JP6847639B2 - Humidifier - Google Patents

Description

The present invention relates to a humidifier in which water is supplied from a plurality of water storage tanks.

Conventionally, a humidifier has been widely used to humidify indoor air by vaporizing water. For example, Patent Document 1 has a main body having a humidifying device inside, and a plurality of water supply tanks that are detachably mounted on the main body and supply water at a constant water level to the water tank, and the plurality of water supply tanks are mounted. A humidifier is disclosed in which a step is provided on each of the support surfaces to be placed, and a water level display window is provided at a position located on the side surface of the main body and facing the water supply tank mounted on the support surface at the bottom. ing.

Japanese Unexamined Patent Publication No. 2-110232 (published on April 23, 1990)

However, in the humidifier disclosed in Patent Document 1, since the timing of water supply is when all of the plurality of water supply tanks run out of water, it is necessary to supply water to the plurality of water supply tanks at once. That is, all the empty water supply tanks are taken out and water is replenished to each water supply tank, which increases the burden on the user. Especially for weak children and women, replenishing multiple water tanks is a huge burden.

One aspect of the present invention is to realize a humidifier capable of reducing the burden of replenishment work of a water supply tank for a user.

In order to solve the above problem, the humidifier according to one aspect of the present invention includes a water storage tray and a plurality of water supply tanks for supplying water to the water storage tray, and utilizes the water stored in the water storage tray. It is a humidifier for humidifying, and has a water supply tank selection unit that selects a water supply tank that first supplies water to the water storage tray from the plurality of water supply tanks, and the plurality of water supply tanks are two water supply tanks. The water supply tank selection section includes a first mounting section on which one of the two water supply tanks is mounted, a second mounting section on which the other water supply tank of the two water supply tanks is mounted, and the first mounting section. The water supply tank having one mounting portion and an elastic member that supports each of the second mounting portion by an elastic force, and the water supply tank selected by the water supply tank selection unit has the amount of water in the water supply tank. It is characterized in that water is supplied to the above-mentioned water storage tray until the amount of water required to be replenished to the water supply tank is reached.

According to one aspect of the present invention, there is an effect that the burden of replenishment work of the water supply tank can be reduced for the user.

It is a schematic perspective view of the humidifier which concerns on Embodiment 1 of this invention. (A) is a top view of the humidifier shown in FIG. 1, and (b) is a top view showing a state in which the water supply tank is exposed in (a). (A) is a front view of the humidifier shown in FIG. 1, and (b) is a front view showing a state in which the water supply tank is exposed in (a). It is a schematic block diagram of the water supply tank selection part provided in the humidifier shown in FIG. (A) is a side view of the water supply tank selection unit shown in FIG. 4, and (b) is a plan view of the water supply tank selection unit (a). (A) shows the relationship between the water storage tray provided in the humidifier shown in FIG. 1 and the water supply tank, and (b) is a cross-sectional view taken along the line AA of (a). It is a schematic block diagram of the water supply control part provided in the humidifier shown in FIG. A humidifier according to a second embodiment of the present invention is shown, (a) is a front view showing a state in which a water supply tank in a housing is exposed, and (b) is a view showing an outline of a water supply tank selection unit. is there. It is a figure which shows the schematic structure of the member which comprises the water supply tank selection part shown in FIG. 8 (b). It is a figure which shows the state which exposed the water supply tank in the humidifier which concerns on Embodiment 3 of this invention. It is a perspective view seen from the bottom surface side of the water storage tray provided in the humidifier shown in FIG. It is a figure which shows an example of the solenoid valve of the water supply tank selection part provided in the humidifier shown in FIG. It is a figure which shows the flow path fully closed state by the solenoid valve shown in FIG. It is a figure which shows the flow path one side open state by the solenoid valve shown in FIG. It is a figure which shows the flow path one side open state by the solenoid valve shown in FIG. It is a figure which shows the flow path fully open state by the solenoid valve shown in FIG. (A) is a diagram in which magnets are provided in each of the water supply tanks, and (b) and (c) are diagrams showing the formation positions of reed switches that are turned on and off by magnets. It is a figure which shows the modification of Embodiment 3 of this invention.

[Embodiment 1]
Hereinafter, embodiments of the present invention will be described as follows. Although the humidifier to which the present invention is applied will be described as a vaporization type humidifier, it may be a humidifier of another type (atomization type (ultrasonic type), heating type, etc.).

(Outline explanation of humidifier)
FIG. 1 is a perspective view showing the appearance of the humidifier 1 of the present embodiment. FIG. 2A is a top view of the humidifier 1, and FIG. 2B is a top view showing a state in which the water supply tank is exposed in FIG. 2A. FIG. 3A is a front view of the humidifier 1, and FIG. 3B is a front view showing a state in which the water supply tank is exposed in FIG. 3A.

The humidifier 1 includes a substantially rectangular parallelepiped housing (exterior portion) 101. An intake port 102 is formed on the side surface 101a of the housing 101, and an air supply port 103 is formed on the top surface 101b of the housing 101. The intake port 102 is configured by arranging a large number of intake holes side by side on the side surface 101a of the housing 101. A pre-filter (not shown) that removes dust and the like from the intake air is attached to the inside of the intake port 102.

An operation unit (not shown) for operating the humidifier 1 is provided around the air supply port 103 on the top surface 101b of the housing 101. The position of the operation unit is not limited to the periphery of the air supply port 103, and may be provided at another position such as above the intake port 102 in the housing 101.

Inside the humidifier 1, an air passage (not shown) connecting the intake port 102 and the air supply port 103 is formed, and the air blower fan 109 (FIG. 17), the water supply tank 110A, the water supply tank 110B, and the water storage are stored. A tray 106 (FIG. 1), a humidifying filter 107 (humidifying portion) (FIG. 6), and the like are arranged.

