JP3795583B2 - Infrared therapy device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an infrared therapy device.
[0002]
[Prior art]
Conventionally, as an infrared therapy device used to loosen muscle stiffness by the thermal effect, an infrared heater is disposed in front of the cylindrical casing, a fan is disposed behind the infrared heater, and the cylindrical casing is used as a support column. There is a series of infrared heaters, with an infrared plate and insulating layer formed by coating and firing ceramics on the front surface of a stainless steel plate or aluminum plate on the front surface of a heater substrate that has a heating wire wound around the surface of a thin plate. In addition, an insulating layer and a back plate are laminated on the rear surface of the heater substrate.
[0003]
[Problems to be solved by the invention]
However, in the conventional infrared treatment device, since the heat capacity of the infrared heater is large, even if the infrared heater is energized, the temperature at which far infrared rays are radiated does not increase immediately, and generally about several minutes. Even after turning on the infrared therapy device, far-infrared rays actually act on the affected area after a few minutes. Until then, the amount of radiant heat is small, so the affected area is not warmed up. Since it was not, the fan arrange | positioned behind the infrared heater was blowing the heat | fever of the infrared heater toward the affected part.
[0004]
Therefore, in addition to the power for heating the infrared heater, the power for driving the fan is required, the power consumption of the infrared therapy device is increased, and sound and vibration may be generated by the rotation of the fan. In addition, it was difficult to say that the user had a good feeling of use.
[0005]
[Means for Solving the Problems]
The present invention, in the infrared treatment device formed by arranging the fan behind the infrared heater, disposed a temperature sensor in the vicinity of the infrared heater, between the fan and the infrared heater, immediately after energization heating possible is disposed an auxiliary heater to promote temperature rise of the infrared heater, and drives the fan as well as energizing the infrared heater and the auxiliary heater and turning on the power, the infrared heater far by the temperature sensor when it is detected that reaches or exceeds a certain temperature emits infrared, while operating the said infrared heater, the fan and reduces the output of the auxiliary heater, or the Ru to stop the fan and the auxiliary heater It is said.
[0006]
In addition, in the infrared treatment device in which a fan is disposed behind the infrared heater, a timer is provided , and heat can be generated immediately after energization between the infrared heater and the fan, thus promoting the temperature rise of the infrared heater. When the power is turned on, the infrared heater and the auxiliary heater are energized and the fan is driven, and the timer detects that the infrared heater has radiated far infrared rays for a certain period of time. sometimes, while operating the said infrared heater, the fan and reduces the output of the auxiliary heater, or is set to be Ru stopping the fan and the auxiliary heater.
[0007]
Further, after the fan is stopped, the fan is normally driven when it is detected by a timer that a predetermined time or more has elapsed.
[0008]
Furthermore, the output of the infrared heater is reduced when it is detected by the temperature sensor that the temperature has reached a certain temperature or higher .
[0009]
In addition, the output of the infrared heater is reduced when it is detected by a timer that a predetermined time or more has elapsed .
[0010]
In addition, a temperature sensor is disposed in front of the fan, a blocking wall is formed immediately after the temperature sensor, and the fan is configured to be blocked by the blocking wall .
[0011]
Further , a temperature sensor is arranged in front of the infrared heater .
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
[0015]
1 to 3 show an infrared treatment device A according to the present invention, and the infrared treatment device A is formed in a handy type in which a grip portion 2 is attached to the lower part of the outer peripheral surface of a cylindrical head casing 1. The therapeutic device main body A1 can be placed in a state where the grasping portion 2 is inserted into the support cylinder portion 30 protruding from the stand 3.
[0016]
The grip 2 is pivotably supported by a mounting pivot 1a formed on the lower part of the outer peripheral surface of the head casing 1, and can be folded. An operation switch 10 and an LED display type display are provided on the front of the grip 2. The operation part B consisting of 11 is attached, and the power cord C is extended from the lower end of the grip part 2. Reference numeral 2a denotes a pivot shaft, and reference numeral 31 denotes a slit formed in a support cylinder portion of the stand 3 for allowing the power cord C to escape.
[0017]
The head casing 1 is formed by joining a pair of left and right halved casings 1b, 1b. The head casing 1 is formed in a cylindrical shape having front and rear end openings that gradually increase in diameter from the center portion to the front end portion. The end openings 13 are fitted with mesh-like front and rear cover bodies 14 and 15, respectively. A ring 15a is fitted around the rear cover body 15, and a cap 16 is detachably attached to the front end opening 12 of the head casing 1.
