JP2016044932A - humidifier - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a humidifier that can prevent failure to attach a component when each component is reassembled after disassembled.SOLUTION: A humidifier includes a body and a cover attachable/detachable to/from the body. The body includes: a feed water tank; a high-humidity air generation section for generating high-humidity air from water supplied from the feed water tank; a carrier wind blowing section for blowing out carrier wind for generating high-humidity wind by mixing with the high-humidity air; and a high-humidity wind duct for generating high-humidity wind by mixing the high-humidity air with the carrier wind. The body includes a lock portion for fixing the high-humidity wind duct to the body, and the high-humidity wind duct includes a lock receiving portion to which the lock portion is fitted. By fitting the lock portion to the lock receiving portion, the high-humidity wind duct is fixed to the body, enabling the cover to be mounted to the body. By detaching the lock portion from the lock receiving portion, the high-humidity wind duct can be detached from the body, leading to the state where the cover cannot be mounted to the body.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a humidifier that generates high-humidity air by heating water therein.

  Conventionally, a steam generation container and a water supply container that supplies water from the water supply tank to the steam generation container, a heater that heats and evaporates and dissipates the water in the steam generation container, and electrical equipment that controls energization of the heater (control unit) ) Are separated into an upper unit having a steam generation container and a lower unit having a heater and electric equipment for heating water in the steam generation container. There is a humidifier that can be attached to and detached from the lower unit (for example, see Patent Document 1).

Japanese Patent Laid-Open No. 10-318569

  However, in the conventional configuration, when performing maintenance, the upper unit is removed from the lower unit, and further, after disassembling the steam generation container of the upper unit, when assembling them again, the components constituting the steam generation container (for example, There is a problem of forgetting to attach steam pipes etc. and assembling.

  The present invention has been made to solve the above-described problems, and an object thereof is to provide a humidifier capable of preventing forgetting to attach components when reassembling after disassembling each part. To do.

  In order to solve the above-described problems, the humidifier has a main body and a cover that is detachable from the main body, and the main body generates a high-humidity air from the water supply tank and the water supplied from the water supply tank. A humid air generating unit, a conveying air blowing unit for sending conveying air that is mixed with high humidity air to generate high humidity air, and a high humidity air duct that generates high humidity air by mixing high humidity air and conveying air. The main body is provided with a lock part for fixing the high-humidity air duct to the main body, the high-humidity air duct is provided with a lock receiving part into which the lock part is fitted, and the lock part is fitted into the lock receiving part, The high-humidity air duct is fixed to the main body and the cover can be attached to the main body. By removing the lock part from the lock receiving part, the high-humidity air duct can be detached from the main body and the cover cannot be attached to the main body. Configure to be in a possible state. It is sufficient.

  According to the present invention, when reassembling after disassembling each part, a humidifier capable of preventing parts from being forgotten or wrongly assembled and being used in an unsafe state is provided. be able to.

Side view of humidifier A (with the guide air duct stored) Perspective view seen from the front of the humidifier A (state where the guide air duct is located in front) (A) Perspective view seen from the front upper side of the humidifier A, (b) Top view of the humidifier A, (c) Perspective view seen from the rear upper side of the humidifier A (the guide air duct is located in front. State) (A) Front view of humidifier A, (b) Side view of humidifier A, (c) Rear view of humidifier A (a state where the guide air duct is positioned forward) (A) Perspective view as viewed from the front lower side of the humidifier A, (b) Bottom view of the humidifier A, (c) Perspective view as viewed from the rear lower side of the humidifier A (the guide air duct is located in front. State) Disassembled perspective view of humidifier A The figure which looked at main part 10 of Drawing 6 from the upper part The perspective view which looked at the main body 10 of FIG. 6 from back (a) The state where the passage lid 17a was attached (b) The state where the passage lid 17b was removed (A) Exploded perspective view 1 of the guide air duct 60 of the humidifier A, (b) Exploded perspective view 1 of the guide air duct 60 of the humidifier A (A) Front view of humidifier A, (b) AA sectional view of (a) It is the perspective view seen from the front of humidifier A, and the figure which cut in part in order to explain an internal structure (state where a guide wind duct is located ahead) It is the perspective view seen from the back of the humidifier A, and the figure which cut off part in order to explain an internal structure (state where the guide wind duct is located ahead) It is the perspective view seen from the front lower part of humidifier A, and the figure expressed so that the inside could be seen in order to explain an internal structure (state where a guide wind duct is located ahead) (A) Front view of humidifier A showing the attachment / detachment process of the water supply tank, (b) AA sectional view of (a) Exploded perspective view showing the process of attaching and detaching the water tank 1 is an exploded perspective view of the humidifier A as seen from the rear (the state where the lock portion 18 fixes the high-humidity duct 30). FIG. 2 is an exploded perspective view of the humidifier A as seen from the rear (the state where the lock portion 18 releases the fixation of the high-humidity air duct 30). (A) The perspective view seen from the rear upper side which shows the state which removed the front cover 40 from the main body 10, (b) The enlarged view of the position of the lock | rock part 18 of (a), (c) The front cover 40 was removed from the main body 10 The perspective view seen from the diagonally upper side showing the state The perspective view of the lock part 18 (lock piece 18b) (A) The perspective view which shows the state which the lock | rock part 18 released | released fixation of the high-humidity air duct 30, (b) The perspective view which shows the state which the lock | rock part 18 fixed the high-humidity air duct 30 (A) Top view of high-humidity air duct 30 (b) Side view of high-humidity air duct 30 Sectional view 1 in a state where the front cover 40 and each part are attached to the front cover 40 (guide wind duct accommodated state) (the sectional position is the same as AA in FIG. 7A) Sectional view 2 with the front cover 40 and each part attached to the front cover 40 (a state where the guide air duct protrudes forward) (the sectional position is the same as AA in FIG. 7A) The perspective view seen from the back of the state which the front cover 40, the rear cover 50, and the guide wind duct 60 connected. 19 is an exploded perspective view of FIG. Enlarged view of FIG. Sectional view of the state where the front cover 40 and each part are attached to the front cover 40 (a state where the guide air duct protrudes forward) (the cross-sectional position is a position passing through the claw portion 44) Enlarged view of FIG. Flow chart showing operation of humidifier A Enlarged view of the lock portion 18 of the humidifier A of the second embodiment ((a) locked state, (b lock released state)) The perspective view which looked at the front cover 40 of the humidifier A of Embodiment 3 from the downward direction Partial sectional drawing which shows the to-be-detected part 40g and the detection means 10g of the humidifier A of Embodiment 3 (The state in which the front cover 40 was correctly attached to the main body 10 is shown)

Embodiment 1 FIG.
The humidifier A which concerns on embodiment is demonstrated with reference to FIGS.
The humidifier A includes a main body 10 provided with each part, a water supply tank 20 that supplies water to the main body 10, a high humidity air P that generates high humidity air R from the high humidity air P generated by the main body 10 and the conveying air Q. The front cover 40 that covers the wind duct 30, the main body 10, and each part provided in the main body 10 and opens the high-humidity air outlet 41 toward the front, and the rear cover 50 that covers the outside of the water supply tank 20 provided in the main body 10. And a guide air duct 60 provided on the upper surface portion 40a of the front cover 40 and serving as a flow path for the guide air S generated by the main body 10.

