CN113375324B - Container and humidifying device - Google Patents

Abstract

The container (23) according to the present invention includes a container body (231) and a mounting portion (70). The container body (231) contains water. The mounting portion (70) is disposed in the container body (231). The mounting portion (70) includes a first shaft hole portion (711) into which one end portion of a rotation shaft portion of a rotator that rotates according to the amount of water is inserted, and a first guide portion (712) that guides one end portion of the rotation shaft portion to the first shaft hole portion (711). The container body (231) has a restricting portion (234) for restricting rotation of the rotator from a predetermined position in a predetermined rotation direction.

Description

Container and humidifying device

Technical Field

The invention relates to a container and a humidifying device.

Background

The gasification humidifier is provided with a water supply container and a humidifying unit. The humidifying unit is provided with a tray and a gasification filter. The water supply container supplies water to the tray. The gasification filter extracts the water in the tray. The tray is provided with a float which detects water in the tray. Then, the vaporizing humidifier blows the wind to the vaporizing filter to vaporize the water. In a state where water is present in the water supply container, the water level in the tray is properly maintained. On the other hand, when there is no water in the water supply container, the water level in the tray gradually becomes lower. The water level in the tray becomes low and the float detects that there is no water in the tray.

Prior art literature

Patent literature

Japanese patent application laid-open No. 2008-89276.

Disclosure of Invention

The invention aims to solve the technical problems

However, in the humidifier described in patent document 1, it is difficult to detach a rotator such as a float from a container such as a tray. As a result, the cleaning is performed without detaching the rotor from the container. Therefore, the cleanliness of the container is insufficient.

The present invention has been made in view of the above-described problems, and an object thereof is to provide a container and a humidifier that can be easily cleaned.

Means for solving the problems

According to an aspect of the present invention, a container includes a container body and a mounting portion. The container body accommodates water. The mounting portion is disposed within the container body. The mounting portion includes a first shaft hole portion into which one end portion of a rotation shaft portion of a rotator rotated according to the amount of water is inserted, and a first guide portion guiding one end portion of the rotation shaft portion to the first shaft hole portion. The container body has a restricting portion that restricts rotation of the rotor from a predetermined position in a predetermined rotation direction.

According to an aspect of the present invention, a humidifying device includes the container described above and a humidifying filter. The humidification filter is disposed within the vessel. The container further includes the rotor. The rotor includes a subject to be detected, and is detected by a detection unit disposed outside the container.

Effects of the invention

The container and the humidifying device according to the present invention can be easily cleaned.

Drawings

Fig. 1 is a perspective view showing a humidifier according to an embodiment of the present invention.

Fig. 2 is a schematic diagram showing the inside of the humidifier according to the present embodiment.

Fig. 3 is a perspective view showing a state in which the water supply container and the humidifying unit are extracted from the casing according to the present embodiment.

Fig. 4 is a perspective view showing a state in which a part of the humidifying section according to the present embodiment is pulled out.

Fig. 5 is a perspective view showing a humidifying unit according to the present embodiment.

Fig. 6 is a cross-sectional view showing a buoy according to the present embodiment.

Fig. 7 is a cross-sectional view of the tray according to the present embodiment, in which a predetermined amount or more of water is not present.

Fig. 8 is a cross-sectional view showing that a predetermined amount or more of water is present in the tray according to the present embodiment.

Fig. 9 is a perspective view showing a tray according to the present embodiment.

Fig. 10 is a perspective view showing the attachment portion and the restricting portion according to the present embodiment.

Fig. 11 is a plan view showing a first mounting portion according to the present embodiment.

Fig. 12 is a cross-sectional view taken along line XII-XII in fig. 11 according to the present embodiment.

Fig. 13 is a cross-sectional view taken along line XIII-XIII in fig. 11 according to the present embodiment.

Fig. 14 is a cross-sectional view showing a tray according to the present embodiment.

Fig. 15 is a cross-sectional view showing a buoy according to the present embodiment.

Detailed Description

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the drawings, the same or corresponding portions are denoted by the same reference numerals, and description thereof is omitted.

A humidifier 10 according to an embodiment of the present invention will be described with reference to fig. 1 and 2. Fig. 1 is a perspective view showing a humidifier 10. Fig. 2 is a schematic diagram showing the inside of the humidifier 10. In the present embodiment, the X-axis, the Y-axis, and the Z-axis are shown in the figure to be orthogonal to each other. The Z axis is parallel to the vertical upward direction, and the X axis and the Y axis are parallel to the horizontal direction.