[0018]
Further, as shown in FIG. 2, the head casing 1 includes, in order from the front, a bun-shaped reflector 5, an infrared heater 4 that radiates far infrared rays, a thermal fuse 63 and a temperature sensor 20, immediately after energization. The auxiliary heater 7 capable of generating heat and the fan 8 and the fan motor 82 for sending the heat of the auxiliary heater 7 from the front end opening 12 toward the affected part are provided.
[0019]
The infrared heater 4 includes a circular back plate 41 having a screw body 41a projecting thereon, and a circular infrared plate 40 obtained by applying ceramics to a metal plate such as stainless steel or aluminum. The heater substrate 43 is interposed between mica plates as an insulating plate 42, and the heater substrate 43 is formed by winding a heating wire 43a around a thin plate surface along a thin plate surface. Yes.
[0020]
An engagement flange E4 formed on the outer periphery of the cylindrical cylindrical unit casing E is sandwiched between ribs 1c formed on the inner peripheral surfaces of the pair of left and right head casings 1, and a hollow portion D of the cylindrical unit casing E is sandwiched therebetween. A ring-shaped annular fixing plate 17 is attached to the mounting hole 90 of the buffering projecting piece 9 formed on the annular fixing plate 17, and a screw body 41a protruding from the back plate 41 of the infrared heater 4 is used as a cushioning member. 91 is attached. The cylindrical unit casing E is composed of a front short cylindrical part E1 and a rear ring part E2, and an annular fixing plate 17 is attached to a clamping claw E3 formed in the middle of the hollow part D of the cylindrical unit casing E. An engaging convex piece 17b formed on the outer periphery of the annular portion 17a is locked.
[0021]
The infrared heater 4 can be composed of only the heater substrate 43 and the heating wire 43a in the above configuration, and is obtained by sintering and pulverizing powder as an infrared radiator, for example, silicate as a main material. It is good also as what coated the thing by methods, such as spraying and dipping, through a binder.
[0022]
The thermal fuse 63 is connected to the mounting surface 60a of the mounting plate 60 mounted together with the annular fixing plate 17 in the hollow portion D of the cylindrical unit casing E via an infrared heater via a metal fuse mounting member 63a such as stainless steel. 4 is attached in a close contact state, and when an abnormal temperature is reached, the thermal fuse 63 is immediately activated to cut off the power source of the infrared treatment device A. 60b is a mounting leg piece, and 63b is a mounting screw.
[0023]
The auxiliary heater 7 uses a bare heater wire that generates heat immediately after being energized. As shown in FIGS. 2 and 3, a coil-shaped heater is formed on a coil substrate 71 formed by combining two substrates in a cross-sectional shape. It is constructed by winding a wire, accommodated in a cylindrical heat shield casing 70 having a diameter smaller than that of the infrared heater 4, and attached to a heat shield casing fitting piece E5 formed at the rear end of the cylindrical unit casing E. Yes. 80 is a fan case, 81 is a fan drive shaft.
[0024]
In addition, a thermostat 62 is connected in series to the auxiliary heater 7, and, similar to the temperature fuse 63, the power to the auxiliary heater 7 is turned off when the temperature inside the head casing 1 becomes abnormal.
[0025]
The reflecting plate 5 is a metal plate such as stainless steel or aluminum formed in a truncated cocoon shape, and the peripheral edge of the reflecting plate 5 is sandwiched between the cap 16 and the front end opening 12 and the infrared heater 4 is attached. It arrange | positions so that it may surround.
[0026]
Then, by facing the front end of the heat shield casing surrounding the auxiliary heater 7 to the pier portion of the reflector 5, a hot air path is formed along the surface of the reflector 5 as shown in FIG. The warm air guided by the warm air path and sent from the auxiliary heater 7 by the fan 8 is blown from the front end opening 12 toward the affected area.
[0027]
Next, the operation of the infrared treatment device A will be described based on the circuit block diagram shown in FIG. 5. When the operation switch 10 is operated and the power is turned on, the 20-minute timer 23 is activated, All the indicator lamps are turned on to display 20 minutes, which is considered to be the optimum treatment time per affected area.