(Body)
Referring mainly to FIGS. 1 to 13, the main body 10 has an elliptical shape with the shape seen from above being long in the front-rear direction, and the operation display unit 11 is arranged on the front side where the high-humidity air outlet 41 opens. The control unit 12 is disposed behind the operation display unit 11, the high-humidity air generation unit 13 is disposed behind the control unit 12, the blower unit 14 is disposed behind the high-humidity air generation unit 13, and the blower unit. The water supply tank mounting part 15 is arrange | positioned behind 14 and the power cord connecting part 16 is arrange | positioned at the rear end.
That is, the direction in which the high-humidity air R blows out from the high-humidity air outlet 41 and the direction in which the control unit 12, the high-humidity air generation unit 13, the air blowing unit 14, and the water supply tank mounting unit 15 are aligned are the same direction.

  Next, the operation display unit 11 includes an operation unit 11a such as a power switch for the humidifier and a switch for performing various operations and settings, and a display unit 11b such as a lamp and an LED for indicating the state of the humidifier. The unit 12 is communicably connected.

Next, the control part 12 controls the electrical component provided in each part of the humidifier S, and is located inside the area | region where the curvature of the outer wall 10a of the main body 10 is a front side.
The control unit 12 also includes a storage circuit having a ROM, a RAM, a nonvolatile memory, etc., an arithmetic processing unit (CPU) that executes various control programs stored in the storage circuit, and inputs signals to the arithmetic processing unit. An input / output circuit for outputting and a timer circuit for measuring time are provided.

A sensor system (not shown) that acquires information necessary for controlling each part of the humidifier A is connected to the input side of the control unit 12. The sensor system includes, for example, a water level detection unit that detects the water level in the water supply tank 20, a temperature detection unit that detects the temperature of the high-humidity air R described later, a humidity detection unit that detects the humidity around the humidifier A, and a humidifier A human body detection unit that detects a person existing around A, a proximity sensor that detects that a person approaches a high-humidity air outlet 41, which will be described later, and the like are included.
Further, on the output side of the control unit 12, a display unit 11 b, a heater 13 b that configures a high-humidity air generation unit 13 to be described later, and a blower fan 14 a that configures the blower unit 14 are connected.
In addition, the control part 12 is arrange | positioned in the lower part of the high-humidity air blower outlet 41, and the part which reaches a position higher than the height from the bottom face 10b of the main body 10 to the high-humidity air production | generation part 13. FIG.

Next, the high-humidity air generation unit 13 is a part that generates the high-humidity air P from the water supplied from the water supply tank 20, and includes a heating water storage unit 13a and a heater 13b.
The water reservoir 13a for heating is a part for storing the water for heating supplied from the water supply tank 20, and is formed, for example, in a cylindrical shape extending in the vertical direction and opened upward (upper surface opening). 131a). A water supply passage 17 that is connected to the water supply tank mounting portion 15 and serves as a path for water supplied from the water supply tank 20 is connected to the lower surface of the heating water storage portion 13a.

A cylindrical high-humidity air duct 13c extending in the vertical direction is provided on the upper part of the heating water reservoir 13a. The high-humidity air duct 13 c guides the high-humidity air P (steam) generated by the heating water storage unit 13 a to the high-humidity air duct 30.
The lower opening 131c on the heating water reservoir 13a side of the high-humidity air duct 13c has substantially the same shape as the upper surface opening 131a of the heating water reservoir 13a. The upper opening 132c on the high-humidity air duct 30 side is smaller than the lower opening 131c and has an elongated shape in the front-rear direction.

In addition, a protruding rib 133c is formed at the upper peripheral edge of the high-humidity air duct 13c so as to extend the outer shape upward. Furthermore, a flange 134c is formed on the side surface of the high-humidity air duct 13c so as to protrude in the side surface direction so as to surround the side surface.
This flange 134c is for determining the downward position of the high-humidity air duct 13c when the high-humidity air duct 13c is attached to the heated water reservoir 13a.

  Further, a packing 135c is provided between the flange 134c and the lower opening 131c. This packing 135c fills the gap between the two parts in a state where the high-humidity air duct 13c is attached to the heated water reservoir 13a, and steam leaks from between the heated water reservoir 13a and the high-humidity air duct 13c. It is for preventing.

  Next, the heater 13b heats the water in the heating reservoir 13a to generate steam (high humidity air P). The heater 13a is formed, for example, in a substantially annular shape, and surrounds the outer peripheral side of the heating water reservoir 13a.

Next, mainly referring to FIGS. 16 to 20, a high-humidity air duct 30, which will be described later, is located on the upper surface 10 a of the main body and surrounded by the high-humidity air generation unit 13 and the air blowing unit 14 (air blowing duct 14 b). When this is attached to the main body 10, a lock portion 18 is provided for fixing the high-humidity air duct 30 to the main body 10.
The lock portion 18 includes a shaft 18a protruding upward from the main body upper surface 10a, and a lock piece 18b pivotally supported on the shaft 18a. As for the lock piece 18b, the planar shape has comprised the fan shape, and the axis | shaft 18a is arrange | positioned in the position used as the center of a fan shape.
The lock piece 18b is positioned inside the main body 10 when the main body 10 is viewed from above in a state where the high-humidity air duct 30 is fixed, and at least a part of the lock piece 18b is released in a state where the high-humidity air duct 30 is fixed. Project outside.

  Next, mainly referring to FIG. 6 to FIG. 13, the blower unit 14 includes a blower fan 14 a and a blower duct 14 b that are centrifugal fans. The blower fan 14 a generates an airflow that flows from the inside of the humidifier A to the outside, and guide air S that guides the high humidity air R blown from the humidifier A, and the inside of the high humidity air duct 30. Is mixed with the high-humidity air P to generate the conveyance air Q that becomes the high-humidity air R.

