KR101898700B1 - bed heating laminated glass using nano-material - Google Patents

Abstract

The present invention relates to a bed having surface heating laminated glass using a nano material, which has a new structure for warm heating in the winter season. The bed having surface heating laminated glass using a nano material according to the present invention includes a lower panel (21), an upper plate (20) of which is formed of tempered glass, an upper panel (22) formed of tempered glass, provided on an upper side of the lower panel (21), and in which a heating layer (22a) and a pattern sheet (22b) are laminated on a lower surface thereof, and a combining sheet (23) provided between the lower panel (21) and the upper panel (22) to combine the lower panel (21) and the upper panel (22), wherein the heating layer (22a) is formed by mixing nano carbon tubes or griffin and a binder, applying the mixture to a lower surface of the upper panel (22), and curing the mixture, and wherein a control means (37) for switching on and off the heating layer (22a) is connected to the heating layer (22a). Accordingly, because the heating layer (22a) may be switched on and off to heat the upper plate (20) as the user manipulates the control means (37), the bed may be used very conveniently.

Description

{Bed heating laminated glass using nano-material with nano-

[0001] The present invention relates to a bed having a planar heat-generating laminated glass using a nano material of a new structure which can be heated in winter.

Generally, the term "bed" generally refers to furniture that a user can rest on, such as a bed or a flat bed.

FIG. 1 shows a general example of such a needle bed, which is composed of a support frame 10 and an upper plate 20 provided on the upper side of the support frame 10.

The support frame 10 is provided with a leg member 11 extending downward to support the upper plate 20 so as to be spaced upward from the bottom surface.

At this time, a headboard 12 extending upward is provided at the rear end of the support frame 10.

Therefore, it is common that the user lie directly on the upper plate 20, take a thin Yona mattress on the upper plate 20, and then rest on the upper side thereof.

However, since the top plate 20 is spaced upward from the bottom surface of the room in which the bed sheet is installed, when the bottom surface of the room is heated in winter, heat is not sufficiently transferred to the top plate 20, , There is a case where the user lying down on the upper plate 20 feels cold.

Therefore, when such a bed is used, an electric mat or the like is separately installed in the bed, and thus, a very troublesome problem has arisen.

Therefore, there is a need for a new method to solve such a problem.

Meanwhile, recently, a nano carbon tube or graphene which can generate heat when power is applied has been developed.

Such a nano carbon tube or graphene can be applied so as to form a layer having a uniform thickness on the surface of various objects in a state mixed with a binder. When the power source is connected by connecting the power line after curing, heat is generated.

These nanocarbon tubes or graphens can be applied to the surface of a variety of objects and can have varying degrees of transparency.

Registration Practical Utility Model No. 20-0313443,

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a bed having a surface heating laminated glass using a nano material having a novel structure capable of being heated in winter.

In order to accomplish the above object, the present invention provides a cabinet comprising a support frame (10) and an upper plate (20) provided on the upper side of the support frame (10) An upper panel 22 formed of a tempered glass material and provided on the upper side of the lower panel 21 and having a heating layer 22a and a pattern sheet 22b stacked on a lower side thereof, And a bonding sheet 23 provided between the lower panel 21 and the upper panel 22 and joining the lower panel 21 and the upper panel 22 to each other, A control unit 37 for controlling the heating layer 22a to be turned on and off is provided in the heating layer 22a. The heating unit 22a is formed by mixing a nano carbon tube or a binder with a binder, Wherein the nano-material is provided with a sheet-like heat-generating laminated glass.

According to another aspect of the present invention, the control means 37 is provided with a power switch 37a operated by a user to turn on the heating layer 22a, A temperature measurement sensor 31 provided on the upper plate 20 for measuring the temperature of the upper plate 20 and a temperature sensor 31 for measuring the temperature of the upper plate 20, (32) provided between the upper plate (20) and the upper plate (20) for detecting a user when the user sits or leans on the upper plate (20) When the user turns on the power switch 37a and operates the temperature setting switch 37b to input the set temperature of the upper plate 20, Upon receipt of the signal of the means 32, it is detected that the user is sitting or lying on the top surface of the top plate 20 And controls the heating layer 22a so that the temperature of the upper plate 20 is raised to the input set temperature. When the user does not sense that the upper plate 20 is lying on the upper surface of the upper plate 20, Controls the heating layer 22a such that the temperature of the heating layer 22a is raised to an atmospheric temperature lower than the preset temperature and the user touches the upper left surface or the upper right surface of the upper plate 20 by the left and right vibration sensors 33, The temperature of the bed is raised or lowered when the temperature of the bed is sensed.