[0028]
At the same time as the power is turned on, the on / off switch 29 and the switch 25 are connected by the control unit 24 and the infrared heater 4 and the auxiliary heater 7 are energized, and the fan 8 is driven. The heat of about 50 degrees is blown to promote the temperature rise of the infrared heater 4 and the warm air is sent to the affected area immediately after the infrared treatment device A rises. The appropriate distance from the front end opening 12 of the head casing 1 to the affected part is about 20 cm. During this time, hot air of about 50 degrees becomes warm air of about 30 to 40 degrees that gives comfort to the human body. It acts on the affected area.
[0029]
Thereafter, when the temperature sensor 20 detects that the infrared heater 4 has reached a temperature of about 250 ° C. sufficient to radiate far-infrared rays, the control unit 24 turns off the switch 25 to turn off the auxiliary heater 7 and the fan 8. Like to stop.
[0030]
And as time passes, the number of lighting of the display unit 11 is reduced so that the usage time can be easily recognized, and after a predetermined time, that is, 20 minutes, all the display unit 11 is turned off, and The power is turned off.
[0031]
As described above, since the auxiliary heater 7 and the fan 8 are stopped when the temperature sensor 20 detects that the temperature exceeds a certain temperature, immediately after the infrared treatment device A is operated, the auxiliary heater 7 and Warm air is blown to the affected part by the fan 8 to improve the feeling of use, and while the infrared treatment device A is in use, the power consumption of the infrared treatment device A can be reduced, and the fan 8 The sound and vibration due to the rotation of the can be eliminated, and the usability can be improved.
[0032]
In this embodiment, the auxiliary heater 7 and the fan 8 are stopped when the temperature sensor 20 detects that the temperature exceeds a certain temperature. However, the timer 23 is used in place of the temperature sensor 20, and the timer 23 The auxiliary heater 7 and the fan 8 can be stopped when it is detected that a certain time or more has elapsed.
[0033]
That is, the time required for the infrared heater 4 to reach the temperature at which far-infrared radiation is emitted after energization is measured in advance, and when the timer 23 detects that the required time (for example, 3 minutes) has elapsed after power-on, 24, the switch 25 is turned off and the auxiliary heater 7 and the fan 8 are stopped. As described above, the power consumption of the infrared therapy device A can be reduced, and the sound and vibration caused by the rotation of the fan 8 can be eliminated. It is possible to improve the feeling of use.
[0034]
In this embodiment, the auxiliary heater 7 and the fan 8 are stopped. However, the power consumption of the infrared treatment device A can be reduced by reducing the outputs of the auxiliary heater 7 and the fan 8. The sound and vibration caused by the rotation of the fan 8 can be reduced.
[0035]
Further, since the temperature sensor 20 is mounted on the front surface of the mounting plate 60 functioning as a blocking wall and the air flow from the fan 8 is blocked by the mounting plate 60, the temperature sensor 20 is affected by the air flow from the fan 8. The temperature sensor 20 is configured not to malfunction.
[0036]
FIG. 11 is a diagram schematically showing an infrared treatment device A according to the present invention. In this embodiment, as shown in FIG. 11, the temperature sensor 20 is mounted on the front surface of the mounting plate 60 that functions as a blocking wall. Although attached, it can also be arranged in front of the infrared heater 4.
[0037]
In this case, the temperature sensor 20 is not affected by the air blown by the fan 8 without increasing the number of components, and the temperature of the far infrared rays emitted from the infrared heater 4 can be sensed. It can be configured such that 20 operates more accurately.
[0038]
FIG. 6 is a diagram showing a circuit block of an infrared treatment device A as a second embodiment. In this embodiment, a heater switch 26 is connected in series to the infrared heater 4 and the auxiliary heater 7, and the heater switch 26 has a switch configuration that can operate the infrared heater 4 and the auxiliary heater 7 independently by using a two-contact relay or the like.
[0039]
Then, the control unit 24 performs control as shown in FIG.
[0040]
That is, when the infrared treatment device A is turned on by operating the operation switch 10 (A), the control unit 24 puts the heater switch 26, the fan switch 34, and the on / off switch 29 in the connected state so that the infrared heater 4 and the auxiliary heater are connected. 7. All the fans 8 are operated, and warm air is blown to the affected area immediately after the use of the infrared treatment device A to improve the feeling of use.