The blower fan 109 is introduced into the air passage from the intake port 102, passes through the air passage, passes through the air supply port 103, and forms an air flow to the outside of the air passage. The blower fan 109 is arranged above the opening position of the intake port 102 in the blower path. When the blower fan 109 is driven, air is introduced into the air passage through the intake port 102 provided on the lower peripheral surface of the housing 101, and the introduced air changes its direction upward and flows to the top of the housing 101. It is sent out from the air supply port 103 provided on the surface 101b. As a result, the humidified air is discharged into the room.

A lid 104 is detachably provided on the top surface 101b of the housing 101 in order to open the surface on which the two water supply tanks 110A and 110B are mounted.

On the front surface 101c of the housing 101, a confirmation window 105 for confirming the remaining amount of the water supply tank 110A and the water supply tank 110B mounted inside is formed at positions corresponding to the water supply tank 110A and the water supply tank 110B, respectively. ing.

Further, below the front surface 101c of the housing 101, a water storage tray 106 for supplying water from the water supply tank 110A and the water supply tank 110B is formed. The water storage tray 106 can be pulled out from the housing 101 when the humidifier 1 is maintained.

Therefore, the humidifier 1 having the above configuration is humidified by using the water storage tray 106 that is supplied with water from the two water supply tanks 110A and 110B and stores the water for humidification and the water stored in the water storage tray 106. It is provided with a humidifying filter 107. The water supply mechanism of the water supply tank 110A and the water supply tank 110B to the water storage tray 106 will be described below.

(Water supply mechanism by water supply tank)
The water supply tank 110A and the water supply tank 110B have the same amount, and water is supplied to the water storage tray 106 from the bottom (the side of the installation surface to the installation portion described later).

4A and 4B show a schematic configuration of the water supply tank selection unit 120, FIG. 5A shows a side view of the water supply tank selection unit 120, and FIG. 5B shows a plan view of the water supply tank selection unit 120.

In the housing 101, as shown in FIG. 3B, as a water supply mechanism by the water supply tank 110A and the water supply tank 110B, one of the two water supply tanks 110A and 110B is first installed in the water storage tray 106. It has a water supply tank selection unit 120 that is selected as a water supply tank for water supply. Then, the water supply tank selected by the water supply tank selection unit 120 supplies water to the water storage tray until the amount of water in the water supply tank reaches the amount of water that needs to be replenished to the water supply tank. It has become.

As shown in FIG. 4, the water supply tank selection unit 120 has a first mounting unit 121A on which the water supply tank 110A (one water supply tank) is mounted and a second mounting portion 121A on which the water supply tank 110B (the other water supply tank) is mounted. The connecting member 122 that connects the mounting portion 121B, the first mounting portion 121A, and the second mounting portion 121B to the first mounting portion and the second mounting portion, and the connecting member 122 can be swung freely. It has a support portion 123 which supports the support portion 123.

The first mounting portion 121A and the second mounting portion 121B have a circular shape, respectively, and when the bottoms of the water supply tank 110A and the water supply tank 110B are mounted, the water supply tank 110A and the water supply tank 110B are respectively placed. The structure is such that water can be supplied to the water storage tray 106 from the bottom.

The connecting member 122 is formed with substantially C-shaped support portions 122a and 122b which are rotatably supported on both side surfaces of the first mounting portion 121A and the second mounting portion 121B at both ends. That is, as shown in FIG. 5A, the first mounting portions 121A and the second mounting portions 121B supported by the supporting portions 122a and 122b of the connecting member 122 are surfaces on which the water supply tanks 110A and 110B are mounted. Is supported so that they are always parallel.

(Operation of water supply tank selection unit 120)
In the water supply tank selection unit 120, the first mounting unit 121A on which the water supply tank 110A, which is one water supply tank, is mounted, and the second mounting portion 121B on which the water supply tank 110B, which is the other water supply tank, is mounted are connected. The two water supply tanks 110A and 110B are supported by the seesaw structure by swingably supporting the connecting member 122 to be formed by the support portion 123. That is, since the two water supply tanks 110A and 110B have the same amount, if one water supply tank (for example, 110B) is heavier than the other water supply tank (for example, 110A), the water supply mounted on the first mounting portion 121A The first mounting portion 121A and the second mounting portion 121B move so that the position of the tank 110A is higher than the position of the water supply tank 110B mounted on the second mounting portion 121B. Water supply valves (not shown) are provided in the water supply tanks 110A and 110B, respectively, and the water supply valves are always open in the mounted state. The lower end (water supply port) of the water supply cap (not shown) provided in the water supply tank 110A located above the water supply tank 110B is located higher than the water level in the water storage tray 106, so that the water in the water supply tank 110A and the water supply tank Replacement with air outside 110A occurs. As a result, water is supplied from the water supply tank 110A to the water storage tray 106. On the other hand, in the water supply tank 110B located below the water supply tank 110A, the lower end of the water supply cap (not shown) provided in the water supply tank 110B is located in the water of the water storage tray. Therefore, the water in the water supply tank 110B is not replaced with the air outside the water supply tank 110B, and the water is not supplied from the water supply tank 110B to the water storage tray 106.

As a result, the water supply tank 110B mounted on the second mounting portion 121B is depleted of water, and then the water supply tank 110A mounted on the first mounting portion 121A is depleted of water. Then, when the water supply tank 110B that has run out of water is taken out from the humidifier and the water supply tank 110B that has been replenished with water is placed on the second mounting portion 121B, the water supply tank that has already been placed on the first mounting portion 121A is placed. Since some water is supplied to the water storage tray from 110A, the water supply tank 110A mounted on the first mounting section 121A is lighter than the water supply tank 110B mounted on the second mounting section 121B. ing. Therefore, when the water supply tank 110B is mounted on the second mounting portion 121B, the water supply mounted on the second mounting portion 121B is located rather than the position of the water supply tank 110A mounted on the first mounting portion 121A. Since the position of the tank 110B is lowered, water is supplied to the water storage tray 106 from the water supply tank 110A mounted on the first mounting portion 121A which is higher than the second mounting portion 121B.