According to another aspect of the present invention, a planar light-emitting body 24 is laminated on the lower side of the lower panel 21, and a brightness sensor 35 , And a proximity sensor (36) provided at a periphery of the support frame (10) and outputting a signal when the user approaches within a predetermined proximity distance, wherein the control means (37) 35 and receives the signal of the proximity sensor 36 when the ambient brightness is lower than a preset reference brightness and turns on the surface light emitter 24 when the user approaches the proximity distance, And the surface light emitter 24 is turned off when a preset time has elapsed or when the user is sensed by the seat detecting means 32 to sit or lie on the upper plate 20. [ Heat junction A needle having a Li is provided.

According to another aspect of the present invention, the support frame 10 is provided with a headboard 12 extending upwardly from the rear end thereof, and is made of a metal material and disposed on the lower side of the upper panel 22, A water tank 42 provided at one side of the support frame 10 and storing water therein and connected to the heating tube 41 through a water supply pipe 42a; A water supply pump 43 provided at an intermediate portion of the water supply pipe 42a for supplying water stored in the water tank 42 to the heating tube 41, An evaporation nozzle 44 which is arranged to face the upper side of the head and which is connected to the heating tube 41 through a connection pipe 44a and an evaporation nozzle 44 which is provided in the middle of the head plate 12 to measure the humidity above the user's head , And the control means (37) further comprises a humidity sensor (45) for controlling the temperature of the heating layer (22a) The water supply pump 43 is driven to supply water to the heating tubular body 41 when the humidity of the user's head portion is lowered to a predetermined reference humidity or less by receiving the signal of the humidity sensor 45, The water supplied to the heating tube 41 is heated by the heat generated in the heating layer 22a and the heated water flows through the connecting tube 44a and the evaporation nozzle 44, And the humidity is controlled by evaporating the water vapor to the upper side, thereby providing a needle bed having the surface heat generating laminated glass using the nanomaterial.

The upper surface of the upper panel 20 is made of a tempered glass and is made of a tempered glass and is formed on the upper side of the lower panel 21 An upper panel 22 having a heat generating layer 22a and a pattern sheet 22b stacked on a lower side thereof and a lower panel 22 disposed between the lower panel 21 and the upper panel 22, The heat generating layer 22a is formed by mixing a nano carbon tube or a graphene with a binder on the lower surface of the upper panel 22 and applying and curing the binder And a control means 37 for on-off controlling the heating layer 22a is connected to the heating layer 22a.

Therefore, the user can operate the control means 37 to heat the top plate 20 by turning the heating layer 22a on and off, which is very convenient.

1 is a perspective view showing a conventional needle bed,
FIG. 2 is a perspective view showing a needle bed having a surface heating laminated glass using a nanomaterial according to the present invention, FIG.
FIG. 3 is an exploded perspective view showing a needle bed having a surface heat generating laminated glass using a nanomaterial according to the present invention,
FIG. 4 is a side view showing a bed having a heat generating laminated glass using a nanomaterial according to the present invention, FIG.
FIG. 5 is a plan view showing a needle bed having a surface heating laminated glass using a nanomaterial according to the present invention,
FIG. 6 is a circuit diagram showing a needle bed having a surface heating laminated glass using a nanomaterial according to the present invention. FIG.
FIG. 7 is a side view showing the essential part of the second embodiment of the needle-shaped heat-generating laminated glass using the nanomaterial according to the present invention,
FIG. 8 is a circuit diagram showing a second embodiment of a needle bed having a surface heating joint glass using a nanomaterial according to the present invention.

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

2 to 6 are the same as those of the conventional art in which the support frame 10 according to the present invention and the upper plate 20 provided on the upper side of the support frame 10 are formed.

At this time, the support frame 10 is provided with a headboard 12 extending upward from the rear end thereof, and the user rests on the top board 20 with his head facing the headboard 12.

According to the present invention, the upper panel 20 comprises a lower panel 21 made of tempered glass, a lower panel 21 made of tempered glass, and a heating layer 22a disposed on the lower panel. And an upper panel 22 provided between the lower panel 21 and the upper panel 22. The lower panel 21 and the upper panel 22 are joined to each other, (23), and a planar light emitter (24) laminated on the lower side of the lower panel (21).