[0041]
When the temperature sensor 20 detects that the temperature exceeds a certain temperature (B), the control unit 24 turns off the switch on the auxiliary heater 7 side of the heater switch 26 and the fan switch 34 to turn off the auxiliary heater 7. In addition, the fan 8 is stopped, the power consumption of the infrared treatment device A is reduced, and the sound and vibration due to the rotation of the fan 8 are eliminated, so that the usability is improved.
[0042]
Moreover, when it is detected by the timer 23 that a certain time has elapsed (C), the control unit 24 turns off the switch on the infrared heater 4 side of the heater switch 26 and turns the fan switch 34 back on. The infrared heater 4 is stopped and the fan 8 is restarted, the infrared heater 4 and the front cover body 14 are cooled, and the infrared treatment device A itself heated by use for a predetermined time is also cooled. Even if the hand touches the cover body 14, there is no fear of burns and the infrared therapeutic device A is excellent in safety.
[0043]
At this time, by setting the fixed time as, for example, 2 minutes before the timer set time set by the user at the start of use, the user can confirm that the timer set time will soon end by restarting the fan 8. In addition, when it is desired to extend the use of the infrared treatment device A, the timer set time can be extended.
[0044]
When the timer set time has elapsed (D), the control unit 24 turns off the on / off switch 29 and the fan switch 34 to stop the fan 8.
[0045]
Also in this embodiment, as in the first embodiment, the timer 23 is used in place of the temperature sensor 20, and when the timer 23 detects that a predetermined time or more has elapsed (B), the auxiliary heater 7 and the fan 8 may be stopped.
[0046]
Further, as described above, the output may be reduced without completely stopping the auxiliary heater 7 and the fan 8.
[0047]
FIG. 8 is a diagram showing a circuit block of an infrared treatment device A as a third embodiment. In this embodiment, a temperature sensor 20 is connected in series to the auxiliary heater 7, and as the temperature sensor 20, Bimetal or thermistor can be used. 32 is a timer switch that operates to turn off the power after the set time has elapsed.
[0048]
When a bimetal is used as the temperature sensor 20, when the temperature exceeds a certain temperature, the bimetal is electrically disconnected and the auxiliary heater 7 and the fan motor 82 are stopped.
[0049]
Therefore, the power consumption of the infrared treatment device A can be reduced, and the sound and vibration caused by the rotation of the fan 8 can be eliminated, and the usability can be improved.
[0050]
When a thermistor is used as the temperature sensor 20, a voltage drop occurs in the thermistor when the temperature exceeds a certain temperature, and the outputs of the auxiliary heater 7 and the fan 8 are reduced.
[0051]
Therefore, the power consumption of the infrared treatment device A can be reduced, and the sound and vibration caused by the rotation of the fan 8 can be reduced.
[0052]
9 and 13 show an infrared treatment device A as a fourth embodiment, FIG. 9 is a diagram showing a circuit block, and FIG. 13 is a diagram schematically showing a circuit configuration. In the embodiment, the auxiliary heater 7 is not provided, and the temperature sensor 20 is connected in series to the fan 8, and as the temperature sensor 20, a bimetal or a thermistor can be used as described above. 32 is a timer switch that operates to turn off the power after the set time has elapsed.
[0053]
FIG. 10 is a diagram showing a circuit block of the infrared treatment device A as the fifth embodiment. In this embodiment, the changeover switch 27 is connected in series to the infrared heater 4 and the fan 8 (fan motor 82). A resistor 28 is arranged in parallel with the switch 27a on the infrared heater 4 side of the changeover switch 27, and the changeover switch 27 uses an interlocking switch. A diode may be used in place of the resistor 28.
[0054]
When the infrared treatment device A is turned on by operating the operation switch 10, the switch 27a on the infrared heater 4 side of the changeover switch 27 and the switch 27b on the fan motor 82 side are connected to operate both the infrared heater 4 and the fan 8. Then, warm air is blown to the affected area immediately after use of the infrared treatment device A to improve the feeling of use.
[0055]
In addition, when the temperature sensor 20 detects that the temperature exceeds a certain temperature, the infrared heater 4 side switch 27a and the fan motor 82 side switch 27b of the changeover switch 27 are disconnected to stop the fan motor 82, The output of the infrared heater 4 is reduced by a resistor 28 in series with the infrared heater 4.
[0056]
Therefore, the power consumption of the infrared therapy device A can be reduced by stopping the fan motor 82, and the sound and vibration due to the rotation of the fan 8 can be eliminated, and the usability can be improved.
