CN109924915B

CN109924915B - Spray generating device for sweating and body washing

Info

Publication number: CN109924915B
Application number: CN201910023136.7A
Authority: CN
Inventors: 佐川顺治
Original assignee: EINS
Current assignee: EINS
Priority date: 2018-02-11
Filing date: 2019-01-10
Publication date: 2020-03-31
Anticipated expiration: 2039-01-10
Also published as: CN110786764B; CN110786764A; CN109924915A; JP2019138562A; JP6446577B1

Abstract

In the conventional spray generating device, the water contained in the water container (108) passes through the comb-shaped collision dispersion to generate a spray, so that there is a problem of a wet spray containing a large amount of water. The present invention heats the air delivered to the air outlet (29) by using a heater of approximately 300W and a heater of approximately 600W until the air reaches a set temperature, so that the temperature of the space in the bathroom (52) filled with the spray can be rapidly increased to the set temperature, and the air delivered to the air outlet (29) can be heated only by the heater of approximately 300W after the air reaches the set temperature, so that the spray in the bathroom (52) does not become a wet spray, and the temperature of the space filled with the fine spray in the bathroom (52) after the air reaches the set temperature can be easily maintained.

Description

Spray generating device for sweating and body washing

Technical Field

The present invention relates to a spray generating device for sweating and washing a body which generates a spray.

Background

Conventionally, a spray generator for generating a spray is known. As shown in fig. 10, a spray generator 119 of this type is a spray generator for generating a spray containing anions (for example, patent document 1), and includes: a casing 105 having an air suction port 102 formed on a lower side surface thereof and a discharge port 104 formed in a central portion of a cover 103 covering an upper portion thereof; a circular water container 108 having an upper opening, an upper flange 107 being fixed to the housing 105 at a portion near the upper portion in the housing 105 so as to form an air passage 106 communicating with the air suction port 102 at an outer peripheral portion; a plurality of air holes 109 for spirally guiding air from an air passage 106 formed in an outer peripheral portion of the water storage container 108 in the flange portion 107 of the water storage container 108 to the upper portion; a cylindrical air guide tube 111 integrally formed with an inner wall surface of the cover 103 and forming a lower air passage 110 for spirally guiding air downward between the inner wall surface and the inner wall surface of the water container 108; a motor 114 protruding in the vertical direction from the drive shaft 113 fixed in a sealed state by a seal 112 on the almost central bottom surface of the water container 108; a blower blade 116 constituting a fan 115, the fan 115 sucking air through an air suction port 102 attached to a drive shaft 113 protruding from a lower portion of the motor 114, passing the air through the air passage 106, the plurality of air holes 109, and the lower air passage 110, and discharging the air from the discharge port 104; the comb-like collision dispersion 118 is attached to a drive shaft 113 attached to an upper portion of the water storage container 108 protruding therefrom, and water stored in the water storage container 108 is moved upward along a spiral groove 117 in the outer peripheral portion thereof and splashed outward from the upper portion thereof, and the splashed water is atomized by the comb-like collision dispersion 118 and contains anions. Here, fig. 10 is a diagram showing a conventional mist generating apparatus.

Documents of the prior art

Patent document

Patent document 1: japanese patent laid-open publication No. 2003-307327

Disclosure of Invention

Technical problem to be solved by the invention

However, in the conventional mist generating apparatus, the water contained in the water container 108 is moved upward along the spiral groove 117 in the outer peripheral portion and is scattered outward from the upper portion, and the scattered water is sprayed by the comb-like collision dispersion 118, so that the water evaporation amount is small and a mist containing a large amount of water is generated. In the spray containing such a large amount of moisture, if the spray comes into contact with clothes or the like, there is a problem that the clothes are immediately wetted.

The present invention has been made in view of the above problems, and an object of the present invention is to provide a mist generating device for sweating and washing a body, which can generate a fine mist that is not wet.