The heating layer 22a is formed by mixing a nano carbon tube or a graphene and a binder on the lower surface of the upper panel 22, and coating and curing the mixture. When the power is applied, the heating layer 22a generates heat, It functions to heat.

The pattern sheet 22b is printed with various kinds of images on the upper surface thereof and is adhered and fixed to the lower surface of the heating layer 22a.

At this time, the pattern sheet 22b is made of a light-transmissive material through which the part-illuminated light is transmitted to the surface light-emitting body 24.

The bonding sheet 23 is made of a polyvinyl butyral material and has a function of firmly bonding and fixing the lower panel 21 and the upper panel 22.

Such a laminated sheet 23 made of polyvinyl butyral is generally used for bonding glass sheets, and a detailed description thereof will be omitted.

The planar light-emitting body 24 is formed in a thin sheet or panel shape. When the power is applied, the front light is brightly illuminated to illuminate the upper side of the upper plate 20, and various kinds of the light are developed and used , And a detailed description thereof will be omitted

According to the present invention, a temperature measuring sensor 31 provided on the upper plate 20 for measuring the temperature of the upper plate 20 and a temperature sensor 31 provided between the supporting frame 10 and the upper plate 20, Left and right vibration detection sensors 33 and 34 provided at both sides of the upper plate 20 and a support frame 10 And a proximity sensor 36 provided at the periphery of the support frame 10 for outputting a signal when the user approaches within a predetermined proximity distance, And a control unit 37 connected to the heat generating layer 22a and the surface light emitting unit 24 to turn on and off the heat emitting layer 22a and the surface light emitting unit 24. [

The temperature measurement sensor 31 is fixed to one side of the upper plate 20, that is, one side of the lower side of the upper panel 22, and measures a temperature at which the upper plate 20 is heated by the heating layer 22a .

The seat detecting means 32 includes four load cells each provided at a lower side of the upper plate 20, that is, at a corner of a lower side of the lower panel 21 to detect a change in weight of the upper plate 20 When the user sits or lies on the upper plate 20 and the upper plate 20 is pressed downward, the user senses the pressed upper plate 20 and outputs a signal.

The left and right vibration detection sensors 33 and 34 are provided on both sides of the upper plate 20, preferably both sides of the lower side of the upper panel 22, so that when the user hits the left or right side of the upper plate 20 , And detects whether the user has knocked on the left side of the upper plate 20 or knocked on the right side.

That is, when the user hits the top plate 20, the vibration is transmitted to the left and right vibration detection sensors 33 and 34 via the top panel 22. When the user bumps the left side of the top plate 20, Is first sensed by the left vibration sensor 33 and detected by the right vibration sensor 34 when the user bumps the right side of the top plate 20. [

Therefore, it is checked whether the vibration generated when the user knocks the upper plate 20 is detected first of the left and right vibration detection sensors 33 and 34, and it is determined whether the user has tapped on the left side of the upper plate 20, The user can detect whether or not the user has tapped.

The brightness sensor 35 is provided on a side surface of the support frame 10 and is configured to measure the brightness of the surroundings, thereby outputting a signal when the brightness of the surroundings is lowered below a predetermined reference brightness.

In this case, the reference brightness means a degree of brightness that is difficult for the user to visually confirm objects around him or her.

The proximity sensor 36 is provided on a side surface of the support frame 10 and is configured to output a signal when the user approaches the periphery of the support frame 10 within a preset proximity distance using ultrasonic waves.

The control means 37 receives signals of the temperature measurement sensor 31, the seat detection means 32, the left and right vibration detection sensors 33 and 34, the brightness sensor 35 and the proximity sensor 36, A power switch 37a for controlling the operation of the heating layer 22a and the surface light emitter 24 so as to enable the user to turn the heating layer 22a on and off, And a temperature setting switch 37b for inputting the set temperature of the temperature sensor 20 (see FIG.

When the user inputs a desired set temperature by operating the temperature setting switch 37b after turning on the power switch 37a, the control unit 37 controls the temperature measurement sensor 31 and the seating / And controls the temperature of the upper plate 20 by on-off controlling the heating layer 22a.