Therefore, in the humidifier 1 having the above configuration, water is always supplied to the water storage tray 106 from the water supply tank placed earlier, and water is exhausted from the water supply tank placed earlier. Here, the fact that the water supply tank is completely depleted not only means that the water supply tank is completely depleted of water, but also that the amount of water in the water supply tank requires replenishment of water to the water supply tank. Including the state where the amount of water is less than or equal to the amount of water.

(Humidification operation)
FIG. 6A shows the relationship between the water storage tray 106 and the water supply tanks 110A and 110B, and FIG. 6B shows the cross section taken along the line AA of FIG. 6A.

In the vaporization type humidifier 1, the supply of water to the humidifying filter 107 starts when the humidifier 1 is in operation. That is, the supply of water from the water supply tank 110A or the water supply tank 110B to the water storage tray 106 is started, and the water stored in the water storage tray 106 starts to permeate the humidifying filter 107.

Since the humidifying filter 107 is arranged in the air passage in which the air blown by the blower fan 109 is blown, the airflow toward the air supply port 103 through the air passage passes hits the humidifying filter 107, and the air supply port 103 is pressed. After that, it is discharged to the outside of the air passage. As a result, the humidified air is discharged into the room.

(Water supply control)
FIG. 7 shows a control block of the water supply control unit 140 that controls the water supply in the humidifier 1. In the water supply control unit 140, the water level sensor 141 is connected to the input side, and the notification unit 142 and the fan drive motor 143 are connected to the output side. The water supply control unit 140 is further connected to the reed switches 162A and 162B and the weight sensors 112A and 112B on the input side, and the solenoid valve 152 is connected to the output side. These will be described in the third embodiment described later.

The water supply control unit 140 includes a notification control unit 144, a water level detection control unit 145, a fan control unit 146, and a solenoid valve control unit 201. The solenoid valve control unit 201 will be described in the third embodiment described later.

The notification control unit 144 performs notification control of the notification unit 142 according to the water level detected by the water level sensor 141 by the water level detection control unit 145. Specifically, when the water level detected by the water level sensor 141 is a water level indicating that the remaining amount of one water supply tank has run out, the notification unit 142 notifies the user that the water in the water supply tank has run out. As a means of notifying that the water in the water supply tank is exhausted, it may be notified by voice that "the water in the water supply tank is exhausted", it may be notified by a sound such as a beep, or the operation panel. It may be displayed in.

Further, in the case of the vaporization type humidifier 1, the blower fan 109 blows air while the humidifier 1 is driving, but as described above, when the water in one of the water supply tanks runs out. , The humidification operation time in the humidifier 1 may be lengthened by lowering the air volume. The fan control unit 146 controls the drive of the fan drive motor 143 according to the water level detected by the water level sensor 141 by the water level detection control unit 145. Specifically, when the water level detected by the water level sensor 141 is the water level indicating that the remaining amount of one water supply tank is exhausted, the drive of the fan drive motor 143 is controlled so as to reduce the air volume by the blower fan 109. ..

In this way, when the water in one of the water supply tanks runs out, the humidification operation time can be lengthened by reducing the air volume of the blower fan 109. For example, it is possible to prevent the humidification operation from stopping during bedtime when the replenishment work cannot be performed immediately even if the water in one of the water supply tanks runs out.

Here, it is assumed that the water supply tanks 110A and 110B have the same amount and are replenished with the same amount of water. Then, by making the structure for receiving the water supply tanks 110A and 110B into a seesaw structure as in the above configuration, for example, when the water supply tank 110A is inserted first, the water level from the water supply tank 110A to the specified water level for the water storage tray 106 is reached. Water is supplied. Next, when the water supply tank 110B is inserted, since the specified amount of water has already been discharged from the water supply tank 110A, the water supply tank 110B is naturally heavier than the water supply tank 110A. Therefore, the position of the water supply tank 110A inserted first is higher than the position of the water supply tank 110B. As described above, since the position of the water supply tank 110A is higher than the position of the water supply tank 110B, water runs out from the water supply tank 110A. The water level sensor 141 detects the water level in the water storage tray 106 when the water in the water supply tank 110A runs out, and at the same time, the notification unit 142 notifies the user that the water in the water supply tank 110A has run out. Then, when water is replenished to the water supply tank 110A that has run out of water and the water supply tank 110A is set again, this time, the water supply tank 110A is heavier than the water supply tank 110B, so that the position of the water supply tank 110B is the water supply tank. It goes up above the 110A position. As described above, since the position of the water supply tank 110B is higher than the position of the water supply tank 110A, the water supply tank 110B runs out of water. The water level sensor 141 detects the water level in the water storage tray 106 when the water in the water supply tank 110B runs out, and at the same time, the notification unit 142 notifies the user that the water in the water supply tank 110B has run out.

Therefore, by notifying the user that there is no water in one of the water supply tanks by the notification unit 142 or the like, it is sufficient to perform the replenishment work of replenishing water to only one of the water supply tanks, and the user can replenish the water supply tank. The work load can be reduced. Moreover, since the water is exhausted from the water supply tank placed earlier, the water in the tank can be kept clean.

In the present embodiment, the water supply tank is selected by the seesaw structure, but in the following embodiment, an example in which the water supply tank is selected by the spring structure will be described.

[Embodiment 2]
Other embodiments of the present invention will be described below. For convenience of explanation, the same reference numerals will be added to the members having the same functions as the members described in the above-described embodiment, and the description thereof will be omitted.

