 5, the transparent far infrared that contacts with body local as the outer surface of convex surface sees through cover, be provided with the bell glass of overlooking to oval-shaped arcuation 6 with leaving, bell glass 6 be that to be formed on snap-latch piece 6a and cross-section that periphery along the opening 3 of main body 2 sets on the periphery be that the 2a of the portion that is stuck of all shapes of コ font is provided with engaging in the place ahead with the convex surface.Snap-latch piece 6a by the above-mentioned L of being bent into font be stuck bell glass 6 that engaging of the 2a of portion carry out mounting stability height to opening 3, and do not need sealing, be preferred, but for example also can be such formation etc.: making the periphery of bell glass of the arcuation of the substantially elliptical with snap-latch piece 6a be that ground, the place ahead embeds in the opening of main body with its convex surface, and it embeds position by gasket seal.In addition, far infrared of the present invention sees through cover and is preferably formed by the low material of heat conductivity, for example can use the above-mentioned bell glasss 6 of replacement such as the low resin cover of heat conductivity.

As shown in Figure 3, be provided with the micro concavo-convex 6b that forms by sandblast etc. at the inner surface of the concave curved surface of bell glass 6.Coating sintering or welding far infrared irradiation layer 7 on the inner surface that is formed with micro concavo-convex 6b of bell glass 6, far infrared irradiation layer 7 engages with the micro concavo-convex 6b of the inner surface that is formed on bell glass 6 and is affixed with high strength.In the concave curved surface of bell glass 6, on far infrared irradiation layer 7, fill and imbedded claylike far infrared irradiation material 8.Far infrared irradiation material 8 contact with upper surface and heater heating face 5a face, and the mode that contact with the high far infrared irradiation layer 7 of coefficient of friction fills, and prevented mobile in the concave curved surface of bell glass 6 and be offset, thereby with high stability setting.In addition, far infrared irradiation material 8 and heating face 5a can also be to use the good binding agent of heat conductivity etc. and the formation be close to except closely contacting the formation that sets simply.

Above-mentioned far infrared irradiation layer 7 and claylike far infrared irradiation material 8 can use suitable material, for example can use naturally radioactive rare element mineral, the carbon etc. such as pottery, tourmaline, thorium, radon of aluminium oxide magnesium oxide zirconium etc. separately, perhaps use two or more combination etc.And then, also can mix the pottery in the patent documentation 6: heat by powder to the flower of the hot water that contains natural radium, remove sulfur component, forming pulverous material with clay is heated mixes, adding moisture content then is shaped to spherical or tabular, carry out drying, thereby at high temperature heat potteryization.

In addition, inner surface at bell glass 6 applies and forms under the situation of far infrared irradiation layer 7, the Ore that for example will have a far infrared radiation function and heat transfer adhesive stir with the mixed proportion of 1.5 weight % and 98.5 weight % etc. and mix, this mixture is coated on the inner surface of bell glass 6, put into vacuum desiccator, remove bubble by vacuum draw, push then and be coated with application, realization is taken off method and is filled, placed about 3～5 hours, utilize awl in the half admittedly surperficial perforate of the adhesive changed of shape then, keep such natural drying about 1～2 day.Then, use special fixture with the bell glass 6 of pressurized state be coated with application and put into exsiccator, be warming up to about 120 ℃ with about 2 hours, keep this state more than 5 hours, and then after placing naturally, put into the hermetic container that is placed with desiccant and take care of, bell glass 6 through above these etc. operation form.The mixed proportion of above-mentioned Ore with far infrared radiation function and heat transfer adhesive is preferably at Ore: 0.1～10 weight %, heat transfer adhesive: the scope of 99.9～90 weight %.

The thermal insulation board 4 in main body 2 and the rear of heater 5, be provided with cooling fan 9 in position corresponding to the roughly rear end of opening 3 and heater heating face 5a, be formed with the air vent 2b of a plurality of slit-shaped in the position of the behind that is positioned at cooling fan 9 of main body 2, be formed with the air inlet 2c of slit-shaped in addition in the front end side of main body 2.By making cooling fan 9 action, the air that has been risen by the heating of heater 5 in the main body 2 is discharged from air vent 2b, simultaneously extraneous gas is taken in the main body 2 from air inlet 2c.Air inlet 2c from the roughly front end that is positioned at heater heating face 5a, towards being positioned at the roughly cooling fan 9 and the air vent 2b of rear end, formation is cooled off heater heating face 5a etc. along the air-flow of heater heating face 5a thereby can seize heat efficiently by this air-flow.