As shown in fig. 1, the humidifier 10 includes a housing 11, a humidifying unit 20, and a water supply container 30. Humidifier 10 is an example of a humidifying device. The humidifier 10 is disposed in a room of a restaurant, for example.

As shown in fig. 2, the housing 11 has a top plate 11a, a bottom plate 11b, a pair of side plates, a front panel 11d, and a rear panel 11e. Each of the front panel 11d, the rear panel 11e, and the pair of side plates is disposed between the top plate 11a and the bottom plate 11 b.

The front panel 11d is disposed opposite to the rear panel 11e. Then, the front panel 11d is disposed on the negative direction side of the X axis of the housing 11. The front panel 11d includes a plurality of suction ports. Each of the plurality of suction ports is an opening.

The top plate 11a is disposed opposite to the bottom plate 11 b. Then, the top plate 11a is disposed above the housing 11. Specifically, the top plate 11a includes a blow-out port, a cover member, and an operation panel. The blow-out port is an opening. The cover member is a substantially plate-shaped member. The cover member covers the blowout port. The cover member functions as a louver that defines a flow direction of air emitted from the air outlet. The operation panel receives an instruction from a customer or the like who hosts a restaurant.

The housing 11 further includes a plurality of ventilation portions 60 through which air flows and a blower portion 50. Specifically, the plurality of flow-through portions 60 include a first chamber 61, a second chamber 62, a third chamber 63, and a fourth chamber 64.

The first chamber 61 is disposed on the negative direction side of the X axis of the housing 11. The first chamber 61 communicates with the outside of the housing 11 via a plurality of suction ports. The first chamber 61 has a filter 61a. The filter 61a is, for example, a deodorizing filter and/or a dust collecting filter.

The second chamber 62 is disposed in the center of the housing 11. In addition, the second chamber 62 communicates with the first chamber 61. The air blowing unit 50 is disposed in the second chamber 62. The blower 50 includes, for example, a fan and a motor. The motor rotates the fan.

The third chamber 63 is disposed on the negative direction side of the Z axis of the housing 11. The third chamber 63 communicates with the second chamber 62. The humidifying portion 20 is disposed in the third chamber 63. Specifically, the humidifying unit 20 includes a humidifying filter 21 and a tray 23. The tray 23 is an example of a container. The humidification filter 21 is disposed in the tray 23. The tray 23 accommodates a predetermined amount of water. The humidifying filter 21 withdraws the water in the tray 23.

The fourth chamber 64 is disposed on the positive Z-axis side of the housing 11. The fourth chamber 64 communicates with the third chamber 63. In addition, the fourth chamber 64 communicates with the outside of the housing 11 via a blow-out port.

Next, the flow of air will be described in detail. The fan causes a first air flow F1 to occur. The first air flow F1 passes through the first chamber 61, the second chamber 62, the third chamber 63, and the fourth chamber 64 in this order. The first air flow F1 is humidified by the humidifying unit 20 when passing through the third chamber 63. Specifically, the first air flow F1 is blown to the humidifying filter 21. As a result, the water contained in the humidification filter 21 is gasified, and is discharged as water vapor from the humidifier 10 into the restaurant.

As shown in fig. 1, the water supply container 30 contains a large amount of water. The water supply container 30 supplies water to the tray 23. When the water supply container 30 accommodates water, water is supplied from the water supply container 30 to the tray 23 so that the water level in the tray 23 is normally kept at an appropriate level. Since the water supply structure from such a water supply container 30 to the tray 23 is known, a detailed description thereof will be omitted here. When the water supply container 30 is empty, water is stored in the container 30 by a customer or the like.

Here, the water supply container 30 and the humidifying unit 20 will be described with reference to fig. 3 and 4. Fig. 3 is a perspective view showing a state in which the water supply container 30 and the humidifying unit 20 are extracted from the casing 11.

As shown in fig. 3, in the humidifier 10, the water supply container 30 is detachable from the housing 11 in a state where it is integral with the humidifying section 20. Specifically, the water supply container 30 and the humidification unit 20 are integrally drawn out in the first direction D1 from the third chamber 63 of the housing 11. The first direction D1 indicates a direction in which the water supply container 30 and the humidifying unit 20 are detached from the housing 11. In the present embodiment, the first direction D1 extends along the Y-axis direction.