(Overview of water tank selection section)
FIG. 8A is a front view showing a state in which the water supply tanks 110A and 110B in the housing 101 are exposed, and FIG. 8B is an outline of the water supply tank selection unit 130 according to the present embodiment. It is a figure which shows.

As shown in FIG. 8B, the water supply tank selection unit 130 mounts the first mounting unit 131A on which the water supply tank 110A (one water supply tank) is mounted and the water supply tank 110B (the other water supply tank). The placed second mounting portion 131B, and the first spring 132A and the second spring 132B (elastic member) that support the first mounting portion 131A and the second mounting portion 131B with the same elastic force, respectively. Have.

As shown in FIG. 9B, the first mounting portion 131A and the second mounting portion 131B have a circular shape, respectively, like the first mounting portion 121A and the second mounting portion 121B of the first embodiment. Therefore, when the bottoms of the water supply tank 110A and the water supply tank 110B are placed, water can be supplied to the water storage tray 106 from the bottoms of the water supply tank 110A and the water supply tank 110B.

As shown in FIG. 9A, the first spring 132A and the second spring 132B are formed on the lower surfaces of the first mounting portion 131A and the second mounting portion 131B, respectively, and resist the urging force from above. It has become like. Further, since the elastic forces of the first spring 132A and the second spring 132B are the same, if the water supply tanks 110A and 110B have the same weight, the first mounting portion 131A and the second mounting portion 131B are balanced.

Normally, the water supply tanks 110A and 110B are not loaded into the humidifier 1 at the same time, but are loaded into the humidifier 1 from either one of the water supply tanks. Therefore, if the water supply tank is filled with the same amount of water, water is supplied to the water storage tray 106 from the water supply tank loaded in the humidifier 1 first, so that the water supply tank loaded in the humidifier 1 is loaded first. It is heavier than the water tank. At this time, due to the above-mentioned springs (first spring 132A, second spring 132B), the position of the water supply tank loaded in the humidifier 1 first becomes higher than the position of the water supply tank loaded in the humidifier 1 next. .. Therefore, since the water supply tank loaded in the humidifier 1 first supplies water to the water storage tray 106, the water in the water supply tank runs out first. The spring structure described above also has the same effect as that of the seesaw structure of the first embodiment. The water supply control of the spring structure will be described below.

(Water supply control)
Here, it is assumed that the water supply tanks 110A and 110B have the same amount and are replenished with the same amount of water. Then, by making the structure for receiving the water supply tanks 110A and 110B into a spring structure as in the above configuration, for example, when the water supply tank 110A is inserted first, the water level from the water supply tank 110A to the specified water level for the water storage tray 106 is reached. Water is supplied. Next, when the water supply tank 110B is inserted, since the specified amount of water has already been discharged from the water supply tank 110A, the water supply tank 110B is naturally heavier than the water supply tank 110A. Therefore, the position of the water supply tank 110A inserted first is higher than the position of the water supply tank 110B. As described above, since the position of the water supply tank 110A is higher than the position of the water supply tank 110B, water runs out from the water supply tank 110A. The water level sensor 141 detects the water level in the water storage tray 106 when the water in the water supply tank 110A runs out, and at the same time, the notification unit 142 notifies the user that the water in the water supply tank 110A has run out. Then, when water is replenished to the water supply tank 110A that has run out of water and the water supply tank 110A is set again, this time, the water supply tank 110A is heavier than the water supply tank 110B, so that the position of the water supply tank 110B is the water supply tank. It goes up above the 110A position. As described above, since the position of the water supply tank 110B is higher than the position of the water supply tank 110A, the water supply tank 110B runs out of water. The water level sensor 141 detects the water level in the water storage tray 106 when the water in the water supply tank 110B runs out, and at the same time, the notification unit 142 notifies the user that the water in the water supply tank 110B has run out.

Therefore, by notifying the user that there is no water in one of the water supply tanks by the notification unit 142 or the like, it is sufficient to perform the replenishment work of replenishing water to only one of the water supply tanks, and the user can replenish the water supply tank. The work load can be reduced. Moreover, since the water is exhausted from the water supply tank placed earlier, the water in the tank can be kept clean.

In the first and second embodiments, it has been described that water is removed from the water supply tank at a position higher than the other by changing the positions of the water supply tanks 110A and 110B. In the following embodiments 3 and 4, an example will be described in which the water supply tanks to be used are selected and the water is removed from the selected water supply tanks without changing the positions of the water supply tanks 110A and 110B.

[Embodiment 3]
Other embodiments of the present invention will be described below. For convenience of explanation, the same reference numerals will be added to the members having the same functions as the members described in the above-described embodiment, and the description thereof will be omitted.

(Water supply tank selection section)
FIG. 10 is a diagram showing a state in which the water supply tank is exposed in the humidifier 1 provided with the water supply tank selection unit of the present embodiment.

(Overview of water tank selection section)
FIG. 10 is a front view showing a state in which the water supply tanks 110A and 110B of the housing 101 and the water supply tank selection unit 150 are exposed.

FIG. 11 is a diagram showing the bottom surface of the housing 101, and FIG. 12 is a diagram showing an example of the solenoid valve 152 constituting the water supply tank selection unit 150.

As shown in FIG. 10, the water supply tank selection unit 150 is provided between the two water supply tanks (water supply tanks 110A and 110B) and the water storage tray 106, and supplies water from the water supply tanks 110A and 110B to the water storage tray 106. The solenoid valves 152 that open and close the water supply pipes 151A and 151B for the purpose, the magnets 161A and 161B (FIG. 17) provided in the two water supply tanks 110A and 110B, respectively, and the magnetic fields of the magnets 161A and 161B turn on and off. The reed switches 162A and 162B (FIG. 17) and the solenoid valve control unit 201 (FIG. 7) that controls the opening and closing of the solenoid valve 152 according to the on / off of the reed switches 162A and 162B are provided.