That is, when the user inputs the set temperature, the control means 37 receives the signal of the seating sensing means 32 and, when it is detected that the user is sitting or lying on the upper plate 20, And controls the top plate 20 to be heated to the set temperature input by the user.

On the contrary, if the user does not sense sitting or lying on the upper plate 20, the control means 37 controls the heating plate 22a so that the temperature of the upper plate 20 is raised to an atmospheric temperature set lower than the set temperature ).

At this time, the atmospheric temperature is set to be lower by about 10 ° C than the set temperature inputted by the user.

That is, when the user sets the set temperature to 50 캜, the atmospheric temperature becomes 40 캜. If the set temperature is 40 캜, the atmospheric temperature becomes 30 캜.

When the set temperature is inputted, the control means 37 receives the signals of the left and right vibration sensors 33 and 34 and controls the left and right upper surfaces of the upper plate 20, When it is detected that the knocking is being performed, the control is performed to lower or raise the set temperature.

That is, when the user inputs the set temperature, the temperature of the upper plate 20 may be felt high or low in a lying state on the upper surface of the upper plate 20

When the user hits the upper right surface of the upper plate 20 with his / her right hand while lying on the upper plate 20, the control means 37 controls the left / right vibration sensor 33, And lowers the set temperature of the upper plate 20.

On the contrary, when the user tilts the upper left surface of the upper plate 20 with his or her left hand while lying on the upper plate 20, the control means 37 controls the left and right vibration sensors 33, And raises the set temperature of the upper plate 20.

At this time, the control means 37 causes the set temperature to be raised or lowered by 1 ° C every time the user hits the top plate 20 once.

The control unit 37 receives the signals from the brightness sensor 35 and the proximity sensor 36 and determines whether the ambient brightness is lower than a reference brightness or in a dark state such that the user can not clearly see the surrounding objects , When the user is approached to the vicinity of the support frame 10, the top surface and the periphery of the top plate 20 are illuminated by illuminating the surface light emitter 24 so that the user hits the support frame 10 prevent.

At this time, the control means 37 receives the signal of the seat detection means 32, and when it is detected that the predetermined time has elapsed or the user is sitting or lying on the upper plate 20, Lt; / RTI >

The upper surface of the upper panel 20 is made of a tempered glass and the lower panel 21 is made of tempered glass and is provided on the upper side of the lower panel 21. [ An upper panel 22 having a heat generating layer 22a and a pattern sheet 22b stacked on a lower side thereof and a lower panel 22 disposed between the lower panel 21 and the upper panel 22, (22a) is formed by mixing a nano carbon tube or a graphene with a binder on the lower surface of the upper panel (22), applying and curing the binder sheet And a control means 37 for on-off controlling the heating layer 22a is connected to the heating layer 22a.

Therefore, the user can operate the control means 37 to heat the top plate 20 by turning the heating layer 22a on and off, which is very convenient.

Particularly, the upper plate 20 is composed of a lower panel 21 made of tempered glass, an upper panel 22 and a pattern sheet 22b, and can give a very neat feeling. By using the pattern sheet 22b It can express various patterns and pictures, and it has an advantage that it can meet various demands of users.

The control unit 37 is provided with a power switch 37a which can be operated by the user to turn the heating layer 22a on and off so that the set temperature of the top plate 20 can be inputted by the user A temperature measuring sensor 31 provided on the upper plate 20 for measuring the temperature of the upper plate 20 and a temperature measuring sensor 31 provided between the supporting frame 10 and the upper plate 20, A sitting detecting means 32 for detecting a user when the user sits or leans on the upper plate 20 and outputting a signal and left and right vibration detecting sensors 33 and 34 provided on both sides of the upper plate 20 When the user turns on the power switch 37a and operates the temperature setting switch 37b to input the set temperature of the upper plate 20, the control means 37 controls the signal of the seat detection means 32 And when it is sensed that the user is sitting or lying on the upper surface of the upper plate 20, the temperature of the upper plate 20 The temperature of the upper plate 20 is set to be lower than the set temperature when the user does not sense or lie on the upper surface of the upper plate 20 The heating layer 22a is controlled so as to rise to the atmospheric temperature and when the user senses tapping of the upper left surface or the upper right surface of the upper plate 20 by the left and right vibration detection sensors 33 and 34, Up or down.