Fig. 4 is a perspective view showing a state in which a part of the humidifying section 20 is pulled out. As shown in fig. 4, the water supply container 30 and the humidifying unit 20 can be separated from each other in a state where a part of the humidifying unit 20 is pulled out from the housing 11. Specifically, in a state where the water supply container 30 and a part of the humidifying section 20 are pulled out from the housing 11, the user or the like picks up the water supply container 30 from the tray 23, and therefore, removes the water supply container 30. That is, the water supply container 30 can be detached without the client or the like contacting the humidification filter 21. As a result, the customer or the like can easily store a large amount of water in the water supply container 30.

Here, the humidifying unit 20 will be described with reference to fig. 5. Fig. 5 is a perspective view showing the humidifying unit 20. As shown in fig. 5, the tray 23 includes a container body 231. The container body 231 accommodates water. The container body 231 is generally rectangular box-like in shape. The container body 231 has an opening at an upper surface thereof. Specifically, the container body 231 has a bottom wall 232 and a side wall 233. The side wall 233 is upstanding from the bottom wall 232. In detail, the side wall 233 has a first wall 233a, a second wall 233b, a third wall 233c, a fourth wall 233d, and a partition 233e.

The shape of the first wall 233a, the shape of the second wall 233b, the shape of the third wall 233c, and the shape of the fourth wall 233c are substantially planar shapes. The first wall 233a is disposed opposite to the third wall 233 c. The second wall 233b is disposed opposite to the fourth wall 233d.

The partition 233e is disposed between the second wall 233b and the fourth wall 233d. That is, the tray 23 is divided into a container chamber 201 and a filter chamber 202. Specifically, the container chamber 201 is distinguished from the filter chamber 202 along the first direction D1. In detail, the container chamber 201 is provided in the first direction D1 of the filter chamber 202. A communication port that communicates the container chamber 201 with the filter chamber 202 is provided at a lower portion of the partition 233e.

A water supply container 30 is placed in the container chamber 201. As a result, the water supply container 30 supplies water to the container chamber 201. Water supplied to the water supply chamber 201 flows into the filter chamber 202 through the communication port.

A humidification filter 21 is provided in the filter chamber 202. Specifically, one end of the humidification filter 21 is connected to the third wall 233c, and the other end of the humidification filter 21 is connected to the separator 233e. The lower end portion of the humidification filter 21 is in contact with the bottom wall 232. Specifically, the humidifying filter 21 is a rectangular sheet. The sheet is made of a material having water absorbability and air permeability. The sheet is formed of, for example, rayon.

The tray 23 is also provided with a float 22. Buoy 22 is an example of a rotating body. The bottom wall 232 has, for example, a deep bottom region that is located at a lower position. The buoy 22 is disposed in the deep bottom region.

Next, the buoy 22 is described with reference to fig. 6. Fig. 6 is a cross-sectional view of the buoy 22. As shown in fig. 6, the float 22 includes a frame 220, expanded polystyrene 223, and a magnet 222. The magnet 222 is an example of the object to be detected.

The material of the frame portion 220 is, for example, synthetic resin. A foamed polystyrene 223 and a magnet 222 are provided inside the frame 220. The density of the expanded polystyrene 223 is lighter than that of water. As a result, the float 22 moves according to the amount of water.

The frame 220 includes a frame body 221d, a rotation shaft 221, and an elastic member 221c. The rotation shaft portion 221 extends along the first direction D1. Specifically, the rotation shaft portion 221 includes a first rotation shaft portion 221a and a second rotation shaft portion 221b. Each of the first rotation shaft portion 221a and the second rotation shaft portion 221b is a substantially cylindrical body. The frame body 221d is disposed between the first rotation shaft 221a and the second rotation shaft 221b. The float 22 rotates about the rotation shaft 221.

In order to mount the float 22 on the tray 23, the first rotation shaft 221a is mounted on the frame main body 221d via an elastic member 221c. The elastic member 221c is, for example, a thin plate. As a result, the first rotation shaft 221a is movable in the first direction D1.