As shown in FIG. 11, the water supply pipes 151A and 151B are provided on the bottom 106a of the water storage tray 106. Valve bodies 153A and 153B (FIGS. 13 to 16) connected to the solenoid valve 152 are inserted into the water supply pipes 151A and 151B, and the movement of the valve bodies 153A and 153B causes the water tanks 110A and 110B to move from the water storage trays 110A and 110B. The water supply to the 106 is controlled. Details of water supply control using the solenoid valve 152 will be described later.

As shown in FIG. 12, the solenoid valve 152 is composed of a solenoid portion 152a and two plungers 152A and 153B separately movably provided by the solenoid portion 152a. Valve bodies 153A and 153B are connected to the tips of the plungers 152A and 152B, respectively.

(Water supply control)
13 to 16 are views showing the movement of the solenoid valve 152 during water supply control to the water storage tray 106, in which (a) is a side view and (b) is the bottom surface of the water storage tray 106. It is a figure seen from the part side.

When the flow path is fully closed, as shown in FIGS. 13A and 13B, the solenoid valve 152 extends both the plungers 152A and 152B, and the valve bodies 153A and 153B provided at the respective tips thereof are connected to the water supply pipe 151A. , 151B is moved to a position where the water supply channel is blocked. The water supply channel is a water channel for supplying water from the water supply tanks 110A and 110B to the water storage tray 106. Therefore, if both the water supply channels of the water supply pipes 151A and 151B are blocked, water will not be supplied to the water storage tray 106 from both the water supply tanks 110A and 110B.

When one side of the flow path is open (only the flow path on the water supply tank 110A side is open), as shown in FIGS. 15A and 15B, the solenoid valve 152 pulls the plunger 152A to pull the valve body 153A provided at the tip. The water supply pipe 151A is moved to a position where the water supply channel is opened. On the other hand, the solenoid valve 152 extends the plunger 152B and moves the valve body 153B provided at the tip to a position where the water supply passage of the water supply pipe 151B is blocked. As a result, only water can be supplied from the water supply tank 110A to the water storage tray 106.

When one side of the flow path is open (only the flow path on the water supply tank 110B side is open), as shown in FIGS. 14A and 14B, the solenoid valve 152 pulls the plunger 152B to pull the valve body 153B provided at the tip. The water supply pipe 151B is moved to a position where the water supply channel is opened. On the other hand, the solenoid valve 152 extends the plunger 152A and moves the valve body 153A provided at the tip to a position where the water supply passage of the water supply pipe 151A is blocked. As a result, only water can be supplied from the water supply tank 110B to the water storage tray 106.

When the flow path is fully opened, as shown in FIGS. 16A and 16B, the solenoid valve 152 pulls both the plungers 152A and 152B, and the valve bodies 153A and 153B provided at the respective tips thereof are connected to the water supply pipe 151A. Move to a position where the water supply channel of 151B is opened. The water supply channel is a water channel for supplying water from the water supply tanks 110A and 110B to the water storage tray 106. Therefore, if the water supply channel is opened, water is supplied to the water storage tray 106 from both the water supply tanks 110A and 110B.

The solenoid valve 152 drives the plungers 152A and 152B with the selection of any of the water supply tanks 110A and 110B as a trigger.

(Solenoid valve control)
FIG. 17A is a diagram in which magnets 161A and 161B are provided in the water supply tanks 110A and 110B, respectively, and FIGS. It is a figure which shows.

As shown in FIG. 17 (c), the reed switches 162A and 162B are on the upper side of the water storage tray 106 in the housing 101, and when the water supply tanks 110A and 110B are loaded, the water supply tanks 110A and 110B are respectively. It is provided at a position facing the magnets 161A and 161B provided in. That is, the reed switches 162A and 162B are turned on by the magnets 161A and 161B when the water supply tanks 110A and 110B are loaded at predetermined positions, respectively. When the reed switches 162A and 162B are turned on, the signal is sent to the solenoid valve control unit 201 (FIG. 7) to drive the solenoid valve 152.

For example, when a signal indicating ON is sent from the reed switch 162A, the solenoid valve control unit 201 pulls the plunger 152A to a position where the valve body 153A provided at the tip portion opens the water supply passage in the water supply pipe 151A. On the other hand, the solenoid valve 152 is controlled so as to extend the plunger 152B and move the valve body 153B provided at the tip to a position where the water supply passage of the water supply pipe 151B is closed. As a result, only water can be supplied from the water supply tank 110A to the water storage tray 106. That is, it means that the water supply tank 110A is selected by the water supply tank selection unit 150.

Further, when a signal indicating ON is sent from the reed switch 162B, the solenoid valve control unit 201 pulls the plunger 152B to a position where the valve body 153B provided at the tip portion opens the water supply passage in the water supply pipe 151B. On the other hand, the solenoid valve 152 is controlled so as to extend the plunger 152A and move the valve body 153A provided at the tip to a position where the water supply passage of the water supply pipe 151A is closed. As a result, only water can be supplied from the water supply tank 110B to the water storage tray 106. That is, it means that the water supply tank 110B is selected by the water supply tank selection unit 150.

In this way, by using the reed switches 162A and 162B, it is possible to identify the water supply tank previously loaded in the humidifier 1. For example, when the water supply tank 110A is loaded first and then the water supply tank 110B is loaded, water can be removed from the previously loaded water supply tank 110A. Therefore, for example, the notification unit 142 causes the user to run out of water in the water supply tank. Notify that. Then, when the water supply tank 110A that has run out of water is replenished with water and the water supply tank 110A is set again, this time, the already loaded water supply tank 110B is loaded first, and the water supply tank 110B is loaded first. Water will be lost from 110B. In this case as well, the notification unit 142 notifies the user that the water in the water supply tank 110B has run out.