Solution for solving the above technical problem

In order to solve the above technical problems and achieve the above object, a first aspect of the present invention is a spray generating device for generating a spray for sweating and washing a body, comprising a housing main body formed with a spray discharge port; a water receiving part which is arranged in the shell main body and receives water supplied from the outside; a water heater disposed in the water containing portion for heating the water contained in the water containing portion; an atomizing rotating body having a substantially inverted conical shape, a spiral groove formed in a side surface thereof, and a plurality of rod-shaped portions formed in a lower surface of an expanding portion expanding in a radial direction of an upper portion thereof, wherein water heated by the water heater in the water storage portion is raised along the spiral groove formed in the side surface by rotation thereof, and atomized by collision with the rod-shaped portions; a motor that rotates the atomizing rotary body; an air outlet formed in a side surface of the water storage portion, a front end portion of the air flow path positioned below the rod-shaped portion of the atomizing rotary body being open toward a bottom of the water storage portion, and a side surface of the front end portion of the air flow path being open in a rotation direction of the atomizing rotary body; a blower that delivers air to the air outlet via the air flow path; an air heater disposed in the air flow path for heating the air delivered to the air outlet, the air outlet allowing the warm air delivered toward the bottom of the water storage portion through the air flow path and heated by the air heater to flow out to the water storage portion, thereby the warm air is contained in the water heated by the water heater in the water containing part, the water heated by the water heater in the water containing part rises along the spiral groove formed on the side surface of the atomizing rotary body and collides with the rod-shaped part, atomized by this, and the atomized mist which is caused to collide with the rod-like portion of the atomizing rotary body swirls by the rotating force of the atomizing rotary body together with warm air which is directed in the rotating direction of the atomizing rotary body and is sent to the water above the water accommodated in the water accommodating portion, this causes the spray of larger particles to fall into the water storage portion, and only the fine spray is discharged from the spray outlet of the housing main body.

According to the present invention, since the air in the air flow path is heated by the air heater and the air sent toward the bottom of the water storage portion through the air flow path flows out toward the bottom of the water storage portion to the water storage portion, the water sent along the spiral groove formed in the side surface of the atomizing rotary body collides with the rod-like portion of the atomizing rotary body together with the warm air heated by the air heater, and therefore the moisture evaporation amount increases, and the mist in the bathroom can be made to be a proper mist that is not wet. Further, since the air sent through the air flow path is sent from the opening of the side surface of the tip of the air flow path located below the rod-shaped portion of the atomizing rotary body toward the direction of rotation of the atomizing rotary body above the water contained in the water containing portion, the mist atomized by colliding with the rod-shaped portion of the atomizing rotary body is swirled by the rotational force of the atomizing rotary body together with the relatively warm air sent toward the direction of rotation of the atomizing rotary body above the water contained in the water containing portion. Then, in the mist whirling together with the air transported to the upper side of the water contained in the containing portion, the mist of the larger particles falls into the water containing portion, and only the mist of the fine particles is discharged from the mist discharge port of the housing main body. In this way, since the fine spray having a small particle diameter generated by the spray generator for sweating and washing the body is supplied into the bathroom, the user in the bathroom can sweat and effectively wash the body. Specifically, since the mist generated by the mist generating apparatus for sweating and washing the body is a small and fine mist having a particle diameter of 300nm to 500nm (almost all of 1000nm or less), the mist does not penetrate through the clothes even when the user of the bathtub uses the bathroom while wearing the clothes. It is possible to sweat a user in a bathroom with little wetting of laundry to thereby effectively clean the body.

The invention according to claim 2 is the spray generator for sweating and washing the body according to claim 1, wherein the spray is supplied into a single-compartment type bathroom.

Effects of the invention

According to the mist generating apparatus for sweating and washing a body of a user, the mist in the bathroom can be made to be a uniform mist without being wet, and the temperature of the space filled with the fine mist in the bathroom after the mist has reached the substantially set temperature can be easily maintained.

Drawings

Fig. 1(a) is a front perspective view of a spray generator for sweating and washing a body according to an embodiment of the present invention. Fig. 1(b) is a rear perspective view of the spray generator for sweating and washing the body.

Fig. 2(a) is a plan view of the spray generating device for sweating and washing the body. Fig. 2(b) is a view showing a front part of the spray generator for sweating and washing a body.

Fig. 3 is a rear perspective view showing a state where the sealing cover and the rear surface plate of the case main body of the mist generating device for sweating and washing the body are removed.

Fig. 4 is a sectional view a-a of fig. 2 (a).

Fig. 5 is a sectional view B-B of fig. 4.

Fig. 6 is a cross-sectional view C-C of fig. 4.