Inside at the handle portion of main body 2 is equipped with circuit accommodation section 10.Accommodate control circuit 101, on-off circuit 102 and AC/DC adapter 103 in circuit accommodation section 10, this control circuit 101 is made of CPU and memorizer, and CPU carries out set processing (with reference to Fig. 4) according to the control sequence that is stored in the memorizer.As shown in Figure 4, on-off circuit 102 carries out the switching with the ON/OFF or the operating state of lower member corresponding to the control of control circuit 101: remain the thermostat 5c of both fixed temperatures and the heater 5 that connects, cooling fan 9, LED lamp 11d described later and the buzzer 13 (not shown among Fig. 1～Fig. 3) of having sounded in set mode when having begun to pass through given time from use and when pressing button 11a described later～11c via the temperature with heater.

Front surface at the handle portion of main body 2 is provided with operation inputting part 11, operation inputting part 11 be provided with power knob 11a, with heater generate heat temperature that the temperature of face 5a is set at the outer surface of bell glass 6 become 37 ℃, 40 ℃, 43 ℃ low temperature mode low temperature mode button 11b, with heater generate heat temperature that the temperature of face 5a is set at the outer surface of bell glass 6 become 65 ℃, 70 ℃, 75 ℃ high temperature mode high temperature mode button 11c and select red and green and can bright lamp/LED lamp 11d of turning off the light.Controlled circuit 101 identifications of the input that each button 11a～11c carries out, the set control instruction of 101 pairs of on-off circuits of control circuit, 102 outputs.The 12nd, power line, the power supply that alternating current power supplys such as home-use socket 14 are produced offers AC/DC adapter 103.

State in the use under the situation of warming moxibustion apparatus 1 of embodiment, when pushing one second left and right sides of power knob 11a, power connection, control circuit 101 is corresponding to the input of power knob 11a, gauge tap circuit 102, so that heater 5 is with for example 47 ℃ of outputs of both fixed temperatures corresponding to 37 ℃ of the hull-skin temperatures of bell glass 6 of heater 5, on-off circuit 102 makes heater 5 be the ON state under the state of above-mentioned both fixed temperatures.And then, control circuit 101 will compare from instrumentation value and above-mentioned both fixed temperatures of critesistor 5b input, detect above-mentioned both fixed temperatures,, make a LED lamp 11d who is arranged in subordinate light up as green (low temperature state of low temperature mode) corresponding to above-mentioned detection gauge tap circuit 102.By the output of heater 5, to far infrared irradiation material 8, far infrared irradiation layer 7 and bell glass 6 heating that contact with heater heating face 5a face, the human body that the outer surface with bell glass 6 contacts is heated, and to the human body emitting far infrared ray.

Then, control circuit 101 is imported corresponding to about one second the temperature change of carrying out of pushing of high temperature mode button 11c, gauge tap circuit 102, so that heater 5 is with for example 75 ℃ of outputs of both fixed temperatures corresponding to 65 ℃ of the hull-skin temperatures of bell glass 6 of heater 5, on-off circuit 102 makes the output of heater 5 change to the state of above-mentioned both fixed temperatures.And then, control circuit 101 will compare from instrumentation value and above-mentioned both fixed temperatures of critesistor 5b input, detect above-mentioned both fixed temperatures,, make a LED lamp 11d who is arranged in subordinate light up as redness (low temperature state of high temperature mode) corresponding to above-mentioned detection gauge tap circuit 102.

Then, control circuit 101 is imported by the temperature change of carrying out corresponding to the length of high temperature mode button 11c, gauge tap circuit 102, so that heater 5 is with for example 80 ℃ of outputs of both fixed temperatures corresponding to 70 ℃ of the hull-skin temperatures of bell glass 6 of heater 5, on-off circuit 102 makes the output of heater 5 change to the state of above-mentioned both fixed temperatures.And then, control circuit 101 will compare from instrumentation value and above-mentioned both fixed temperatures of critesistor 5b input, detect above-mentioned both fixed temperatures,, make to be arranged in subordinate and medium two LED lamp 11d light up as redness (temperature state of high temperature mode) corresponding to above-mentioned detection gauge tap circuit 102.

Then, control circuit 101 is imported by the temperature change of carrying out corresponding to the length of high temperature mode button 11c, gauge tap circuit 102, so that heater 5 is with for example 85 ℃ of outputs of both fixed temperatures corresponding to 75 ℃ of the hull-skin temperatures of bell glass 6 of heater 5, on-off circuit 102 makes the output of heater 5 change to the state of above-mentioned both fixed temperatures.And then, control circuit 101 will compare from instrumentation value and above-mentioned both fixed temperatures of critesistor 5b input, detect above-mentioned both fixed temperatures, corresponding to above-mentioned detection gauge tap circuit 102, make three LED lamp 11d that are arranged in subordinate, middle rank and higher level light up as redness (condition of high temperature of high temperature mode).And then, when the length by high temperature mode button 11c when carrying out temperature change input, the cryogenic processing that control circuit 101 is carried out in the above-mentioned high temperature mode, length by further high temperature mode button 11c is imported by the temperature change of carrying out, and shifts annularly in the low temperature in high temperature mode/middle temperature/pyritous state.That is, can carry out temperature in high temperature mode sets interimly.