The blower fan 14a includes a motor 141a and a blade portion 141b that is attached to a rotating shaft 141c of the motor 141a and generates an airflow. The blower fan 14a is attached to the inside of the main body 10 so that the motor 141a is on the rear side, the wing portion 141b is on the front side, and the rotating shaft 141c faces the front-rear direction.
That is, by being arranged in this way, the wing 141b is rotated by the motor 141a, thereby sucking air from the front and rear directions and discharging the air in the centrifugal direction including the upper direction to generate an air flow. The motor 141 a is located below the water supply tank 20.

Next, on the bottom surface 10b of the main body 10, an air intake port 101b (see FIG. 5) for taking in the air sucked by the blower fan 14a into the main body 10 is opened. The air intake port 101b opens at the lower side, the front side, and the rear side of the air blowing unit 14, respectively.
The air taken in from the air intake port 101b located in front of the blower unit 14 flows down to the wing unit 141b together with the heat generated in the control unit 12. That is, the cooling of the control unit 12 can be promoted by providing the air intake port 101b in front.

Further, the air taken in from the air intake port 101b located behind the blower part 14 flows down in the vicinity of the motor 141a, and flows down to the blade part 141b together with the heat generated by the motor 141a. That is, the cooling of the motor 141a can be promoted by providing the air intake port 101b at the rear.
The air intake port 101b located below the blower unit 14 is an opening for taking in the air sucked by the blower fan 14a into the main body 10 and discharges water flowing from the blower unit 14 to the outside of the main body 10. It serves as a water outlet.

Next, the air duct 14b serves as a flow path for guiding the airflow from the air blowing fan 14a from the inside of the main body 10 to the outside, and is a cylindrical member protruding from the upper surface 10a of the main body, and has a rectangular shape facing upward. The air duct opening 14c is open.
The air duct opening 14c is provided with a lid 14d for opening and closing the opening. The lid 14d is configured to close the opening in a state where nothing is connected to the air duct opening 14c, and to open the opening in a state in which the lid 14d is connected to a conveying wind connection duct 42 and a guide wind connection duct 43, which will be described later. These ducts and the air duct 14b communicate with each other.

  Note that the conveyance air connection duct 42 to be described later is an air passage that is connected to the air duct 14 b and the high-humidity air duct 30 to guide the conveyance air Q from the air duct 14 b to the high-humidity air duct 30. The guide air connection duct 43 is an air path that is connected to the air duct 14 b and the guide air duct 60 and guides the guide air S from the air duct 14 b to the guide air duct 60.

Next, the air duct 14b is located between the high-humidity air generation unit 13 and the water supply tank mounting unit 15 and is located at a site that is biased laterally from the left-right center of the main body 10 (right side in the present embodiment). (FIGS. 7 and 8). And the water supply path 17 connected from the lower part of the high-humidity air production | generation part 13 passes in the space of the left side of the ventilation duct 14b. The air blowing unit 14 serves as a carrier air blowing unit that sends out the carrier air Q, and a guide air air blowing unit that sends out the guide air S that guides the high humidity air R generated by the carrier air Q and the high humidity air P. Yes.
In the present embodiment, one air blowing unit serves as both the conveying air blowing unit and the guide air blowing unit. However, the air blowing unit that generates the conveying air Q and the air blowing unit that generates the guide air S are separately divided. It may be provided.

6 to 13, the water supply tank mounting portion 15 is a portion that becomes a water supply portion to which water is supplied from the water supply tank 20 when the water supply tank 20 is mounted.
The water supply tank mounting portion 15 has a concave shape that opens on the upper surface of the main body 10, and a valve opening convex portion 15 a that opens the water supply valve 20 a when the water supply tank 20 protruding upward is mounted at the center. It has been.
Further, the water supply tank mounting part 15 is provided with a water level detection part (not shown) for detecting the water level. The water level detection unit detects whether or not there is water at the position, and the detection signal is output to the control unit 12.

  Here, the water supply tank mounting unit 15 and the high-humidity air generation unit 13 are connected by a water supply passage 17 serving as a water channel for water supplied from the water supply tank 20. The water supply passage 17 extends from the upper surface 10a of the main body 10 toward the front, passes through the side of the air duct 14b as described above, extends downward from the upper surface 10a, and is connected from the lower side of the heating reservoir 13a.

In addition, a passage lid 17 a that covers the position is provided at a portion of the water supply passage 17 that extends upward. By providing the passage lid 17a in this manner, when the humidifier A falls or tilts, the outflow of water from the water supply passage 17 can be reduced.
Moreover, it becomes possible to easily clean the inside of the water supply passage 17 by configuring the passage lid 17a to be removable from the water supply passage 17.

Next, the power cord connecting portion 16 will be described with reference to FIGS.
The power cord connecting portion 16 is a position for connecting to a power cord for obtaining power from a commercial power source, and is provided at the lower rear end of the body 10. The connecting end of the power cord and the power cord connecting portion 16 are configured to be easily detachable by a magnet. Even when the power cord is pulled, the power cord is disconnected from the power cord connecting portion 16, so that the humidifier A Is configured to be difficult to tip over.

In particular, the humidifier A is heavily loaded on the rear portion of the main body 10 with respect to the installation position in a state where the water supply tank 20 holding water is provided.
Therefore, since the power cord connecting portion 16 is located near the lower end of the main body 10 near the position where the load is large, when the power cord is pulled, the humidifier A does not move greatly and the power cord The cord is disconnected from the power cord connecting portion 16.

(Water supply tank)
Next, the water supply tank 20 will be described with reference to FIGS.
The water supply tank 20 is detachably connected to the water supply tank mounting portion 15 so that it can be taken out of the humidifier A and replenished with water. A water supply valve 20 a that opens when connected to the water supply tank mounting portion 15 and closes when the water supply tank 20 is removed from the position is provided on the lower surface of the water supply tank 20.

(High humidity air duct)
Next, the high-humidity air duct 30 will be described with reference to FIGS.
The high-humidity air duct 30 mixes the high-humidity air P flowing in from the high-humidity air duct 13c and the conveying air Q flowing in from the conveying air connection duct 42 to generate the high-humidity air R, and this high-humidity air R It is a site | part used as the air path which guides to the high-humidity air outlet 41. FIG.
The high-humidity duct 30 has a shape in which cylinders are stacked vertically, and includes a lower layer portion 31 that is a lower cylindrical portion and an upper layer portion 32 that is an upper cylindrical portion.

The lower layer part 31 is opened downward (lower opening 31a), and the internal space of the lower layer part 31 and the upper layer part 32 communicates vertically with the communication opening 32a. An opening rib 321a extending downward from the opening edge is formed in the communication opening 32a.
Further, the lower layer portion 31 is formed with a lock receiving portion 31b that is recessed inward. The lock receiving portion 31 b is for fixing the high-humidity air duct 30 to the main body 10 by fitting the lock piece 18 b of the lock portion 18.