Fig. 7 is a diagram showing a remote control panel of a spray generator for sweating and washing a body according to an embodiment of the present invention.

Fig. 8(a) is an explanatory view of an assembly of the atomizing rotor and the motor of the mist generating apparatus for sweating and washing a body. Fig. 8(b) is a diagram showing a state of mist generation in the mist generation apparatus for sweating and washing a body.

Fig. 9 is a view showing a usage mode in which the mist generating apparatus for sweating and washing a body according to the embodiment of the present invention is used in a bathroom unit.

Fig. 10 is a diagram showing a conventional mist generating apparatus.

Detailed Description

Hereinafter, an embodiment of a spray generator for sweating and washing a body according to the present invention will be described with reference to the drawings. Here, fig. 1(a) is a front external perspective view of a spray generator for sweating and washing a body according to an embodiment of the present invention, fig. 1(b) is a rear external perspective view of the spray generator for sweating and washing a body, fig. 2(a) is a plan view of the spray generator for sweating and washing a body, and fig. 2(b) is a view showing a front portion of the spray generator for sweating and washing a body.

The mist generating apparatus 1 for sweating and washing a body has a housing main body 2 of a quadrangular shape as an outer frame. A sealing cover 4 having a spray outlet 3 is provided on the upper part of the case body 2, an air inlet 5 is formed on the rear part thereof, an air ventilation opening 6a and an air ventilation fan 7 are provided on the right side thereof, and an air ventilation opening 6b is provided on the left side thereof. Then, the air flows into the case main body 2 from the air inlet 5 through an air passage 15 (see fig. 4) described later. A remote control panel 8 (remote controller) is provided at the front of the housing main body 2, and a water supply pipe 10 for supplying water from the water supply tank 9 to the spray generator 1 for sweating and washing the body and a temperature sensor 11 for measuring the temperature are provided at the left side of the housing main body 2. Further, a water storage portion water discharge cock 32 that discharges water in the water storage portion 13 described later is provided at the right side portion of the case main body 2, and a power cord 17 is provided.

Next, each device provided in the mist generating apparatus 1 for sweating and washing the body will be described with reference to fig. 3 to 6. Fig. 3 is a rear perspective view showing a state where a sealing cover and a rear surface plate of a housing main body of a mist generating apparatus for sweating and washing a body according to an embodiment of the present invention are removed, fig. 4 is a sectional view taken along a line a-a of fig. 2(a), fig. 5 is a sectional view taken along a line B-B of fig. 4, and fig. 6 is a sectional view taken along a line C-C of fig. 4. Here, the dotted line portion in fig. 5 is an auxiliary line for displaying the three-dimensional shape of the spray outlet 3. In fig. 3 to 6, some devices are not shown for convenience of explanation.

As shown in fig. 3 to 6, the spray generator 1 for sweating and washing the body includes: water storage section 13, water supply pump 18, water heater 19, upper limit water level sensor 20, lower limit water level sensor 21, atomizing rotary body 22, motor 23, blower 25, air heater 26, air heater 27, air ventilation fan 7, and electronic board 28.

The water storage portion 13 is in the shape of a container with an open top, because it stores water supplied from the outside. Specifically, water contained in the externally provided water supply tank 9 is contained in the water containing portion 13 from the left side of the water containing portion 13 via the water supply pipe 10 by the driving force of the water supply pump 18. An air outlet 29 (see fig. 4) for sending air into the water storage portion 13 is provided on the right side of the water storage portion 13. The air flowing into the case body 2 from the air inlet 5 at the rear of the case body 2 is sent to the air outlet 29 through the air passage 15 by the driving force of the blower 25, and is sent into the water storage portion 13 from the air outlet 29. Here, the air outlet 29 forms an opening on the side of the atomizing rotor 22 in the rotation direction so that the air sent through the air passage 15 is directed in the rotation direction of the atomizing rotor 22, which will be described later. Further, an air guide wall 29a is formed in the water storage portion 13 other than the air outlet 29 in the direction of the air sent in the rotation direction of the atomizing rotor 22, that is, in the substantially tangential direction on the circumference of the atomizing rotor 22. Specifically, as shown in fig. 5, the width of the air flow path 15 in the lateral direction is narrowed from the inlet 29b into which the water storage portion 13 flows toward the outlet, and the air guide side wall 29c in one of the air flow paths 15 is lengthened toward the air outlet 29, so that the air flowing toward the air outlet 29 is easily directed toward the rotation direction of the atomizing rotor 22. Then, the air flow path 15 is formed downward from a portion where the lateral width of the flow path is narrowed, and an air outlet 29 is formed at one side in the rotation direction of the atomizing rotor 22 in the air sent through the air flow path 15 at the lower portion. By forming in this manner, the air sent from air outlet 29 to water storage unit 13 is sent in a direction toward the rotation direction of atomizing rotor 22. A water storage unit water discharge port 30 is formed in the right bottom surface (left bottom surface in fig. 4) of the water storage unit 13. The water receiving portion water discharge port 30 is connected to a water receiving portion water discharge cock 32 via the water receiving portion water discharge pipe 14. Thus, when the water in the water storage portion 13 is discharged, the water in the water storage portion 13 is discharged from the storage portion water discharge port 30 through the water storage portion water discharge pipe 14 by rotating the water storage portion water discharge cock 32.