Next, the operation of the float 22 will be described with reference to fig. 7 and 8. Fig. 7 and 8 are cross-sectional views taken along line VII-VII of fig. 5. Specifically, fig. 7 is a cross-sectional view when a predetermined amount or more of water is not present in the tray 23. Fig. 8 is a cross-sectional view of the tray 23 when a predetermined amount of water or more is present. As shown in fig. 7 and 8, the float 22 rotates according to the amount of water.

The container body 231 further has a restricting portion 234. The restricting portion 234 restricts the float 22 from rotating in the predetermined rotation direction R1 from the predetermined position P1. The predetermined position P1 is, for example, a position where a predetermined amount or more of water is present. The predetermined amount is, for example, the amount of water that can be extracted by the humidification filter 21.

Specifically, the float 22 rotates about the rotation shaft 221 between the predetermined position P1 and the lower position P2. The lower position P2 is a position lower than the predetermined position P1. More specifically, when a predetermined amount of water is present in the tray 23, the float 22 receives buoyancy. As a result, the upper surface of the float 22 contacts the lower surface of the restricting portion 234. Thus, the float 22 is located at the predetermined position P1. On the other hand, when the predetermined amount of water is not present in the tray 23, the float 22 is not subjected to buoyancy. As a result, the lower surface of the float 22 contacts the upper surface of the bottom wall 232. Thus, the float 22 is in the down position P2.

The humidifier 10 is preferably further provided with a magnetic sensor 40. The magnetic sensor unit 40 is an example of a detection unit. Specifically, the magnetic sensor unit 40 is a hall sensor, a sensor substrate, a substrate case, or the like. When the tray 23 is accommodated in the third chamber 63, the magnetic sensor unit 40 is disposed outside the tray 23 so as to face the float 22.

Specifically, when the float 22 is positioned at the predetermined position P1, the magnet 222 faces the magnetic sensor unit 40 in the front direction, and the magnetic sensor unit 40 outputs a high-level signal. The high level signal indicates that the water level in the tray 23 is the proper water level. On the other hand, when the float 22 is positioned at the lower position P2, the magnet 222 is deviated from the front surface of the magnetic sensor unit 40, and the magnetic sensor unit 40 outputs a low-level signal. The low level signal indicates a decrease in the water level in the tray 23. As a result, the hosting customer or the like can recognize that there is no water in the water supply container 30.

Here, the humidifying filter 21 and the float 22 are detachable from the tray 23. A method of removing the humidifying filter 21 and the float 22 from the tray 23 will be described with reference to fig. 9. Fig. 9 is a perspective view showing the tray 23.

As shown in fig. 9, a staff member or the like in a restaurant picks up the humidifying filter 21 from the tray 23, and thus removes the humidifying filter 21. As a result, the humidifying filter 21 can be easily exchanged by a staff member of a restaurant or the like at the time of cleaning a room or the like.

The tray 23 further includes a mounting portion 70, and the mounting portion 70 is disposed in the container body 231. The tray 23 includes a pair of attachment portions 70. The pair of mounting portions 70 includes a first mounting portion 710 and a second mounting portion 720. The pair of mounting portions 70 may be separable from the buoy 22. Specifically, a staff member or the like in a restaurant pulls out the buoy 22 from the attachment portion 70, and thus detaches the buoy 22. As a result, the tray 23 and the float 22 can be easily cleaned by a staff member of a restaurant or the like when cleaning a room or the like.

Next, the mounting portion 70 and the restricting portion 234 will be described in detail with reference to fig. 10. Fig. 10 is a perspective view showing the mounting portion 70 and the display portion 234. As shown in fig. 10, the restricting portion 234 is disposed on the fourth wall 233d. Specifically, the restricting portion 234 has a first plate portion 234a and a second plate portion 234b. Each of the first plate portion 234a and the second plate portion 234b is a flat plate in shape. The first plate portion 234a is disposed parallel to the bottom wall 232.

In detail, the second plate portion 234b is orthogonal to the first plate portion 234 a. Specifically, the second plate portion 234b is orthogonal to the first plate portion 234 a. An end of the first plate portion 234a is connected to an end of the second plate portion 234b. That is, the restriction portion 234 has a substantially L-shape as viewed from a direction perpendicular to the fourth wall 233d. As a result, the restriction portion 234 can be easily cleaned because it is not a complicated shape such as a substantially U-shape. Further, since the restriction portion 234 has a substantially L-shape, a certain strength can be ensured, and even when a staff member, a client, or the like in a restaurant or the like contacts the restriction portion 234 during cleaning, the destruction of the restriction portion 234 can be suppressed.