Moreover, control circuit 101 is pushed about the one second length of low temperature mode button 11b by the temperature change input of being carried out corresponding to the low temperature state from above-mentioned low temperature mode, gauge tap circuit 102, so that heater 5 is with the both fixed temperatures corresponding to 40 ℃ of the hull-skin temperatures of bell glass 6 of heater 5, for example 50 ℃ of outputs, on-off circuit 102 makes the output of heater 5 change to the state of above-mentioned both fixed temperatures.And then, control circuit 101 will compare from instrumentation value and above-mentioned both fixed temperatures of critesistor 5b input, detect above-mentioned both fixed temperatures,, make to be arranged in subordinate and medium two LED lamp 11d light up as green (temperature state of low temperature mode) corresponding to above-mentioned detection gauge tap circuit 102.

Then, control circuit 101 is imported by the temperature change of being carried out corresponding to the length of low temperature mode button 11b, gauge tap circuit 102, so that heater 5 is with the both fixed temperatures corresponding to 43 ℃ of the hull-skin temperatures of bell glass 6 of heater 5, for example 53 ℃ of outputs, on-off circuit 102 makes the output of heater 5 change to the state of above-mentioned both fixed temperatures.And then, control circuit 101 will compare from instrumentation value and above-mentioned both fixed temperatures of critesistor 5b input, detect above-mentioned both fixed temperatures, corresponding to above-mentioned detection gauge tap circuit 102, make three LED lamp 11d that are arranged in subordinate, middle rank and higher level light up as green (condition of high temperature of low temperature mode).And then, when the length by low temperature mode button 11b when carrying out temperature change input, the cryogenic processing that control circuit 101 is carried out in the above-mentioned low temperature mode, length by further low temperature mode button 11b is imported by the temperature change of carrying out, and shifts annularly in the low temperature in low temperature mode/middle temperature/pyritous state.That is, can carry out temperature in low temperature mode sets interimly.

In addition, in said temperature change when pyritous state is shifted to cryogenic state, control circuit 101 is corresponding to temperature change input gauge tap circuit 102, make cooling fan 9 actions, control circuit 101 will compare from instrumentation value and above-mentioned cryogenic both fixed temperatures of critesistor 5b input, detect above-mentioned both fixed temperatures,, the action of cooling fan 9 is stopped corresponding to above-mentioned detection gauge tap circuit 102.According to above-mentioned formation, can move to low temperature state from the condition of high temperature apace.In addition, also can adopt when temperature transfer,, make LED lamp 11d, perhaps make buzzer 13 with the formation of set mode sounding etc. for example with formation green or red flicker by the control of 101 pairs of on-off circuits 102 of control circuit.

In addition, the formation that in above-mentioned the 1st embodiment, is provided with in intimate contact for the upper surface that makes the heating face 5a of heater 5 and far infrared irradiation material 8, thereby 5a transmits heat efficiently via far infrared irradiation material 8, far infrared irradiation layer 7 and 6 pairs of human bodies of bell glass from heater heating face, realized consuming the reduction of electric power, but also can be shown in the 2nd embodiment of Fig. 5, adopt upper surface at far infrared irradiation material 8 to generate heat the formation in space 15 is set between the face 5a with heater.In the formation that is provided with above-mentioned space 15, the heat that heater heating face 5a produces via the low transfer of air of pyroconductivity to far infrared irradiation material 8, and then via the far infrared irradiation layer 7 and the low bell glass 6 of pyroconductivity of film like, be passed to the human body that contacts with the outer surface of bell glass 6, therefore can prevent violent thermostimulation human body.

The height in the space 15 between heater heating face 5a and the far infrared irradiation material 8; the bed thickness that is air layer is for example as the 1st embodiment; setting is along the membranaceous far infrared irradiation layer 7 of the inner surface bending of the bell glass 6 of substantially elliptical arcuation; far infrared irradiation material 8 is set above this far infrared irradiation layer 7; and make the recess of its substantially elliptical arcuation of imbedding far infrared irradiation layer 7 and bell glass 6 and upper surface is positioned on the face; when this height constant; be fit to the integral body of far infrared irradiation material 8 and far infrared irradiation layer 7 is transmitted the roughly heat of normalization; for example far infrared irradiation material 8 also can be same with far infrared irradiation layer 7; form along the stratiform of the membranaceous or concave curved surface of the shape bending of the concave curved surface of the substantially elliptical arcuation of far infrared irradiation layer 7 and bell glass 6; form height variable space 15 between the concave curved surface of flat heating face 5a and far infrared irradiation material 8, thereby make the height in space 15 and air bed thickness thereof variable.