The water heater 19 is a heater that heats the water contained in the water containing portion 13. The water heater 19 is a heater having an output of 300W, and is disposed in a lower left portion (lower right portion in fig. 4) of the water storage portion 13. Here, the water heater 19 is referred to as a water heater 19, but if water is heated to become warm water, the heating is continued after the warm water is obtained. The water heater 19 is turned on by pressing an operation switch 31 described later, and is turned off by pressing the operation switch 31 when the water heater 19 is turned on.

The upper limit water level sensor 20 is a sensor for detecting whether or not the water in the water storage part 13 is equal to or higher than the upper limit water level. When the upper limit water level sensor 20 detects that the water in the water storage unit 13 has reached or exceeded the upper limit water level, the supply of water from the water supply tank 9 to the water storage unit 13 is stopped.

The lower limit water level sensor 21 is a sensor that detects whether or not the water in the water storage portion 13 has reached a lower limit water level or lower. When the water in the water storage portion 13 is detected to be lower than the lower limit water level by the lower limit water level sensor 21, water is supplied from the water supply tank 9 to the water storage portion 13.

The atomizing rotor 22 has a substantially inverted conical shape, and has a spiral groove 16 (see fig. 8 a) formed in a side surface thereof, and a plurality of rod-shaped portions 12 are formed at equal intervals in a circumferential direction on a lower surface of an expanding portion 24 that expands in a radial direction of an upper portion thereof. The rod-shaped portions 12 are formed in 3 rows in the circumferential direction, and the rod-shaped portions 12 in the 2 nd row (the row in the middle) are formed shorter than the rod-shaped portions 12 in the 1 st row and the rod-shaped portions 12 in the 3 rd row, and are formed offset from each other in the circumferential direction at intermediate positions between the rod-shaped portions 12 in the 1 st row and the rod-shaped portions 12 in the 3 rd row. The atomizing rotor 22 is provided by inserting the rotating shaft 23a of the motor 23 into the central space and tightening the fastening nut 22a from above (see fig. 8 (a)). The atomizing rotor 22 can be rotated by rotating the rotating shaft 23a of the motor 23. In the present embodiment, the rod-shaped portions 12 are formed in 3 rows in the circumferential direction, but the present invention is not limited thereto, and 3 rows to 7 rows (preferably 3 rows to 5 rows) may be formed in the circumference.

The blower 25 uses a blower fan provided on the casing body 2 side of the air inlet 5 formed in the rear portion of the casing body 2. The blower 25 sends air from the air inlet 5 formed in the rear portion of the housing body 2 to the air outlet 29 on the right side (left side in fig. 4) of the water storage portion 13 through the air passage 15. In the present embodiment, a sirocco fan is used as the blower 25, but the blower is not limited to this and may be a blower other than a blower fan.

The

air heaters

26 and 27 are heaters that heat air sent to the air outlet 29, and are provided in the air flow path 15 on the side of the water storage portion 13 between the air inlet 5 formed in the rear portion of the housing body 2 and the air outlet 29 formed on the right side (left side in fig. 4) of the water storage portion 13. As the air heater 26 at the rear (front in fig. 4) of the air flow path 15, a heater having an output of 300W was used, and as the air heater 27 at the front (rear in fig. 4) of the air flow path 15, a heater having an output of 600W was used. In addition, although the air heaters of 300W and 600W are used in the present embodiment, the air heaters do not need to be strictly 300W and 600W, that is, they may be any air heaters of substantially 300W and 600W.