Next, the mounting portion 70 is described with reference to fig. 10 to 13. Fig. 11 is a plan view showing the first mounting portion 710. Fig. 12 is a cross-sectional view taken along line XII-XII of fig. 11. Fig. 13 is a cross-sectional view taken along line XIII-XIII of fig. 11.

As shown in fig. 10 to 13, the first mounting portion 710 is disposed opposite to the second mounting portion 720. Specifically, the first mounting portion 710 is disposed on the partition 233e. The second mounting portion 720 is disposed on the convex portion of the bottom wall 232. Specifically, the first mounting portion 710 includes a first shaft hole 711 and a first guide 712. The second mounting portion 720 also has the same configuration as the first mounting portion 710. Specifically, the second mounting portion 720 has a second shaft hole portion and a second guide portion.

One end portion of the rotation shaft portion 221 of the float 22 is inserted into the first shaft hole portion 711. Specifically, the first shaft hole 711 has a cylindrical hole. The central axis of the cylindrical shape extends along the X-axis direction. Then, as shown in fig. 10, the first shaft hole 711 is disposed at a position lower than the position of the restriction portion 234 from the bottom wall 232.

The first guide portion 712 guides one end portion of the rotation shaft portion 221 of the float 22 to the first shaft hole portion 711. Specifically, the first guide portion 712 includes a high wall portion 712a, a low wall portion 712b, an inclined surface 712c, and a back wall portion 712d.

The back wall portion 712d is disposed along the partition 233e. The high wall portion 712a is provided upright from the back wall portion 712d. The low wall portion 712b is provided upright from the back wall portion 712d. The high wall portion 712a is disposed opposite to the low wall portion 712d.

As shown in fig. 10, the low wall portion 712b is disposed farther from the restricting portion 234 than the high wall portion 712a. The low wall portion 712b is lower than the high wall portion 712a.

The inclined surface 712c is disposed between the high wall portion 712a and the low wall portion 712 b. The inclined surface 712c is inclined toward the first shaft hole 711. Specifically, the inclined surface 712c is inclined from the low wall portion 712b toward the first shaft hole portion 711, and is inclined from the back wall portion 712d toward the first shaft hole portion 711.

Next, a method of attaching the float 22 to the tray 23 will be described with reference to fig. 14 and 15. Fig. 14 is a cross-sectional view of the tray 23. Fig. 15 is a cross-sectional view of the buoy 22. The buoy 22 is held, for example, by the index finger and thumb of the right hand of a restaurant employee.

As shown in fig. 14, when the rotation shaft 221 is moved downward from the right upper direction toward the mounting portion 70, the lower surface of the float 22 contacts the upper surface of the restricting portion 234. As a result, the rotation shaft 221 cannot be placed on the inclined surface 712c of the mounting portion 70. Accordingly, the rotation shaft 221 is moved obliquely downward from the side of the lower wall portion 712b of the mounting portion 70 toward the mounting portion 70. As a result, the lower surface of the float 22 does not contact the upper surface of the restricting portion 234. Accordingly, the rotation shaft 221 can be placed on the inclined surface 712c of the mounting portion 70.

As shown in fig. 15, when the float 22 is moved downward in a state where the first rotation shaft 221a is placed on the inclined surface 712c of the first mounting portion 710, the first rotation shaft 221a is guided obliquely downward toward the first shaft hole 711 of the first mounting portion 710. In addition, the first rotation shaft portion 221a is guided to the second rotation shaft portion 221b. When the first rotation shaft 221a is guided obliquely downward and reaches the first shaft hole 711, it is guided in a direction opposite to the second rotation shaft 221b. As a result, the first rotation shaft 221a is inserted into the first shaft hole 711.

As described above, the first mounting portion 710 has the first shaft hole portion 711 and the first guide portion 712. As a result, the first rotating shaft 221a of the float 22 is pulled out from the first shaft hole 711 along the first guide 712, and therefore the float 22 can be easily detached from the tray 23. Further, the first rotation shaft portion 221a of the float 22 is pushed into the first shaft hole portion 711 along the first guide portion 712, and therefore, the float 22 can be easily attached to the tray 23. Thus, the float 22 can be easily attached and detached at the time of cleaning or the like. As a result, the tray 23 and the float 22 can be easily cleaned.