Therefore, when the user heats the upper plate 20 to the set temperature only when the user is sitting or lying on the upper plate 20, and when the user does not sit or lie on the upper plate 20, the upper plate 20 is heated to a low atmospheric temperature It is possible to prevent the upper plate 20 from being wasted by heating the upper plate 20 to the set temperature while the user is not lying on the upper plate 20, There is an advantage that it can be heated.

Particularly, when the user adjusts the set temperature, it is possible to adjust the setting temperature by tapping the left and right upper surfaces of the upper plate 20 in a lying state on the upper plate 20 without operating the input means. .

A luminous intensity sensor 35 is disposed on the lower side of the lower panel 21 and is provided on the periphery of the support frame 10 to measure the brightness of the surroundings. The control unit 37 further includes a proximity sensor 36 provided at a periphery of the light intensity sensor 35 for outputting a signal when the user approaches a predetermined proximity distance. When the brightness of the surroundings becomes lower than a preset reference brightness, the signal of the proximity sensor 36 is received. When the user approaches the proximity distance, the surface illuminant 24 is turned on, When the user seated on the upper plate 20 is detected by the seat detection means 32, the surface light emitter 24 is turned off.

Therefore, when the user approaches the bed with the lighting lamp turned off to sleep at night, the top surface and the periphery of the top plate 20 are illuminated automatically by turning on the surface light-emitting body 24, And it is very easy to use because the surface light emitter 24 is turned off immediately when the user lies on the bed.

7 and 8 illustrate another embodiment of the present invention. The heating tube 41 is made of a metal material and is disposed below the upper panel 22 and heated by the heating layer 22a. A water tank 42 provided at one side of the support frame 10 and storing water therein and connected to the heating tube 41 through a water supply pipe 42a and a water tank 42 provided at an intermediate portion of the water supply pipe 42a A water supply pump 43 for supplying the water stored in the water tank 42 to the heating tube 41 and a water supply pump 43 for supplying water stored in the water tank 42 to the connection tube 44a, And a humidity sensor 45 disposed at a middle portion of the headboard 12 and measuring the humidity of the upper portion of the user's head.

The heating tube 41 is a metal tube having a very small diameter and is inserted between the lower panel 21 and the upper panel 22.

The water tank 42 is installed to be embedded in the upper end of the head plate 12 of the support frame 10 and has a cap at the upper side so that the user can open the cap and supply water to the inside.

The evaporation nozzle 44 is embedded in the middle of the headboard 12 so as to be exposed to the front surface of the headboard 12.

The humidity sensor (45) is provided on the entire middle portion of the headboard (12).

The control means 37 receives a signal from the humidity sensor 45 in a state in which the heating layer 22a is turned on and if the humidity on the upper side of the user's head drops below a preset reference humidity, And drives the pump 43 to supply water to the heating tube body 41.

That is, when the heating layer 22a is turned on, the heating tube 41 is heated by the heat generated in the heating layer 22a. Thus, the heating tube 41 is heated, The water is heated by the heat of the heating tube 41 and the water vapor generated in this way flows through the connection tube 44a and the evaporation nozzle 44 in front of the head plate 12, And is evaporated at the same time as it is finely sprayed on the upper face of the face, thereby raising the humidity on the upper side of the user to the reference humidity.

At this time, the reference humidity is determined to a level at which the user does not feel dry.

The needle bed having the surface heat generating laminated glass using the nano material thus constructed is composed of a heating tube 41 made of a metal material and disposed under the upper panel 22 and heated by the heating layer 22a, A water tank 42 provided at one side of the frame 10 and storing water therein and connected to the heating tube 41 through a water supply pipe 42a and a water tank 42 provided at an intermediate portion of the water supply pipe 42a, A water supply pump 43 for supplying water stored in the water tub 42 to the heating tubular body 41 and a water supply pump 43 for supplying water to the heating tubular body 41 through a connection pipe 44a, A vaporizing nozzle 44 connected to the heating tube 41 and a humidity sensor 45 provided in the middle of the head plate 12 for measuring the humidity of the user's head, ) Receives the signal of the humidity sensor 45 in a state in which the heating layer 22a is turned on The water supplied to the heating tube 41 is driven by the heat generated in the heating layer 22a by driving the water feed pump 43 when the humidity of the user's head portion is lowered to a predetermined reference humidity or lower And the heated water is discharged to the upper side of the user's head through the connection pipe 44a and the evaporation nozzle 44, and the moisture is evaporated while being vaporized.