[0057]
Further, when the fan 8 is stopped, the temperature around the infrared heater 4 is increased, and the heating wire 43a is cut off at the bent portion 43b due to thermal expansion, or the head lashing 1 is thermally deformed. Although there is a possibility, it can prevent by reducing the output of the infrared heater 4 with the fan 8. FIG.
[0058]
4 and 12 show an infrared treatment device A as a sixth embodiment. As shown in FIG. 4, the infrared heater 4 is a heater substrate in which a heating wire 43a is wound on a thin plate along the surface of the thin plate. 43, the infrared plate 40 and the insulating plate 42 are laminated on the front surface of the heater substrate 43, and the back plate 41 and the insulating plate 42 are formed with the heat radiation holes 21 and 22 partially cut out on the rear surface of the heater substrate 43. And the heating wire 43a is exposed. 40a is a mounting piece.
[0059]
Then, as indicated by an arrow in FIG. 12, the heat of the heating wire 43a is released to the rear of the infrared heater 4 through the heat radiation holes 21 and 22, and is blown to the affected part by the fan 8.
[0060]
Therefore, even if the auxiliary heater 7 shown in FIG. 11 is omitted, the affected area can be warmed immediately after the start of use of the infrared treatment device A, and the feeling of use can be improved.
[0061]
At that time, a part of the heat of the heating wire 43a is taken away by the air blown by the fan 8, but as shown schematically in FIG. The infrared plate 40 can be heated as in the case shown in FIG.
[0062]
Furthermore, as shown in FIG. 14, when a bimetal as the temperature sensor 20 is connected in series to only one heating wire 43a and it is detected that the temperature has exceeded a certain temperature by the bimetal, one heating wire 43a is electrically connected to the bimetal. The fan 8 (fan motor 82) is stopped and the output of the infrared heater 4 is reduced so that only the other heating wire 43a is activated.
[0063]
Therefore, the power consumption of the infrared therapy device A can be reduced by reducing the output of the infrared heater 4 and stopping the fan motor 82, and the sound and vibration due to the rotation of the fan 8 can be eliminated to improve the usability. In addition, disconnection of the heating wire 43a due to thermal expansion and thermal deformation of the head hashing 1 can be prevented.
[0064]
【The invention's effect】
The present invention is implemented in the form as described above, and has the following effects.
[0065]
(1) In the present invention described in claim 1 or claim 2, when the temperature sensor detects that the temperature of the infrared heater is higher than a certain temperature at which far infrared rays are emitted , or the infrared heater emits far infrared rays by a timer. When it is detected that a certain period of time has elapsed, the output of the fan and auxiliary heater is reduced, or the fan and auxiliary heater are stopped, so the power consumption of the infrared therapy device can be reduced and the fan The sound and vibration due to the rotation of the sound can be reduced or eliminated, and the usability can be improved. Immediately after operating the infrared treatment device, warm air can be blown to the affected area to improve the feeling of use, and while using the infrared treatment device, the power consumption of the infrared treatment device is reduced. can do. Furthermore, an auxiliary heater that can generate heat immediately after energization and promotes a temperature rise of the infrared heater is disposed between the infrared heater and the fan. When the power is turned on, the infrared heater and the auxiliary heater are energized. And since the said fan is driven, the temperature rise of an infrared heater can be accelerated | stimulated.
[0066]
(2) In the present invention according to claim 3, since the fan is normally driven when it is detected that a certain time or more has elapsed by a timer after the fan is stopped, the infrared heater or the front cover body is disposed after the certain time has elapsed. In addition, it can cool the infrared therapy device itself that has been heated by using it for a certain period of time. For example, there is no risk of burns even if the hand touches the front cover body. Infrared therapy device.
[0067]
(3) In the present invention according to claim 4 or claim 5, when the temperature sensor detects that the temperature exceeds a certain temperature, or when the timer detects that a certain time or more has elapsed, the fan output is Since the output is reduced or the fan is stopped and the output of the infrared heater is reduced, disconnection of the heating wire due to thermal expansion and thermal deformation of the head hashing can be prevented .
[0069]
(5) In the present invention described in claim 6 , a temperature sensor is disposed in front of the fan, a blocking wall is formed immediately after the temperature sensor, and the fan is blocked by the blocking wall. Therefore, the temperature sensor is not affected by the air blown by the fan, and the temperature sensor can be configured not to malfunction.