Moreover, under the situation that far infrared irradiation material 8 is formed by concave curved surface, the shape that for example also can be heating face 5a and far infrared irradiation material 8 as one man is concave curved surface, the formation that the concave curved surface of the concave curved surface of above-mentioned far infrared irradiation material 8 and heating face 5a is provided with in intimate contact perhaps is provided with the formation in height and air bed thickness constant or variable space 15 between the concave curved surface of the concave curved surface of above-mentioned far infrared irradiation material 8 and the face of heating 5a.

Industrial applicibility

The inventive example is as can be as when moving on being pressed against shoulder etc. or along skin human body being heated and shining the moxibustion warmer of far infrared.

Claims (7)

1. warming moxibustion apparatus is characterized in that having:

The main body of shovel shape;

Be provided in the heater of body front part;

Arcuation and transparent far infrared see through cover, are arranged on the outside of above-mentioned heater, and the outer surface of convex surface is connected to human body and is formed with micro concavo-convex on the inner surface of concave curved surface;

The far infrared irradiation layer is coated with and is located at above-mentioned far infrared through on the inner surface that is formed with micro concavo-convex that covers; With

Claylike far infrared irradiation material sees through the above-mentioned far infrared irradiation layer of cover inner close fitting ground at above-mentioned far infrared and fills,

This warming moxibustion apparatus can be regulated above-mentioned heater output, control part is imported to cryogenic change from high temperature corresponding to above-mentioned heater output, reduce above-mentioned heater output and make the cooling fan action, detection corresponding to the heter temperature corresponding with this low temperature of temperature detecting part stops above-mentioned cooling fan.

2. warming moxibustion apparatus is characterized in that having:

The main body of shovel shape;

Be provided in the heater of body front part;

Arcuation and transparent far infrared see through cover, are arranged on the outside of above-mentioned heater, and the outer surface of convex surface is connected to human body and is formed with micro concavo-convex on the inner surface of concave curved surface;

The far infrared irradiation layer is coated with and is located at above-mentioned far infrared through on the inner surface that is formed with micro concavo-convex that covers; With

Claylike far infrared irradiation material sees through the above-mentioned far infrared irradiation layer of cover inner close fitting ground at above-mentioned far infrared and fills,

The hull-skin temperature that this warming moxibustion apparatus can be adjusted to the output of above-mentioned heater with above-mentioned far infrared sees through cover becomes the output of the corresponding low temperature mode of cryogenic heter temperature in 37 ℃～43 ℃ the scope and becomes the output of the corresponding high temperature mode of pyritous heter temperature in 65 ℃～75 ℃ the scope with hull-skin temperature that above-mentioned far infrared sees through cover, and can be adjusted to interim temperature in the low temperature mode and the interim temperature in the high temperature mode.

3. warming moxibustion apparatus as claimed in claim 1 or 2 is characterized in that,

Utilization has Ore 0.1～10 weight % of far infrared radiation function and the mixture of heat transfer adhesive 99.9～90 weight % forms the far infrared irradiation layer.

4. warming moxibustion apparatus as claimed in claim 1 is characterized in that, at the rear of main intravital heater, is provided with cooling fan in the position corresponding to the rear end of heater heating face,

Be provided with air vent in the above-mentioned cooling fan of being positioned at of aforementioned body position behind,

Front end side in aforementioned body is formed with air inlet.

5. warming moxibustion apparatus as claimed in claim 1 or 2 is characterized in that, is formed with the space between above-mentioned heater and above-mentioned far infrared irradiation material, above-mentioned spatial height constant.

6. warming moxibustion apparatus as claimed in claim 1 or 2 is characterized in that, makes the heating face of above-mentioned heater closely contact setting with the far infrared irradiation material.

7. warming moxibustion apparatus as claimed in claim 1 or 2, it is characterized in that, see through at above-mentioned far infrared on the periphery of cover and form the snap-latch piece that bends to the L font, forming the cross section along the periphery of the opening of aforementioned body is the portion that is stuck of コ font, above-mentioned snap-latch piece is engaged to above-mentionedly be stuck portion and above-mentioned far infrared is seen through cover be installed to above-mentioned opening.

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