Next, the upper layer part 32 will be described.
The upper layer portion 32 communicates with the lower layer portion 31 in the vertical direction through the communication opening 32a. In addition, a front opening 32b facing forward is opened above the upper layer portion 32. The front opening 32 b is an opening for discharging the high-humidity air R from the inside of the high-humidity air duct 30 to the outside, and faces the high-humidity air outlet 41 of the front cover 40.

  Further, a rear opening 32 c facing backward is opened below the upper layer portion 32. The rear opening 32 c is an opening that is connected to the conveying air connection duct 42 and introduces the conveying air Q into the high-humidity air duct 30.

Next, a fan-shaped dew receiving portion 33 is provided below the front opening 32b. The dew receiving portion 33 is inclined toward the center of the fan shape, and a dew relief opening 33a is opened at a position that becomes the center of the fan shape. A dew holding portion 33b is formed below the dew opening 33a. The dew holding part 33 b is formed on the upper surface of the lower layer part 31.
Since the upper surface of the lower layer part 31 is warmed by the high-humidity air P generated by heating water, the temperature of the dew holding part 33b is increased accordingly, so that the dew accumulated in the dew holding part 33b is likely to evaporate.

Further, the surface of the dew receiving portion 33 is subjected to hydrophilic treatment, and is configured such that dew easily flows toward the dew release opening 33a. Further, the fan shape of the dew receiving portion 33 matches the inner surface shape of the lower portion of the high-humidity air outlet 41 of the front cover 40.
And the dew receiving part 33 comprised in this way is being fixed to the upper surface of the lower layer part 31 by screwing.

Next, with reference to FIGS. 1 to 6 and FIGS. 22 to 28, the front cover 40, the rear cover 50, and the guide air duct 60 that constitute the outer shell of the humidifier A will be described.
The front cover 40 covers the main body 10 and each part provided on the main body 10, and is a front surface that smoothly connects the upper surface portion 40a, the left surface portion 40b, the right surface portion 40c, the left surface portion 40b, and the right surface portion 40c on the front side. It consists of a connecting portion 40e that connects the left surface portion 40b and the right surface portion 40c, leaving a portion 40d and a rear opening 40f facing rearward. Note that the lower surface of the front cover 40 is open.

A high-humidity air outlet 41 is opened in the front portion 40d toward the front. Further, an upper surface opening 401a is opened in the upper surface portion 40a, and the upper surface portion 40a (front upper surface portion 402a) on the front side of the upper surface opening 401a is one step lower than the upper surface portion 40a (rear upper surface portion 403a) on the rear side. It is configured.
Further, a plurality of claw portions 44 are provided so as to protrude rearward from the rear end of the upper surface portion 40a. Further, the connecting portion 40 e is connected to the inside of the front cover 40 at a position shifted by the thickness of the rear cover 50.

Next, a conveyance wind connection duct 42 and a guide wind connection duct 43 are fixedly provided inside the front cover 40.
The conveying wind connection duct 42 has an opening serving as a conveying wind inlet 42a for introducing an air flow that becomes the conveying wind Q from the blower 14 at one end, and a conveying wind outlet 42b that blows the conveying wind Q to the high-humidity air duct 30 at the other end. An opening is formed.

  The conveyance air connection duct 42 is configured to be bent from one end to the other, so that the conveyance air inlet 42a opens downward and the conveyance air outlet 42b opens forward. Moreover, the opening edge of the conveyance wind outlet 42b is comprised in the shape which inclines and inclines ahead, and the packing 421b is provided.

The guide wind connection duct 43 has an opening serving as a guide wind inlet 43a for introducing an air flow that becomes the guide wind S from the blower 14 at one end, and a guide wind outlet 43b that blows the guide wind S into the guide wind duct 60 at the other end. An opening is formed.
The guide wind connection duct 43 is configured to be bent from one end to the other end, so that the guide wind inlet 43a opens downward and the guide wind outlet 43b opens forward.

Further, the guide air connection duct 43 has the guide air outlet 43b side protruding from the upper surface opening 401a to the outside of the front cover 40. That is, the guide air outlet 43b is located above the front upper surface portion 402a.
Further, rail receiving portions 43 c that protrude in the left-right direction and extend in the front-rear direction are formed on the side surfaces of the portion that protrudes from the upper surface opening 401 a of the guide wind connection duct 43 to the outside of the front cover 40. Furthermore, an L-shaped leg portion 43 d that protrudes downward and extends in the forward direction is provided below the upper surface opening 401 a of the guide air connection duct 43.

The transport wind connection duct 42 and the guide wind connection duct 43 configured in this way are arranged adjacent to each other at the positions of the transport wind inlet 42a and the guide wind inlet 43a. A pressing lever 45 that protrudes downward is provided between the conveying wind inlet 42a and the guide wind inlet 43a that are arranged next to each other.
The pressing lever 45 is formed in a plate shape so as not to block the openings of the conveyance air inlet 42a and the guide air inlet 43a, and has a shape in which the front side is inclined forward.

  Next, the guide air duct 60 will be described mainly with reference to FIGS. 9 to 12 and FIGS. 22 to 23. The guide air duct 60 includes a guide air duct base 61 that forms a flow path of the guide air S blown from the guide air connection duct 43, a lid 62, and a rail 63 that has a long plate shape with a flat upper surface. It is configured.

The guide air duct base 61 is provided so as to project inwardly, a guide air outlet 61a that opens forward, a lower opening 61b that opens downward in the front-rear direction, an upper opening 61c that opens upward. A screw receiving portion 61d and a guide wind adjusting means 61e for adjusting the direction of the guide wind are provided.
The lid 62 includes a lid base 62a connected to the guide air duct base 61, and a lid cover 62b that covers the upper surface of the lid base 62a and forms a design surface.

  The rail 63 has a pair of straight portions 63a and a connecting portion 63b that connects the straight portions 63a, and a screw hole 63c is formed. The pair of straight line parts 63a are opposed to each other so as to be parallel to each other and are connected by a connection part 63b, and the surface is flat. In addition, the interval between the opposing straight portions 63 a is a gap that is approximately the same as the left-right width of the guide wind connection duct 43.

And the rail 63 is attached to the guide wind connection duct 43 so that the guide wind connection duct 43 may be inserted | pinched between the linear parts 53a which face each other. In this state, the rail 63 is located on the lower side of the rail receiving portion 43 c that protrudes sideways from the left and right surfaces of the guide air connection duct 43.
By configuring in this way, the rail receiving portion 43c prevents the rail 63 from dropping upward, the left and right side surfaces of the guide wind connection duct 43 and the rail receiving portion 43c receive the rail 63, and the rail 63 It is slidably attached to the guide wind connecting duct 43 in the front-rear direction.