The air ventilation fan 7 is a device for sucking air into the case main body 2 to cool the case main body 2. Although the temperature of the case main body 2 is increased by the water heater 19, the air heater 26, the air heater 27, and the like, the temperature of the case main body 2 can be kept from being increased by the air ventilation fan 7. The air ventilation fan 7 can also cool the electronic board 28 in the case main body 2. Here, by detaching the rear surface plate of the case main body 2, the electronic board 28 (see fig. 3) can be viewed from the outside.

Next, the remote control panel 8 of the mist generating apparatus 1 for sweating and washing the body will be described. Fig. 7 is a diagram showing a remote control panel of a mist generating apparatus for sweating and washing a body according to an embodiment of the present invention.

The remote control panel 8 includes: an operation on/off switch 31, a set temperature display unit 33, a temperature increase switch 34, a temperature decrease switch 35, a buzzer stop switch 36, a power supply display unit 37, a spraying operation display unit 38, a cooling operation display unit 39, an entry-into-bathroom display unit 40, and a temperature display unit 41.

The operation on/off switch 31 is an operation on/off switch of the mist generating device 1 for sweating and washing the body, and by pressing the operation on/off switch 31, the mist generating device 1 for sweating and washing the body starts to operate, and by pressing the operation on/off switch 31 in a state where the operation starts, the operation of the mist generating device 1 for sweating and washing the body becomes a stop state. The set temperature display unit 33 displays a set temperature in a single-room type bathroom (bathroom) 52 described later, and when any one of 38 degrees, 40 degrees, 42 degrees, and 45 degrees is set, a lamp on the upper portion thereof is turned on. The temperature increase switch 34 is a switch for increasing the set temperature, and when the temperature increase switch 34 is pressed, the set temperatures of the set temperature display unit 33 increase by one degree at 38 degrees, 40 degrees, 42 degrees, and 45 degrees, and the lamp above the set temperature that has increased by one degree is turned on. The cool-down switch 35 is a switch for lowering the set temperature, and when the cool-down switch 35 is pressed, the set temperatures 38 degrees, 40 degrees, 42 degrees, and 45 degrees of the set temperature display unit 33 are lowered by one degree, and the lamp above the set temperature lowered by one degree is turned on. The temperature display unit 41 displays the temperature in the bathroom unit 52, specifically, the temperature detected by the temperature sensor 11. The buzzer stop switch 36 is a switch for stopping the buzzer. Specifically, the buzzer sounds if the temperature displayed by the temperature display unit 41 reaches a set temperature, and the buzzer stop switch 36 is used to stop the buzzer. The power display unit 37 is turned on when the power of the mist generating apparatus 1 for sweating and washing the body is turned on. Specifically, when the power cord 17 is inserted into an outlet, the power display unit 37 is turned on. The display unit 38 lights up during the spraying operation. Specifically, the operation of spraying is started by pressing the operation on/off switch 31, and therefore the display unit 38 lights up during spraying operation, and the operation of spraying is stopped by pressing the operation on/off switch 31 in a state where spraying operation is started, and therefore the display unit 38 lights off during spraying operation. The during-cooling display unit 39 is a display unit that is lit for 10 minutes after the operation on/off switch 31 is pressed in a state where the spraying operation is started. The entry-to-bathroom display unit 40 is a display unit that blinks when the temperature displayed by the temperature display unit 41 reaches a set temperature. By lighting the accessible bathroom display 40, the user can know the timing at which the user can comfortably enter the bathroom 52.

Next, the atomizing rotor 22 attached to the water storage part 13 will be described. Fig. 8(a) is an explanatory view of an assembly of the atomizing rotor and the motor of the mist generator for sweating and washing the body in the embodiment of the present invention, and fig. 8(b) is a view showing a mist generation state of the mist generator for sweating and washing the body.