In addition, the first guide portion 712 has a low wall portion 712b, and the low wall portion 712b is disposed away from the restricting portion 234. As a result, the float 22 does not contact the restricting portion 234 when the float 22 is detached from the tray 23. In addition, when the float 22 is mounted on the tray 23, the float 22 does not contact the restricting portion 234. Therefore, the float 22 can be easily attached and detached at the time of cleaning or the like.

In addition, the first guide portion 712 has an inclined surface 712c. As a result, since one end portion of the rotation shaft portion 221 of the float 22 is pulled out from the first shaft hole portion 711 along the inclined surface 712c, the float 22 can be easily detached from the tray 23. Further, since one end portion of the rotation shaft portion 221 of the float 22 is pushed into the first shaft hole portion 711 along the inclined surface 712c, the float 22 can be easily attached to the tray 23. As a result, the float 22 can be easily attached and detached at the time of cleaning or the like.

Then, the second mounting portion 720 has a second shaft hole portion and a second guide portion. As a result, the float 22 can be attached and detached more easily at the time of cleaning or the like.

Further, the humidifying filter 21 extracts water from the container body 231. The inside of the container body 231 is cleaned. As a result, clean water is vaporized and emitted from the humidifier 10 as water vapor.

The embodiments of the present invention have been described above with reference to the drawings. However, the present invention is not limited to the above-described embodiments, and may be implemented in various embodiments within a range not departing from the gist thereof. In addition, by appropriately combining a plurality of the constituent elements disclosed in the above embodiments, various inventions can be formed. For example, some components may be deleted from all the components shown in the embodiments. Further, the constituent elements in the different embodiments may be appropriately combined. In the drawings, for convenience of understanding, each constituent element is mainly schematically represented, and for convenience of drawing, thicknesses, lengths, numbers, intervals, and the like of each constituent element may be shown as being in and out of reality. The materials, shapes, sizes, and the like of the respective constituent elements shown in the above-described embodiments are not particularly limited, and various modifications are possible within a range not substantially departing from the effects of the present invention.

Industrial applicability

The invention provides a container and a humidifying device, which have industrial utilization possibility.

Description of the reference numerals

22. Buoy for float

23. Tray for holding food

70. Mounting part

221. Rotating shaft part

221a first rotation shaft portion

231. Container body

234. Limiting part

710. A first mounting part

711. A first shaft hole part

712. First guide part

Claims (6)

1. A container, comprising:

a container body for containing water; and

a mounting portion disposed in the container body,

the mounting portion includes:

a first shaft hole into which one end of a rotation shaft of a rotator rotated according to the amount of water is inserted; and

a first guide portion for guiding one end portion of the rotation shaft portion to the first shaft hole portion,

the container body has a restricting portion that restricts rotation of the rotor from a predetermined position in a predetermined rotation direction,

the first guide portion has:

a high wall portion that is located on the restricting portion side with respect to the first shaft hole portion and forms a part of the first shaft hole portion; and

and a low wall portion which is located on the opposite side of the first shaft hole portion from the restriction portion, forms a part of the first shaft hole portion, and is lower than the high wall portion.

2. The container according to claim 1, wherein the container comprises a lid,

the container body also has a bottom wall and a side wall disposed upstanding from the bottom wall,

the first shaft hole is disposed at a position lower than the position of the restriction portion.

3. The container according to claim 2, wherein,

the first guide part is also provided with an inclined surface which is inclined towards the first shaft hole part,

the inclined surface is disposed between the high wall portion and the low wall portion.

4. A container according to any one of claim 1 to 3,

the restriction portion has a first plate portion and a second plate portion orthogonal to the first plate portion,

the end of the first plate portion is connected with the end of the second plate portion.

5. The container according to any one of claim 1 to 4, wherein,

the mounting part is provided with a second shaft hole part and a second guiding part,

the second shaft hole portion is inserted into the other end portion of the rotating shaft portion,

the second guide portion guides the other end portion of the rotation shaft portion to the second shaft hole portion.

6. A humidifying device, comprising:

the container of any one of claims 1 to 5; and

a humidifying filter disposed in the container,

the container may further comprise a rotating body,

the rotor includes:

the rotating shaft portion; and

the detected body is detected by a detecting unit disposed outside the container, and the humidifying filter extracts water from the container.