Next, the guide wind duct base 61 is attached to the rail 63 attached to the guide wind connecting duct 43 as described above by passing the screw 64 through the screw receiving portion 61d and screwing the screw 63 into the screw hole of the rail 63. It is attached.
Then, a lid 62 is attached to the guide air duct base 61 attached to the rail 63 so as to close the upper opening 61c.

Thus, the guide wind connection duct base 61 is the upper surface portion 40a of the front cover 40, and is disposed across the front upper surface portion 402a and the rear upper surface portion 403a, and the front wind upper surface portion of the guide wind duct 60 and the front cover 40 is disposed. A space surrounded by 402a is formed, and the air passage of the guide wind S is formed inside.
That is, in a state where the guide wind connection duct base 61 is disposed on the upper surface portion 40 a, the guide wind connection duct 43 enters the inside from the lower opening 61 b, and the guide wind duct 60 is received by the rail through the rail 63. Guided by the portion 43c, the upper portion of the upper surface portion 40a of the front cover 40 can be slid in the front-rear direction.

Here, the duct base 61 is the upper surface portion 40a of the front cover 40, and is disposed across the front upper surface portion 402a and the rear upper surface portion 403a. By attaching the lid 62, the upper opening 61c is closed and guided. A space surrounded by the guide air duct 60 serving as the flow path of the wind S and the front upper surface portion 402a of the front cover 40 is formed, and the guide air duct 60 is configured.
The guide wind connection duct 43 enters the inside of the guide wind duct 60 from the upper surface opening 401a opened between the front upper surface portion 402a and the rear upper surface portion 403a. Connect and connect.

  Accordingly, in the guide air duct 60, the cross section at the position M1 of the portion behind the upper surface opening 401a is the position M2 from the guide air outlet 43b of the guide air connection duct 43 to the guide air opening 61a of the guide air duct 60. Smaller than cross section. That is, the guide air duct 60 has different cross-sectional areas cut in the left-right direction before and after the guide air connection duct 43.

  This is because the rear upper surface portion 403a constitutes the upper surface at a position higher than the front upper surface portion 402a, and the cross sectional position M1 is secured while ensuring a wider air passage for the guide wind S at the cross sectional position M2. By reducing the cross-sectional area, the volume of the guide air duct 60 can be reduced, the space behind the guide air connection duct 43 can be secured larger, and the water supply tank 20 can be configured to be larger upward.

Next, the rear cover 50 will be described with reference to FIGS.
The rear cover 50 has the same height as the front cover 40, and the front and lower sides are open, and a recess 51 is formed on the upper surface to put a finger on when removing. And by attaching to the front cover 40, the external appearance of the humidifier A is formed integrally.

Each of the above parts is attached to the main body 10 as follows.
Referring to FIGS. 10 to 12 and 21, the high-humidity air duct 13 c is attached to the heating water reservoir 13 a by causing the lower opening 131 c to enter the heating water reservoir 13 a. At this time, the position of the humidified air duct 13c is determined by the flange 134c of the humidified air duct 13c coming into contact with the peripheral edge of the upper opening 132 of the heated water reservoir 13a. Further, the gap between the humidified air duct 13c and the heated water storage unit 13a is filled with the packing 135c.
The humidified air duct 13c is detachable from the heated water storage part 13a.

Next, referring to FIG. 6 to FIG. 20, the high-humidity air duct 30 is configured such that the lock piece 18 b of the lock portion 18 is located outside the attachment region of the high-humidity duct 30 of the main body 10. Can be attached to.
The high-humidity air duct 30 is provided at an attachment position formed on the main body upper surface 10a so that the lower layer portion 31 covers the high-humidity air duct 13c.

At this time, the ring formed by the opening rib 321a of the high-humidity air duct 30 is fitted inside the ring formed by the protruding rib 133c of the high-humidity air duct 30. Then, the upper opening 132 c of the high humidity air duct 13 c faces the communication opening 32 a of the upper layer portion 32 of the high humidity air duct 30.
That is, the high-humidity air P is configured to flow directly from the high-humidity air duct 13 c into the internal space of the upper layer portion 32 of the high-humidity air duct 30.

Further, the front opening 32b of the high-humidity air duct 30 faces the front of the humidifier A in a state where the high-humidity air duct 30 is attached to the main body upper surface 10a in this way.
Furthermore, when the high-humidity air duct 30 is correctly attached to the upper surface 10 a of the main body, the lock receiving portion 31 b provided in the high-humidity air duct 30 is positioned opposite to the lock portion 18. In this state, by rotating the lock piece 18 b of the lock portion 18, the lock piece 18 b fits into the lock receiving portion 31 b and the high-humidity air duct 30 is fixed to the main body 10.
When the lock piece 18b is fitted in the lock receiving portion 31b, the lock piece 18b is located inside the main body 10 when viewed from above.

Next, referring to FIG. 10 and FIG. 23, the front cover 40 to which the guide air duct 60, the guide air duct 43 and the transport air duct 42 are attached is attached to the main body 10 from above, and each part attached to the main body 10. Cover.
In the process of attaching the front cover 40 to the main body 10, the pressing lever 45 pushes the lid 14 d closing the opening of the air duct 14 b downward to open the air duct 14 b, and the guide air duct 43 and the transport air duct 42 are opened. However, it connects in the state connected with the ventilation duct 14b.
6, 7, and 9, the lid body 14 d of the air duct 14 b is pivotally supported via a hinge spring at the opening of the air duct 14 b, and the front cover 40 is removed from the main body 10. The pressing state of the pressing lever 45 disappears, and the opening of the air duct 14b is closed again by the force of the hinge spring.

In this way, when the front cover 40 is correctly attached to the main body 10, the high-humidity air outlet 41 and the front opening 32 b of the high-humidity air duct 30 face each other, and the legs provided at the lower part of the guide air connection duct 43. The part 43d presses the upper surface of the high-humidity air duct 30 from above.
The high-humidity air duct 30 is not correctly attached to the main body 10, and the lock piece 18 b is positioned outside the attachment region of the high-humidity duct 30 of the main body 10 without being fitted into the lock receiving portion 31 b. In some cases, at least a part of the lock piece 18b protrudes outside the main body 10.

Thereby, when it is going to attach the front cover 40 to the main body 10 in such a state, the front cover 40 cannot be attached to the main body 10 because the lower end of the front cover 40 contacts the lock piece 18b.
When the high-humidity air duct 30 is correctly attached to the main body 10 and the lock piece 18b is fitted in the lock receiving portion 31b, the lock piece 18b is located inside the main body 10. Thereby, when attaching the front cover 40 to the main body 10, the lock piece 18 b does not interfere with the front cover 40, and the front cover 40 can be attached to the main body 10.