Therefore, by notifying the user that there is no water in one of the water supply tanks by the notification unit 142 or the like, it is sufficient to perform the replenishment work of replenishing water to only one of the water supply tanks, and the user can replenish the water supply tank. The work load can be reduced. Moreover, since the water is exhausted from the water supply tank placed earlier, the water in the tank can be kept clean.

In the above, an example in which the reed switches 162A and 162B are used to identify the water supply tank previously loaded in the humidifier 1 has been described, but in the following, the reed switches 162A and 162B are loaded first in the humidifier 1 using a weight sensor. An example of identifying a water supply tank that has been used will be described.

(Modification example)
FIG. 18 is a diagram for explaining the outline of the water supply tank selection unit 160.

As shown in FIG. 18, the water supply tank selection unit 160 includes the first mounting unit 111A and the second mounting unit 111B on which the two water supply tanks 110A and 110B are mounted, and the first mounting unit 111A and the second mounting unit 111A. A weight sensor 112A, which is provided at the bottom of each of the mounting portions 111B and detects the weight of each of the water supply tanks 110A and 110B when the water supply tanks 110A and 110B are mounted on the first mounting portion 111A and the second mounting portion 111B, respectively. It has 112B and.

The weight sensors 112A and 112B detect the weights of the water supply tanks 110A and 110B, respectively, and send a detection signal to the solenoid valve control unit 201 (FIG. 7). The solenoid valve control unit 201 identifies the lighter water supply tank from the detection signals from the weight sensors 112A and 112B, and drives the solenoid valve 152 so that the specified water supply tank runs out of water.

For example, when the solenoid valve control unit 201 identifies that the water supply tank 110A is lighter than the water supply tank 110B from the two detection signals, the plunger 152A is pulled to supply the valve body 153A provided at the tip to the water supply pipe 151A. While moving the plunger 152B to a position where the path is open, the solenoid valve 152 is controlled so as to extend the plunger 152B and move the valve body 153B provided at the tip to a position where the water supply path of the water supply pipe 151B is closed. As a result, only water can be supplied from the water supply tank 110A to the water storage tray 106. That is, it means that the water supply tank 110A is selected by the water supply tank selection unit 160.

When the solenoid valve control unit 201 identifies from the two detection signals that the water supply tank 110B is lighter than the water supply tank 110A, the solenoid valve control unit 201 pulls the plunger 152B to supply the valve body 153B provided at the tip to the water supply pipe 151B. While moving the plunger 152A to a position where the path is opened, the solenoid valve 152 is controlled so as to extend the plunger 152A and move the valve body 153A provided at the tip to a position where the water supply path of the water supply pipe 151A is closed. As a result, only water can be supplied from the water supply tank 110B to the water storage tray 106. That is, it means that the water supply tank 110B is selected by the water supply tank selection unit 160.

In this way, by using the weight sensors 112A and 112B, it is possible to specify which water supply tank the water should be supplied from, so that water can be eliminated from the specified water supply tank. Therefore, for example, the notification unit. 142 notifies the user that the water in the water supply tank has run out.

Therefore, by notifying the user that there is no water in one of the water supply tanks by the notification unit 142 or the like, it is sufficient to perform the replenishment work of replenishing water to only one of the water supply tanks, and the user can replenish the water supply tank. The work load can be reduced. Moreover, since the water is exhausted from the water supply tank placed earlier, the water in the tank can be kept clean.

In this modified example, as shown in FIG. 18, the weight sensors 112A and 112B have been described as being provided at the bottoms of the first mounting portion 111A and the second mounting portion 111B, respectively. Any position may be provided as long as the weights of the water supply tanks 110A and 110B mounted on the portions 111A and the second mounting portion 111B can be detected.

Further, in the third embodiment and the modified example, an example in which two water supply tanks are used has been described, but a plurality of three or more water supply tanks may be used. Even in the case of three or more water supply tanks, water may be supplied to the water storage tray from the water supply tank in which the reed switch is first turned on or the lightest water supply tank by the weight sensor.

[Summary]
The humidifier 1 according to the first aspect of the present invention includes a water storage tray 106 and a plurality of water supply tanks (water supply tanks 110A and 110B) for supplying water to the water storage tray 106, and uses the water stored in the water storage tray 106. A water tank selection unit (120, 130, 150,) that selects a water supply tank that first supplies water to the water storage tray 106 from the plurality of water supply tanks (water supply tanks 110A, 110B). The water supply tank having 160) and selected by the water supply tank selection unit (120, 130, 150, 160) has a water supply tank in which the amount of water in the water supply tank is such that the water supply tank needs to be replenished with water. It is characterized in that water is supplied to the water storage tray 106 until the amount of water reaches the above.

According to the above configuration, the water supply tank selected from the plurality of water supply tanks has the water storage tray 106 until the amount of water in the water supply tank reaches the amount of water that needs to be replenished to the water supply tank. Water the water. As a result, it becomes possible to identify the water supply tank that needs to be replenished with water from a plurality of water supply tanks, and it is only necessary to perform the replenishment work only for the water supply tank. The burden on the water can be reduced. Here, the amount of water that needs to be replenished to the water supply tank includes a so-called empty state in which almost no water remains in the water supply tank. In the following, a water tank for the amount of water that needs to be replenished is described as a water tank that has run out of water.