As described above, atomizing rotor 22 is provided in water storage unit 13, and has a substantially inverted conical shape in cross section, which is formed to be large from the lower portion toward the upper portion. Further, a spiral groove 16 is formed in a side surface of the atomizing rotor 22, a substantially circular expanding portion 24 expanding in a radial direction is formed in an upper portion of the substantially inverted conical shape, and a plurality of rod-shaped portions 12 are formed on a lower surface of the expanding portion 24. As described above, the atomizing rotor 22 is provided by inserting the rotating shaft 23a of the motor 23 into the central space and tightening the fastening nut 22a from above. Then, the atomizing rotary body 22 is rotated by the driving force of the motor 23, so that the water heated by the water heater 19 in the water storage portion 13 rises along the spiral groove 16 formed in the side surface of the atomizing rotary body 22, and is atomized by colliding with the rod-shaped portion 12, and is atomized by colliding with the inner wall of the water storage portion 13 after colliding with the rod-shaped portion 12. In this way, a large amount of mist can be generated to improve the atomization rate (see fig. 8 (b)).

Next, a use mode of the mist generating apparatus 1 for sweating and washing a body in the single-room type bathroom 52 will be described. Here, fig. 9 is a view showing a usage mode in which the mist generating apparatus for sweating and washing a body according to the embodiment of the present invention is used in a bathroom unit.

The single-chamber type bathroom 52 is supported by a foldable frame 50 made of aluminum pipe, and the periphery of the aluminum pipe is covered with a bathroom cover 51 made of plastic. As described above, the single-bathroom 52 of the present embodiment is lightweight and compact, and therefore can be easily transported. The cover front surface 42 of the bathroom cover 51 (the front surface portion of the bathroom cover 51) is coupled to the upper portion, and the cover front surface 42 can be moved up and down. With this configuration, the user 43 can use the single-bathroom type bathroom 52 while sitting in a wheelchair. Hereinafter, a specific description will be given of a usage mode in a case where the mist generating apparatus 1 for sweating and washing a body is used in the single-bathroom 52. In the present embodiment, a description is given of a case where the bathroom user 43 accompanies a caregiver while sitting in a wheelchair and uses the single-room type bathroom 52, but the physically sound bathroom user 43 may be used alone.

As a preparation for using the mist generating apparatus 1 for sweating and washing a body in the single-bathroom 52, the mist discharge port 3 at the upper part of the mist generating apparatus 1 for sweating and washing a body is coupled to the mist inflow hole 44 provided at the upper left part of the single-bathroom 52 through the bathroom mist inflow pipe 45, and the air inflow port 5 at the rear part of the mist generating apparatus 1 for sweating and washing a body is coupled to the air outflow hole 46 provided at the lower left part of the single-bathroom 52 through the air outflow pipe 47. Thus, the air in the single-chamber type bath room 52 is sent to the mist generating apparatus 1 for sweating and washing the body, and then the mist generated by the mist generating apparatus 1 for sweating and washing the body can be made to flow into the single-chamber type bath room 52. The temperature sensor 11 can also be placed in the single-chamber type bathroom 52. This enables measurement of the temperature in the single-bathroom 52.

When the bathroom occupant 43 uses the single-bathroom type bathroom 52, the cover front surface 42 of the bathroom cover 51 is lifted up and the cover front surface 42 is placed on the upper surface of the single-bathroom type bathroom 52 (see fig. 9 (a)). Thus, the front surface of the single-room type bathroom 52 is opened. Then, the bathroom user 43 enters the single-type bathroom 52 from the front portion of the open single-type bathroom 52. Next, the partition plate 48 for separating the space above the shoulders and the space below the shoulders of the bathroom user 43 who entered the bathroom unit 52 is locked to the frame 50 of the aluminum pipe of the bathroom unit 52 and placed on the upper portion of the shoulders of the bathroom user 43, thereby separating the space above the shoulders and the space below the shoulders of the bathroom user 43 (see fig. 9 (b)). This enables the mist to circulate only in the space below the partition plate 48 of the bathroom occupant 43. Then, after the partition plate 48 is placed over the user's shoulder, the space under the partition plate 48 of the bathroom cabinet 52 is sealed by joining both side portions and the lower portion of the cabinet front surface 42 of the bathroom cabinet 51 by the surface fastener (see fig. 9 (c)).

Next, by pressing the temperature increase switch 34 and the temperature decrease switch 35 of the remote control panel 8 of the mist generating apparatus 1 for sweating and washing the body, the set temperature in the single-room type bathroom 52 is set, and the set temperature is detected by the temperature sensor 11 turned on in the temperature display unit 41.