Next, referring to FIG. 14 and FIG. 15, in the state where the front cover 40 is attached to the main body 10, the water tank 20 slides the guide air duct 60 forward, so that the guide air duct 60 opens to the rear opening 40 f. Can be attached to the main body 10 through the rear opening 40f.
The water tank 20 is pushed by the valve opening convex part 15a by inserting the water supply valve 20a into the water tank mounting part 15. Thereby, water is supplied to the main body 10 from the inside of the water tank 20.

Next, referring to FIGS. 22 to 28, the rear cover 50 is configured such that the guide wind duct 60 is slid forward in the state where the front cover 40 is attached to the main body 10, so that the guide wind duct 60 is moved to the rear opening 40 f. It is possible to attach so that the rear opening 40f of the front cover 40 may be closed by making it not to block.
The rear cover 50 is attached to the front cover 40 by hooking a recess 501 b formed on the lower surface 50 b on the claw portion 44 of the front cover 40.
When the rear cover 50 is removed from the main body 10, similarly, the guide air duct 60 does not overlap with the rear cover 50 by sliding forward from a position straddling the front cover 40 and the rear cover 50. The rear cover 50 is detachable from the front cover 40.

Further, the upper surface portion 50a of the rear cover 50 is configured to have the same height as the rear upper surface portion 403a of the front cover. That is, the rear cover 50 is configured such that when the guide air duct 60 is slid in the front-rear direction, the rear cover 50 is in a position that does not hinder the sliding operation of the guide air duct 60 and the area of the water supply tank 20 is maximized. It is attached to the cover 40.
Further, since the rear cover 50 is attached to the front cover 40, it can be detached from the main body 10 while being attached to the front cover 10.

  Here, the guide air duct 60 is attached so as to be slidable in the front-rear direction in a state in which the air path of the guide air S is formed. The positional relationship with each part for each position of the guide air duct 60 will be described. .

(1) When the guide air duct 60 is at the most retracted position (stored state)
When the guide duct 60 is located at the retracted position which is the most retracted position, when the humidifier A is viewed from above, the guide duct 60 is located on the upper surface portion 40a of the front cover 40 (front upper surface portion 402a, rear upper surface portion 403a). Located inside.
In this state, the guide wind duct 60 is positioned so as to straddle the front case 40 and the rear case 50, the rear case 50 is vertically sandwiched between the guide wind duct 60 and the claw portion 44 of the front cover 40, and the rear case 50 is the front case 40. It becomes difficult to come off.
Thus, when the guide air duct 60 is in the housed state, the front case 40 and the rear case 50 can be easily detached from the main body 10 and can be easily managed after being removed.

(2) When the guide air duct 60 is in the advanced position (operating state)
When the guide duct 60 is located at the most advanced position, the air path of the guide air S is formed by the guide air duct 60 and the front upper surface portion 402a of the front cover 40, and the guide air opening 61a is formed from the high-humidity air outlet 41. Located on the front side.
The guide wind S blown out from the guide wind opening 61a is blown out obliquely downward toward the flow of the high-humidity air R blown forward from the high-humidity air outlet 41.
The guide air duct 60 can be held at any position as long as it is between the most retracted position (stored state) and the most advanced position.

(Operation of humidifier A)
The humidifier A configured as described above operates as follows.
Referring to FIG. 29, in the routine shown in FIG. 29, when the power switch provided in the operation unit 11 is pressed in step S1, the humidifier A is turned on, and the humidification operation is started.
Next, in step S2, the heater 13b is activated (ON) by the controller 12. As a result, the water in the heating water reservoir 13a is heated by the heater 13b and generates high-humidity air P containing steam.

Since the generated high-humidity air P has a high temperature and is light, as shown in FIGS. 9 and 10, the high-humidity air duct 13c rises vertically and flows into the high-humidity air duct 30 through the upper opening 132a. To do.
As described above, the high humidity air duct 13c is disposed directly above the heating water storage section 13a, and the high humidity air duct 30 is further disposed directly above the high humidity air duct 13a. The generated high-humidity air P can be smoothly introduced into the high-humidity air duct 30.

Next, when sufficient time has passed since the heater 13b is activated and the high humidity air P is stably generated, the air blowing fan 14a is activated (ON) by the control unit 12 in step S3. .
As a result, the blower fan 14a sends the transport air Q to the transport air connection duct 42 via the air duct 14b and also sends the guide air S to the guide air connection duct 43.

The conveyance air Q flows into the inside of the high-humidity air duct 30 from the rear opening (conveyance air introduction opening) 32c, collides with the high-humidity air P, and is mixed.
Here, the rear opening 32c is opened at a position shifted to the right side from the left and right center when the high-humidity air duct 30 is viewed from the rear. Accordingly, the conveying air Q flowing in from the rear opening 32c rises while rotating spirally along the inner wall surface of the high-humidity air duct 30 having a cylindrical shape.

The high-humidity air P enters the high-humidity air duct 30 from a position that becomes the center of rotation, and mixes with the airflow of the conveying air Q that rotates in a spiral shape.
As described above, the conveyance air Q is caused to flow down spirally inside the high-humidity air duct 30, and the high-humidity air P is mixed with the airflow Q, thereby reducing the mixing unevenness.
As described above, the high-humidity air P and the conveyance air Q are mixed to become the high-humidity air R, and are blown out horizontally from the front opening (high-humidity air blowing opening 32b) to the high-humidity air outlet 41 of the front cover 40. To the user or other humidification target.

On the other hand, the guide wind S flows from the guide wind connection duct 43 into the guide wind duct 60 and circulates toward the guide wind opening 61a. At the guide wind opening 61a, the wind direction of the guide wind S is changed obliquely downward by the guide wind adjusting means 61e that adjusts the direction of the guide wind.
Here, the guide wind adjusting means 61e is formed in a fan shape. As a result, the guide air S is blown off from the guide air outlet 31 obliquely downward and spreads in a substantially fan-shaped range so as to cover the high humidity air R from above, and suppresses the high humidity air R from above. As a result, an increase in the high humidity air R can be suppressed.

Next, in step S4, first, detection of the human body, detection of the distance to the human body, and detection of the humidity in the room are executed by the sensor system. Then, for example, the operation state of the humidifier is adjusted based on the detection result by the sensor system and the setting of the operation condition by the user.
For example, the control unit 40 stores in advance characteristic data indicating the relationship between the humidity at the humidifier position, the distance to the user, and the humidity at the user position, for example. . The control unit 12 estimates the humidity at the user's position from the characteristic data based on the humidity and distance actually detected by the sensor system.