In the humidifier 1 according to the second aspect of the present invention, in the first aspect, the plurality of water supply tanks are two water supply tanks (water supply tanks 110A and 110B), and the water supply tank selection unit 120 mounts the water supply tank 110A. The first mounting portion 121A to be placed, the second mounting portion 121B on which the water supply tank 110B is mounted, the connecting member 122 connecting the first mounting portion 121A and the second mounting portion 121B, and the above It may have a support portion 123 that swingably supports the connecting member 122.

According to the above configuration, the first mounting portion 121A on which the water supply tank 110A, which is one water supply tank, is mounted, and the second mounting portion 121B on which the water supply tank 110B, which is the other water supply tank, is mounted are connected. By swingably supporting the connecting member 122 by the support portion 123, the two water supply tanks (water supply tanks 110A and 110B) are supported by the seesaw structure. That is, if the water supply tank 110A is heavier than the water supply tank 110B, the position of the water supply tank 110A mounted on the first mounting portion 121A is lower than the position of the water supply tank 110B mounted on the second mounting portion 121B. The two mounting portions (first mounting portion 121A and second mounting portion 121B) move so as to be. Therefore, water is supplied to the water storage tray 106 from the water supply tank 110B mounted on the second mounting portion 121B, which is above the position of the water supply tank 110A mounted on the first mounting portion 121A. As a result, water disappears from the water supply tank 110B mounted on the second mounting portion 121B. Then, when the water supply tank 110B that has run out of water is taken out from the humidifier and the water supply tank 110B that has been replenished with water is placed on the second mounting portion 121B, the water supply tank that has already been placed on the first mounting portion 121A is placed. Since some water is supplied to the water storage tray 106 from 110A, the water supply tank 110A mounted on the first mounting portion 121A is lighter than the water supply tank 110B mounted on the second mounting portion 121B. It has become. Therefore, when the water supply tank 110B is mounted on the second mounting portion 121B, the water supply mounted on the second mounting portion 121B is located rather than the position of the water supply tank 110A mounted on the first mounting portion 121A. Since the position of the tank 110B is lowered, water is supplied to the water storage tray 106 from the water supply tank 110A mounted on the first mounting portion 121A which is higher than the second mounting portion 121B.

Therefore, in the humidifier having the above configuration, water is always supplied to the water storage tray from the water supply tank placed earlier, so that the water supply tank placed earlier runs out of water. As a result, by notifying the user that there is no water in one of the water supply tanks, it is sufficient to perform the replenishment work of replenishing water to only one of the water supply tanks, and the burden on the replenishment work is reduced to the user. Can be done. Moreover, since the water is exhausted from the water supply tank placed earlier, the water in the tank can be kept clean.

In the humidifier 1 according to the third aspect of the present invention, in the first aspect, the plurality of water supply tanks are two water supply tanks (water supply tanks 110A and 110B), and the water supply tank selection unit 130 mounts the water supply tank 110A. An elastic member (an elastic member) that supports the first mounting portion 131A to be placed, the second mounting portion 131B on which the water supply tank 110B is placed, the first mounting portion 131A, and the second mounting portion 131B by elastic force. The first spring 132A and the second spring 132B) may be provided.

According to the above configuration, the first mounting portion 131A on which the water supply tank 110A, which is one water supply tank, is mounted, and the second mounting portion 131B on which the water supply tank 110B, which is the other water supply tank, is mounted, respectively. It is supported by elastic members of elastic force (first spring 132A, second spring 132B). That is, if the water supply tank 110A is heavier than the water supply tank 110B, the position of the water supply tank 110A mounted on the first mounting portion 131A is lower than the position of the water supply tank 110B mounted on the second mounting portion 131B. The two mounting portions (first mounting portion 131A, second mounting portion 131B) are moved by elastic members (first spring 132A, second spring 132B) so as to be. Therefore, water is supplied to the water storage tray 106 from the water supply tank 110B mounted on the second mounting portion 131B above the position of the water supply tank 110A mounted on the first mounting portion 131A. As a result, water disappears from the water supply tank 110B mounted on the second mounting portion 131B. Then, when the water supply tank 110B that has run out of water is taken out from the humidifier 1 and the water supply tank 110B that has been replenished with water is placed on the second mounting portion 131B, the water supply that has already been placed on the first mounting portion 131A is placed. Since some water is supplied to the water storage tray 106 from the tank 110A, the water supply tank 110A mounted on the first mounting portion 131A is larger than the water supply tank 110B mounted on the second mounting portion 131B. It's getting lighter. Therefore, when the water supply tank 110B is mounted on the second mounting portion 131B, the water supply mounted on the second mounting portion 131B is located rather than the position of the water supply tank 110A mounted on the first mounting portion 131A. Since the position of the tank 110B is lowered, water is supplied to the water storage tray 106 from the water supply tank 110A mounted on the first mounting portion 131A which is higher than the second mounting portion 131B.

Therefore, in the humidifier having the above configuration, water is always supplied to the water storage tray from the water supply tank placed earlier, and water is exhausted from the water supply tank placed earlier. As a result, by notifying the user that there is no water in one of the water supply tanks, it is sufficient to perform the replenishment work of replenishing water to only one of the water supply tanks, and the burden on the replenishment work is reduced to the user. Can be done. Moreover, since the water is exhausted from the water supply tank placed earlier, the water in the tank can be kept clean.

In the humidifier 1 according to the fourth aspect of the present invention, in the first aspect, the water supply tank selection unit 150 is provided between the two water supply tanks (water supply tanks 110A and 110B) and the water storage tray 106, and the water supply tank 106 is provided. The solenoid valve 152 that opens and closes the water supply pipes 151A and 151B for supplying water from the tanks (water supply tanks 110A and 110B) to the water storage tray 106, and the two water supply tanks (water supply tanks 110A and 110B) are each the water storage tray 106. The magnets 161A and 161B provided in the two water supply tanks (water supply tanks 110A and 110B), respectively, and the reed switches 162A that are turned on and off by the magnetic fields of the magnets 161A and 161B when placed at the water supply position to the above. It may have 162B and a solenoid valve control unit 201 that controls the opening and closing of the solenoid valve 152 according to the on / off of the reed switches 162A and 162B.