Next, the operation on/off switch 31 of the remote control panel 8 of the mist generating apparatus 1 for sweating and washing the body is pressed. Thereby, the water feed pump 18 is driven to supply water from the water supply tank 9 into the water storage portion 13 from the left side (the right side in fig. 4) of the water storage portion 13 through the water supply pipe 10. When the upper water level sensor 20 detects that the water contained in the water containing portion 13 reaches the upper water level, the water heater 19 is turned on (output 300W) by stopping the supply of water to the water containing portion 13, and the two

air heaters

26 and 27 of 300W and 600W are turned on, so that air is sent from the air outlet 29 into the water containing portion 13, and the atomizing rotary body 22 is rotated by the motor 23. By the rotation of the atomizing rotor 22, the water heated by the water heater 19 in the water storage portion 13 rises along the spiral groove 16 formed in the side surface of the atomizing rotor 22, collides with the rod-shaped portion 12, and is atomized, and also collides with the inner wall of the water storage portion 13 after colliding with the rod-shaped portion 12, and is atomized. Thereby, the mist is discharged from the mist discharge port 3 in the upper portion of the housing main body 2. Further, immediately after the water heater 19, the air heater 26, and the air heater 27 are turned on, the temperature of the space filled with mist in the lower part of the single-unit bathroom 52 and the temperature of the water in the water storage part 13 are low, but since the water in the water storage part 13 is heated by the water heater 19 and the air is heated by the two air heaters 26 and the air heater 27 of 300W and 600W, the temperature of the water colliding with the rod-shaped part 12 in the upper part of the atomizing rotary body 22 and the temperature of the air sent to the water storage part 13 become high in a short time, and mist is discharged from the mist discharge port 3 in the upper part of the housing body 2.

When the temperature sensor 11 detects that the temperature of the space filled with mist in the lower part of the single-room type bathroom 52 reaches the set temperature, the 600W air heater 27 is turned off, and the air sent to the water storage unit 13 is heated by only the 300W air heater 26. In this way, the air sent to the air outlet 29 is heated by the 300W heater and the 600W heater until the temperature reaches the set temperature set by the remote control panel 8, and therefore, the temperature of the space filled with mist in the lower portion of the mist-filled single-compartment bathroom 52 can be quickly raised to the set temperature. Further, since the air sent to the air outlet 29 is heated only by the 300W heater after the set temperature is reached, the water contained in the water containing portion 13 can be raised along the spiral groove 16 in the outer peripheral portion together with the air heated by the substantially 300W heater, and the water scattered outward from the upper portion can be atomized by colliding with the rod-shaped portion 12 of the atomizing rotor 22. As a result, water fed together with warm air heated by a 300W heater collides with rod-shaped portion 12 of atomizing rotor 22, so that the amount of water evaporation increases, the mist in unit bathroom 52 can be made to be a uniform mist that does not wet, and the temperature of the space filled with the fine mist in unit bathroom 52 after the mist has reached the set temperature can be easily maintained. Further, since the bathroom side window 49 is provided on the side surface of the upper portion of the partition plate 48 of the single-room type bathroom 52, the bathroom side window 49 can be opened to blow cool air of the outside air to the face even while the single-room type bathroom 52 is in use. In addition, in the present embodiment, the following description is made: the 600W air heater 27 is turned off when the temperature of the space below the single-chamber type bathroom 52 reaches the set temperature, but the set temperature is not necessarily required, and the 600W air heater 27 may be turned off when the temperature of the space below the single-chamber type bathroom 52 reaches substantially the set temperature.

After the use of the bathroom unit 52 is completed, the surface fastener on the front surface of the bathroom unit 52 is pulled off, the cover front surface 42 of the bathroom cover 51 is lifted and placed on the upper surface of the bathroom unit 52, and the partition 48 is removed, whereby the bathroom user 43 inside the bathroom unit 52 is moved to the outside of the bathroom unit 52.