Accordingly, it is possible to prevent the user from feeling dry due to the drying of the room during the winter, and since water is evaporated using the heat of the heating layer 22a, there is no need to use a separate power source.

10. Support frame 20. Top plate
31. Temperature measuring sensor 32. Seat detecting means
33, 34. Left and right vibration sensor 35. Light intensity sensor
36. Proximity sensor 37. Control means
41. Heating tube 42. Water tank
43. Water supply pump 44. Evaporation nozzle
45. Humidity sensor

Claims (4)

In a bed comprising a support frame (10) having a headboard (12) extending upward at a rear end thereof and an upper plate (20) provided above the support frame (10)
The upper panel 20 includes a lower panel 21 made of a tempered glass material and a reinforcing glass material disposed on the upper panel 21. The lower panel 21 has a heating layer 22a and a pattern sheet 22b, And a joining sheet 23 provided between the lower panel 21 and the upper panel 22 and joining the lower panel 21 and the upper panel 22 to each other,
The heating layer 22a is formed by mixing a nano carbon tube or a graphene with a binder on the lower surface of the upper panel 22, applying and curing the mixture,
A heating tube 41 made of a metal material and disposed under the upper panel 22 to be heated by the heating layer 22a; A water tank 42 connected to the heating tube 41 through a water supply pipe 42a and a water supply pipe 42 provided at a middle portion of the water supply pipe 42a for supplying water stored in the water tank 42 to the heating tube 41 An evaporation nozzle 44 connected to the heating tube 41 through a connection pipe 44a so as to face the user's head in the middle of the headboard 12, Further comprising a humidity sensor (45) provided in the middle of the headboard (12) for measuring the humidity above the user's head,
Wherein the heat generating layer (22a) is connected to a control means (37) for on-off controlling the heat generating layer (22a).
The method according to claim 1,
The control means 37 is provided with a power switch 37a which can be operated by a user to turn on the heating layer 22a and a temperature control unit 37b which is operated by a user to input the set temperature of the upper plate 20. [ A setting switch 37b is provided,
A temperature measuring sensor 31 provided on the upper plate 20 for measuring the temperature of the upper plate 20,
A seat detecting means 32 provided between the support frame 10 and the upper plate 20 for detecting a user when the user sits or leans on the upper plate 20 and outputting a signal,
Further comprising left and right vibration detection sensors (33, 34) provided on both sides of the upper plate (20)
When the user turns on the power switch 37a and operates the temperature setting switch 37b to input the set temperature of the top plate 20,
The control means 37 receives the signal of the seat detection means 32 and detects that the user is sitting or lying on the upper surface of the upper plate 20, So that the temperature of the upper plate 20 is raised to an atmospheric temperature lower than the set temperature when the user does not sense or lie on the upper surface of the upper plate 20. [ When the user senses that the left upper or right upper surface of the upper plate 20 is tapped by the left and right vibration sensors 33 and 34, the set temperature is controlled to be raised or lowered Wherein the nano-material has a surface heat-generating laminated glass.
3. The method of claim 2,
A planar light emitter 24 laminated on the lower side of the lower panel 21,
A brightness sensor 35 provided at the periphery of the support frame 10 to measure the brightness of the surroundings,
Further comprising a proximity sensor (36) provided at a periphery of the support frame (10) to output a signal when a user approaches within a predetermined proximity distance,
The control unit 37 receives the signal of the brightness sensor 35 and receives the signal of the proximity sensor 36 when the brightness of the surroundings becomes lower than a preset reference brightness, The surface light emitter 24 is turned on and the surface light emitter 24 is turned off when a predetermined time has elapsed or when the user is detected by the seat detection means 32 to sit or lie on the upper plate 20 Wherein the nano-material has a surface heat-generating laminated glass.
The method according to claim 1,
The control means 37 receives a signal from the humidity sensor 45 in a state in which the heating layer 22a is turned on and if the humidity on the upper side of the user's head drops below a preset reference humidity, The water supplied to the heating tube 41 is heated by the heat generated in the heating layer 22a by driving the pump 43 to supply the water to the heating tube 41, And is discharged to the upper side of the user's head through the connection pipe (44a) and the evaporation nozzle (44), and the moisture is evaporated while being vaporized by steam, thereby controlling the humidity.

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