According to the above configuration, among the reed switches 162A and 162B, the water supply tank corresponding to the reed switch turned on first is selected as the water supply tank for supplying water to the water storage tray 106. As a result, water is supplied to the water storage tray 106 from the selected water supply tank. Therefore, by notifying the user that there is no water in one water supply tank, the replenishment work of replenishing water to only one water supply tank is performed. This is sufficient, and the burden on the user for replenishment work can be reduced.

In the humidifier 1 according to the fifth aspect of the present invention, in the first aspect, the water supply tank selection unit 160 is provided between the two water supply tanks (water supply tanks 110A and 110B) and the water storage tray 106, and the water supply is provided. The solenoid valve 152 that opens and closes the water supply pipes 151A and 151B for supplying water from the tanks (water supply tanks 110A and 110B) to the water storage tray 106, and the two water supply tanks (water supply tanks 110A and 110B) are each the water storage tray 106. Weight sensors 112A and 112B that detect the weight of each water supply tank when placed at the water supply position to the solenoid valve, and a solenoid valve that controls the opening and closing of the solenoid valve 152 according to the detection signals of the weight sensors 112A and 112B. It may have a control unit 201.

According to the above configuration, the lighter water supply tank is selected as the water supply tank for supplying water to the water storage tray 106 by the detection signals of the weight sensors 112A and 112B. As a result, water is supplied to the water storage tray 106 from the selected water supply tank. Therefore, by notifying the user that there is no water in one water supply tank, the replenishment work of replenishing water to only one water supply tank is performed. This is sufficient, and the burden on the user for replenishment work can be reduced.
It is possible to notify that it has disappeared.

In any one of the above aspects 1 to 5, the humidifier 1 according to the sixth aspect of the present invention is a blower unit that puts the water stored in the vaporized or atomized water storage tray 106 on the wind and discharges it to the outside. When the water in the water supply tank selected by the (blower fan 109) and the water supply tank selection unit (120, 130, 150, 160) runs out, the blower unit (blower fan 109) is controlled so as to reduce the air volume. A blower control unit (fan control unit 146) may be provided.

According to the above configuration, when the water in one of the water supply tanks runs out, the humidification operation time can be lengthened by reducing the air volume of the blower. For example, it is possible to prevent the humidification operation from stopping during bedtime when the replenishment work cannot be performed immediately even if the water in one of the water supply tanks runs out.

In the humidifier 1 according to the seventh aspect of the present invention, the amount of water in the water supply tank selected by the water supply tank selection unit (120, 130, 150, 160) in any one of the above aspects 1 to 6 is determined. A notification unit 142 for notifying that the amount of water required to be replenished to the water supply tank has been reduced may be further provided.

According to the above configuration, the notification unit 142 can surely notify the user that the amount of water in one of the water supply tanks has been reduced to the amount of water required to replenish the water supply tank. The notification method by the notification unit includes sound, voice, display on the operation panel, LED lighting, blinking, and the like.

The present invention is not limited to the above-described embodiments, and various modifications can be made within the scope of the claims, and the embodiments obtained by appropriately combining the technical means disclosed in the different embodiments. Is also included in the technical scope of the present invention. Furthermore, new technical features can be formed by combining the technical means disclosed in each embodiment.

1 Humidifier 101 Housing 102 Intake port 103 Air supply port 106 Water storage tray 106a Bottom 107 Humidifier filter (humidifier part)
109 Blower fan (blower part)
110A, 110B Water supply tank 111A 1st mounting part 111B 2nd mounting part 112A, 112B Weight sensor 120, 130, 150, 160 Water supply tank selection part 121A 1st mounting part 121B 2nd mounting part 122 Connecting member 123 Support Part 131A 1st mounting part 131B 2nd mounting part 132A 1st spring (elastic member)
132B 2nd spring (elastic member)
140 Water supply control unit 141 Water level sensor 142 Notification unit 143 Fan drive motor 144 Notification control unit 145 Water level detection control unit 146 Fan control unit 151A, 151B Water supply pipe 152 Solenoid valve 152A, 152B Plunger 152a Solenoid unit 153A, 153B Valve body 161A, 161B Magnet 162A, 162B Reed switch 201 Solenoid valve control unit

Claims (3)

A humidifier having a water storage tray and a plurality of water supply tanks for supplying water to the water storage tray, and humidifying using the water stored in the water storage tray.
It has a water supply tank selection unit that selects the water supply tank that first supplies water to the water storage tray from the plurality of water supply tanks.
The above-mentioned plurality of water supply tanks are two water supply tanks.
The above water supply tank selection section
The first mounting part on which one of the above two water supply tanks is mounted, and
The second mounting part on which the other water tank of the above two water tanks is mounted, and
It has an elastic member that supports each of the first mounting portion and the second mounting portion by an elastic force.
The water supply tank selected by the water supply tank selection unit is characterized in that water is supplied to the water storage tray until the amount of water in the water supply tank reaches the amount of water that needs to be replenished to the water supply tank. Humidifier. A blower unit that puts the water stored in the vaporized or atomized water storage tray on the wind and discharges it to the outside.
The humidification according to claim 1, further comprising a blower control unit that controls the blower unit so as to reduce the air volume when the water in the water supply tank selected by the water supply tank selection unit runs out. Machine. Further provided with a notification unit for notifying that the amount of water in the water supply tank selected by the water supply tank selection unit has decreased to less than or equal to the preset amount of water required to replenish the water supply tank. The humidifier according to claim 1 or 2 , wherein the humidifier is provided.

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