As described above, since the air sent from the air outlet 29 through the air flow path 15 is sent to the water storage portion 13 in the rotation direction of the atomizing rotor 22, the mist atomized by colliding with the rod-shaped portion 12 of the atomizing rotor 22 swirls together with the air sent to the water storage portion 13 by the rotation force of the atomizing rotor 22. Then, of the mist swirled together with the air sent to the water storage portion 13, the mist of larger particles falls into the water storage portion 13, and only the fine mist is discharged from the mist discharge port 3 of the housing main body 2. Thus, by supplying the fine spray having a small particle diameter generated by the spray generator 1 for sweating and washing the body into the single-chamber type bathroom 52, the bathroom user 43 can sweat and effectively wash the body. Specifically, since the mist generated by the mist generating apparatus 1 for sweating and washing the body is a small fine mist having a particle diameter of 300nm to 500nm (almost all of which are 1000nm or less), the mist passes through the clothes even if the bathtub user 53 uses the single-bathroom type 52 while wearing the clothes, and therefore the bathroom user 43 can sweat and effectively wash the body with almost no wetting of the clothes.

In addition, it should be understood that the embodiments disclosed herein are illustrative and not restrictive in all respects. The scope of the present invention is defined not by the above description but by the description of the scope of the claims, that is, the meaning equivalent to the scope of the claims and all modifications within the scope are included.

Description of the reference numerals

Spray generating device for sweating and body washing

2 case main body

3 spray outlet

4 sealing cover

5 air inflow

6a air vent

6b air vent

7 air ventilating fan

8 remote control operation panel

9 water supply tank

10 water supply pipe

11 temperature sensor

12 bar-shaped part

13 Water container

14 water storage part discharge pipe

15 air flow path

16 helical groove

17 power cord

18 water supply pump

19 water heater

20 upper limit water level sensor

21 lower limit water level sensor

22 atomizing rotator

22a fastening nut

23 electric machine

23a rotating shaft

24 expansion part

25 blower

26 air heater

27 air heater

28 electronic substrate

29 air flow outlet

29a air guide wall

29b inflow port

29c air guide side wall in air flow path

30 water discharging port of water containing part

31 operation switch

Water discharge cock for 32 water container

33 set temperature display part

34 temperature rising switch

35 temperature reducing switch

36 buzzer stop switch

37 power source display part

38 spraying operation display part

39 display part in cooling

40 can enter the bathroom display part

41 temperature display part

42 hood front surface

43 bathroom user

44 spray inflow orifice

45 bathroom spray inflow pipe

46 air outflow hole

47 air outflow pipe

48 baffle

49 bathroom side surface window

50 framework

51 bathroom cover

52 single bathroom

Claims

1. A spray generating device for generating a spray for use in sweating and washing a body, comprising:

a housing main body formed with a spray discharge port;

a water storage unit provided in the housing main body and storing water supplied from the outside;

a water heater provided in the water containing portion, for heating the water contained in the water containing portion;

an atomizing rotating body having a substantially inverted conical shape, a spiral groove formed in a side surface thereof, and a plurality of rod-shaped portions formed in a lower surface of an expanding portion expanding in a radial direction of an upper portion thereof, wherein water heated by the water heater in the water storage portion is raised along the spiral groove formed in the side surface by rotation thereof, and atomized by collision with the rod-shaped portions;

a motor that rotates the atomizing rotary body;

an air outlet formed in a side surface of the water storage portion, a front end portion of an air flow path positioned below the rod-shaped portion of the atomizing rotary body being open toward a bottom of the water storage portion, and a side surface of the front end portion of the air flow path being open in a rotation direction of the atomizing rotary body;

a blower that sends air to the air outlet via an air flow path;

an air heater provided in the air flow path and heating the air sent to the air outlet,

the air outlet is configured to discharge warm air, which is sent toward the bottom of the water storage portion through the air flow path and heated by the air heater, into the water storage portion, thereby the warm air is contained in the water heated by the water heater contained in the water containing part, the water heated by the water heater in the water storage part rises along a spiral groove formed on the side surface of the atomizing rotary body and collides with the rod-shaped part, atomized by this, and the atomized mist which is caused to collide with the rod-shaped portion of the atomizing rotary body swirls by the rotational force of the atomizing rotary body together with warm air which is directed in the rotational direction of the atomizing rotary body and is sent to the water above the water accommodated in the water accommodating portion, the spray of relatively large particles falls into the water storage portion, and only a fine spray is discharged from the spray outlet of the housing main body.

2. The spray generating device for sweating and washing the body of claim 1, wherein the spray is supplied into a single-compartment type bathroom.