And based on the estimated humidity, the operation state of a humidifier is adjusted by carrying out intermittent operation of the heater 13b, the ventilation fan 14a, etc., for example.
For example, the control unit 12 is configured to turn on the heater 13b when the estimated humidity falls below an appropriate humidity range, and to turn off the heater 13b when the estimated humidity exceeds the humidity range. It is good.

Next, in step S5, it is determined whether or not to turn off the power to the humidifier based on various preset conditions.
As a specific example, when at least one of the following conditions (1) to (5) is satisfied, the process proceeds to step S6, and the power supply of the humidifier is turned off. On the other hand, if all of the conditions (1) to (5) are not satisfied, the processes in steps S4 and S5 are repeated.

(1) Was the power switch turned off by the user?
(2) Has the time set for the timer elapsed?
(3) Has the water tank 20 run out of water?
(4) Did the temperature in the high-humidity air duct 30 rise beyond the allowable range?
(5) Has the human body contacted the high-humidity air outlet 41 or the like?

By configuring the humidifier A as described above, the following effects can be obtained.
First, the guide air outlet 61a of the humidifier A is positioned in front of the high-humidity air outlet 41, and the guide air outlet 61a is directed toward the flow of the high-humidity air R blown from the high-humidity air outlet 41 by the guide air S. Since it is configured to blow out, the high-humidity air R can be caused to flow farther on the flow of the guide air S.

  Further, the guide air duct 60 of the humidifier A is movable in the front-rear direction. By moving the guide air duct 60 forward, the guide air outlet 61a is positioned in front of the high-humidity air outlet 41. Therefore, the high-humidity air R can be caused to flow further by moving the guide air duct 60 forward during use, and the guide air duct 60 can be accommodated when not in use.

Further, since the guide air outlet 61a of the humidifier A opens obliquely downward and is positioned above the high humidity air outlet 41, the guide air S is obliquely downward from the upper side of the high humidity air R. The rising of the high-humidity air R can be suppressed from the upper side by the blowing wind S.
Thereby, the rise of the high humidity wind R can be suppressed using the guide wind S, and desired directivity can be given to the high humidity wind R.
Therefore, the humidifier A can efficiently convey the high-humidity air R toward the humidification target located in the front horizontal direction and obliquely downward as viewed from the humidifier A, and stabilizes the vicinity of the user who is the humidification target. Can be humidified.

Moreover, since the high-humidity air production | generation part 13 of the humidifier A is a heating steam type which heats water and obtains water vapor | steam, it can produce | generate the high-humidity air R warmly. As a result, the transported high-humidity air R gradually rises toward the user after reaching the user's lower side.
As a result, the user's surroundings can be humidified using the high-humidity air R with a gentle flow, and the sensation of being blown by the wind when the high-humidity air R directly hits the user or the low-humidity air is blown. Since it is not removed, discomfort caused by cold can be reduced.
Furthermore, the high-humidity air P and the conveyance wind Q can be easily mixed using the rising force of the warm high-humidity air P.

Further, since the guide wind adjusting means 61e is provided at the upper opening of the guide wind outlet 61a, the wind direction of the guide wind S can be adjusted, and the high-humidity air R can be easily adjusted to the humidification target.
Further, since the front end shape of the guide wind adjusting means 61e is a fan shape, the guide wind S is blown obliquely downward from the guide wind outlet 31 and covers the high-humidity air R from the upper side. And the high-humidity air R can be suppressed from the upper side. As a result, an increase in the high humidity air R can be suppressed.

Further, when the rear cover 50 is removed from the main body 10, the guide wind duct 60 is slid forward and moved from a position straddling the front cover 40 and the rear cover 50, so that the rear cover 50 does not overlap the upper and lower sides. The rear cover 50 is detachable from the front cover 40.
By configuring in this way, the guide air duct 60 is positioned so as to straddle the front cover 40 and the rear cover 50, so that the rear cover 50 cannot be removed from the front cover 40, so that it can be easily managed during storage or carrying. Furthermore, the rear cover 50 can be removed from the main body 10 from the front cover 40 as an integral cover.

  Further, in the guide wind duct 60, the cross section at the position behind the guide wind connecting duct 43 is configured to be smaller than the cross section at the position ahead of the guide wind connecting duct 43. By comprising in this way, the space behind the guide wind connection duct 43 can be ensured more, and the feed water tank 20 can be comprised larger upwards.

In addition, since the guide air connection duct 43 is provided with the rail receiving portion 43c that serves as a guide for moving the guide air duct 60, the number of parts can be reduced, and light weight and downsizing can be realized.
Further, since the guide wind connection duct 43 and the transport wind connection duct 42 are provided on the front cover 40 on the cover side, when the cover 40 is removed from the main body 10, the guide wind connection duct 43 and the transport wind connection duct are together. 42 can be removed and the maintainability of the main body 10 can be improved.
In addition, since the conveying air blowing unit and the guide air blowing unit are the common air blowing unit 14, the number of components can be reduced, and light weight and downsizing can be realized.

The main body 10 is provided with a lock portion 18 for fixing the high-humidity air duct 30 to the main body 10, and the high-humidity air duct 30 is provided with a lock receiving portion 31 b into which the lock portion 18 is fitted. The high-humidity air duct 30 is fixed to the main body 10 by being fitted to the lock receiving portion 31b, and the front cover 40 can be attached to the main body 10, and the high-humidity air is removed by removing the lock portion 18 from the lock receiving portion 18b. The duct 30 can be removed from the main body 10 and the front cover 40 cannot be attached to the main body 10.
Accordingly, when the front cover 40 and the high-humidity air duct 30 are removed from the main body 10 and reassembled to the main body 10, the front cover 40 is attached to the main body 10 in a state where the high-humidity air duct 30 is forgotten to be attached. Can be prevented.

In particular, the lock portion 18 is configured by rotatably providing a lock piece 18b on a shaft 18a formed on the main body 10, and the lock piece 18b is positioned inside the main body 10 when fitted into the lock receiving portion 31b. In the state where it is detached from the lock receiving portion 18b, it is configured to protrude to the outside of the main body 10.
Thereby, the high-humidity air duct 30 can be fixed to the main body 10 with a simple structure, and a structure for preventing the high-humidity air duct 30 from being forgotten to be mounted can be realized.

Advantages of 2014SV002 / Claim 3 Further, the cover is configured to be attached from the axial direction of the shaft that supports the lock portion, so that when the lock portion comes into contact with the cover and is pressed, the rotation direction of the lock portion and the press Since the directions are different, the cover can be prevented from being pushed and moved.