[0070]
(6) In the present invention described in claim 7 , since the temperature sensor is arranged in front of the infrared heater, the temperature sensor is not affected by the ventilation by the fan without increasing the number of parts, The temperature of the far infrared ray emitted from the infrared heater can be sensed, and the temperature sensor can be configured not to malfunction.
[Brief description of the drawings]
FIG. 1 is a side view of an infrared treatment device according to the present invention.
FIG. 2 is a side sectional view of the same.
FIG. 3 is an exploded perspective view of the same.
FIG. 4 is an exploded perspective view of an infrared heater.
FIG. 5 is a circuit block diagram of an infrared treatment device according to the present invention.
FIG. 6 is a circuit block diagram of an infrared treatment device as a second embodiment.
FIG. 7 is a timing chart of the same.
FIG. 8 is a circuit block diagram of an infrared treatment device as a third embodiment.
FIG. 9 is a circuit block diagram of an infrared treatment device as a fourth embodiment.
FIG. 10 is a circuit block diagram of an infrared treatment device as a fifth embodiment.
FIG. 11 is an explanatory view schematically showing an infrared treatment device.
FIG. 12 is an explanatory view schematically showing an infrared treatment device.
FIG. 13 is an explanatory view schematically showing a circuit configuration of an infrared treatment device.
FIG. 14 is an explanatory diagram schematically showing a circuit configuration of an infrared treatment device.
[Explanation of symbols]
A Infrared therapy device 1 Head casing 2 Grasping part 4 Infrared heater 5 Reflector 7 Auxiliary heater 8 Fan
10 Operation switch
11 Display
20 Temperature sensor
21,22 Heat dissipation hole
23 timer
24 Control unit
40 infrared plate
41 Back plate
42 Insulation plate
43 Heater board
63 Thermal fuse
82 Fan motor

Claims (7)

Wherein the infrared therapy device formed by arranging the fan (8) to the rear of the infrared heater (4), wherein arranged a temperature sensor (20) in the vicinity of the infrared heater (4), the infrared heater (4) Between the fan (8) , an auxiliary heater (7) that can generate heat immediately after energization and promotes a temperature rise of the infrared heater (4 ) is disposed, and when the power is turned on, the infrared heater (4) and the infrared heater (4) with energizing the auxiliary heater (7) driving the fan (8), when it is detected that the infrared heater (4) exceeds a specific temperature to radiate far infrared rays by the temperature sensor (20), wherein while actuates the infrared heater (4), the fan (8) and reduces the output of the auxiliary heater (7), or, wherein the Ru fan (8) and the auxiliary heater (7) is stopped Infrared therapy device. An infrared treatment device having a fan (8) disposed behind an infrared heater (4), comprising a timer (23) , between the infrared heater (4) and the fan (8) after energization An auxiliary heater (7) that can immediately generate heat and accelerates the temperature rise of the infrared heater (4) is disposed, and when the power is turned on, the infrared heater (4) and the auxiliary heater (7) are energized and the fan (8) is driven, and when the timer (23) detects that the infrared heater (4) has radiated far infrared rays for a certain period of time , the fan is kept operating while the infrared heater (4) is being operated. (8) and reduces the output of the auxiliary heater (7), or, infrared therapy device, characterized in that the Ru fan (8) and the auxiliary heater (7) is stopped.   The fan (8) is normally driven when it is detected by a timer (23) that a predetermined time or more has elapsed after the fan (8) is stopped. Infrared therapy device.   Temperature sensor (20) When it detects that the temperature has exceeded a certain temperature, the infrared heater (Four) The infrared therapeutic device according to any one of claims 1 to 3, wherein the output of said is reduced.   timer (twenty three) When it is detected that a certain time has passed, the infrared heater (Four) The infrared therapeutic device according to any one of claims 1 to 3, wherein the output of said is reduced.   The fan (8) Temperature sensor in front of (20) With the same temperature sensor (20) A barrier wall is formed immediately after the fan, and the fan is (8) The infrared treatment device according to any one of claims 1 and 4, wherein the infrared treatment device is configured to block air flow from the air.   Infrared heater (Four) Temperature sensor in front of (20) The infrared treatment device according to claim 1, wherein the infrared treatment device is arranged.

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