Embodiment 2. FIG.
Next, Embodiment 2 will be described with reference to FIG. In addition, the same code | symbol is attached | subjected about the same structure as Embodiment 1, and description is abbreviate | omitted.

The high-humidity air duct 30 is fixed to the main body 10 when the high-humidity air duct 30 is attached to the main body 10 at a position on the upper surface 10a of the main body and surrounded by the high-humidity air generating unit 13 and the air blowing unit 14. A lock portion 18 is provided.
The lock portion 18 includes a shaft 18a protruding upward from the main body upper surface 10a, a lock piece 18b pivotally supported by the shaft 18a, and a hinge spring interposed between the shaft 18a and the lock piece 18b. 18c. As for the lock piece 18b, the planar shape has comprised the fan shape, and the axis | shaft 18a is arrange | positioned in the position used as the center of a fan shape.
Further, the hinge spring 18c is fixed or restricted in movement at one end to the shaft 18a and the other end to the lock piece 18b.

(High humidity air duct 30 is fixed by the lock portion 18)
Referring to FIG. 30A, the lock piece 18b is positioned inside the main body 10 when the main body 10 is viewed from above in a state where the high-humidity air duct 30 disposed above the high-humidity air generating unit 13 is fixed. ing. In this state, the hinge spring 18c is sandwiched between the lock piece 18b and the shaft 18a so that the spring contracts.
When the lock piece 18b is fitted into the lock receiving portion 31b, the hinge spring 18c in a contracted state is prevented from being opened.
In this state, the front cover 40 can be attached to the main body 10 without interference with the lock piece 18b.

(High humidity air duct 30 is not fixed by the lock portion 18)
Referring to FIG. 30 (b), in a state where the high-humidity air duct 30 is released, the lock spring 18c is opened by the restoring force of the spring and is pushed by the hinge spring 18c when the lock piece 18b is detached from the lock receiving portion 31b. At least a part of the locking piece 18b protrudes outside the main body 10.
In this state, the front cover 40 is interfered with the lock piece 18b with respect to the main body 10, and cannot be attached.

  As described above, in the state where the high-humidity air duct 30 is released, the lock piece 18b can be reliably protruded to the outside of the main body 10 by the action of the hinge spring 18c. It is possible to prevent the front cover 40 from being attached to the main body 10 in a state where the user has forgotten to put on.

Embodiment 3 FIG.
Next, Embodiment 3 will be described with reference to FIGS. In addition, the same code | symbol is attached | subjected about the same structure as Embodiment 1, and description is abbreviate | omitted.
The main body 10 is provided with detection means 10g for detecting the front cover 40. The detection means 10g faces the detected portion 40g provided on the front cover 40 when the front cover 40 is correctly attached to the main body 10. For example, a magnet or the like is used for the detected portion 40g, and the detection means 10g detects a magnetic force generated from the magnet.

When the detection unit 10g does not detect the front cover 40, the control unit 12 controls each unit so as not to start the humidification operation.
Thus, by providing the lock part 18 and the detection means 10g, it is possible to prevent forgetting to attach each part to the main body 10 more.

A humidifier, 10 main body, 10a main body top surface, 11 operation display section, 11a operation means, 11b display means, 12 control section, 13 high humidity air generation section, 13a heating water storage section, 131a top surface opening, 13b heater, 13c high Humid air duct, 131c lower opening, 132c upper opening, 133c protruding rib, 134c flange, 135c packing, 14 blower, 14a blower fan, 14b blower duct, 14c blower duct opening, 14d lid, 141b inlet, 142b blower 15 Water supply tank mounting part, 15a Valve opening convex part, 16 Power cord connection part, 17 Water supply passage, 17a Passage cover, 18 Lock part, 18a Shaft, 18b Lock piece, 20 Water supply tank, 20a Water supply valve, 30 High humidity air Duct, 31 Lower layer, 31a Lower opening, 31b Lock receiving part, 2 upper layer part, 32a communication opening, 321a opening rib, 32b front opening (high-humidity air blowing opening), 32c rear opening (conveyance air introduction opening), 33 dew receiving part, 33a dew opening, 33b dew holding part, 40 front Cover, 40a upper surface portion, 402a front upper surface portion, 403a rear upper surface portion, 401a upper surface opening, 40b left surface portion, 40c right surface portion, 40d front surface portion, 40e connection portion, 40f rear opening, 41 high-humidity air outlet, 42 conveying air Connecting duct, 42a Carrying air inlet, 42b Carrying air outlet, 421b Packing, 43 Guide air connecting duct, 43a Guide air inlet, 43b Guide air outlet, 43c Rail receiving part (guide for forward and backward movement), 43d Leg part, 44 Claw part , 45 pressure lever, 50 rear cover, 50a upper surface, 50b lower surface, 60 guide air duct, 61 guide air duct base , 61a guide air outlet, 61b under the opening, 61c on the opening, 61d screw receiving portion, 61e guiding air adjustment means, 62 a lid, 63 rail, 64 Screw

Claims (6)

A main body and a cover that is detachable from the main body;
The main body includes a water supply tank, a high-humidity air generation unit that generates high-humidity air from the water supplied from the water supply tank, and a conveyance air that mixes the high-humidity air and generates a high-humidity air. A high-humidity air duct that mixes the high-humidity air and the conveying air to generate high-humidity air;
The main body is provided with a lock portion for fixing the high-humidity air duct to the main body,
The high-humidity air duct is provided with a lock receiving portion into which the lock portion is fitted,
By fitting the lock portion to the lock receiving portion, the high-humidity air duct is fixed to the main body, and the cover can be attached to the main body.
By removing the lock part from the lock receiving part, the humid air duct can be removed from the main body, and the cover cannot be attached to the main body.   The main body is provided with a shaft, the lock portion is pivotally supported by the shaft, and is located inside the main body in a state where the lock portion is fitted in the lock receiving portion. The humidifier according to claim 1, wherein the humidifier protrudes outside the main body in a detached state.   The humidifier according to claim 2, wherein the cover is attached to the main body from an axial direction of the shaft.   3. A spring is interposed between the shaft and the lock member, and the spring is biased so as to protrude outward from the main body when the spring is detached from the lock receiving portion. Item 4. The humidifier according to item 3.   The humidifier according to any one of claims 1 to 4, wherein the main body is provided with detection means for detecting the cover.   A high-humidity air duct that guides the high-humidity air generated by the high-humidity air generation unit to the high-humidity duct is provided between the high-humidity air generation unit and the high-humidity air duct. The humidifier according to claim 1.

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