JP7122839B2 - mist device - Google Patents

Description

The present invention relates to a mist device that sprays mist.

Patent Literature 1 discloses a mist device for draining water that has accumulated in pipes, heat exchangers, and the like, since there is a possibility that bacteria are generated in such water. The mist device of Patent Document 1 is provided with a drainage control unit, and the drainage control unit releases accumulated water from the nozzle unit until the mist operation start condition is satisfied after the start of mist operation is input to the operation remote controller. be discharged from
Then, when it is detected that a user exists in the bathroom, the drainage control section stops the drainage of the stagnant water. This prevents the user from feeling uncomfortable by bathing in cold stagnant water.

JP 2017-164381 A

However, in the mist device of Patent Literature 1, when the user enters the bathroom, the discharge of the accumulated water from the nozzle portion is stopped, so the discharge of the accumulated water cannot be completed. Therefore, there is a demand for a technology that drains the stagnant water but prevents the user in the bathroom from being splashed with the stagnant water.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a mist device capable of suppressing a user from being splashed with stagnant water discharged into a bathroom.

The characteristic configuration of the mist device according to the present invention is
a reception unit that receives from a user a start of mist operation for spraying liquid in the bathroom;
at least one nozzle for spraying liquid into the bathroom;
a heating unit for heating the liquid to be sprayed into the bathroom;
a blower fan for blowing air into the bathroom;
a wind direction changing unit that changes the blowing direction of the wind sent out from the blower fan by changing the angle;
When the reception unit receives the start of the mist operation, in the initial operation immediately after the start of the mist operation, the bathtub space, which is in the direction of the low probability of existence of a user, of the bathtub space and the washing space in the bathroom. A mist control unit that controls the angle of the wind direction changing unit and starts spraying the liquid from the nozzle so that the liquid is sprayed to the side ,
The mist control section adjusts the spray amount of the liquid sprayed from the nozzle section in the range of 80% to 100% of the maximum spray amount in the initial operation .

According to this characteristic configuration, in the initial operation immediately after the start of the mist operation, the mist control unit controls the angle of the wind direction changing unit so that the liquid is sprayed in the direction where the probability of existence of the user in the bathroom is low. do. Therefore, it is possible to suppress the user in the bathroom from being splashed with unheated cold stagnant water, which is the liquid stagnating in the pipes, etc., and to suppress the discomfort felt by the user of the mist.
Further, according to this characteristic configuration, in the initial operation, the mist control unit controls the angle of the wind direction changing unit so that the liquid is sprayed in a direction where the probability of existence of people in the bathroom is low, and then the nozzle unit Adjust the spray amount of liquid from within the upper limit range. As a result, it is possible to expedite the discharge of the retained water from the nozzle portion in the initial operation. Therefore, the mist user can quickly use the mist warmed in the mist device.

A further characteristic configuration of the mist device according to the present invention is
The mist control unit controls the angle of the wind direction changing unit in the initial operation so that the blowing direction of the air from the blower fan intersects the spray direction of the liquid from the nozzle unit. .

According to this characteristic configuration, the blowing direction of the air from the blower fan intersects the spraying direction of the liquid, thereby preventing the spraying of the liquid to the position where the user exists. As a result, it is possible to prevent the user in the bathroom from being splashed with the stagnant water in the initial operation.

A further characteristic configuration of the mist device according to the present invention is
In the initial operation, the mist control unit controls the spray direction of the liquid from the nozzle so that the liquid is sprayed in the bathtub space side, which is the direction in which the probability of existence of a user in the bathroom is low. It is at the point where the wind direction changing part intersects.

According to this characteristic configuration, by intersecting the airflow direction changing part with the spray direction of the liquid, the airflow direction changing part prevents the liquid from being sprayed in the direction in which the user is likely to exist in the bathroom. The liquid is sprayed in the direction where the existence probability of is low. As a result, in the initial operation, it is possible to prevent the user in the bathroom from being splashed with stagnant water, which is a liquid stagnating in the pipes or the like.

A further characteristic configuration of the mist device according to the present invention is
In the initial operation, the mist control unit adjusts the air volume of the air blown out from the blower fan so that the liquid is sprayed toward the bathtub space side, which is the direction in which the presence probability of users in the bathroom is low. It is in the point to do.

According to this characteristic configuration, the mist control unit controls the angle of the wind direction changing unit so that the liquid is sprayed in a direction in which the presence probability of people in the bathroom is low, and then the air volume of the air blown out from the blower fan. to adjust. For example, the mist control unit stops the blower fan to reduce the air volume to zero. As a result, it is possible to prevent the stagnant water sprayed in the initial operation from being diffused by the wind from the blower fan. Conversely, for example, the mist control unit controls the angle of the wind direction changing unit so that the stagnant water is sprayed in a direction where the probability of existence of a person is low, and then increases the air volume in that direction. Stagnant water that is sprayed during initial operation can be kept away from people in the bathroom.

A further characteristic configuration of the mist device according to the present invention is
A temperature measuring unit that measures the temperature of the liquid sprayed from the nozzle unit,
In the initial operation, when the temperature of the liquid measured by the temperature measuring unit reaches or exceeds a predetermined value, the mist control unit adjusts the spray amount of the liquid from the nozzle unit to the spray amount received from the user by the reception unit. It is in the point of controlling to

When the discharge of the stagnant water is completed, mist warmed by the mist device and having a temperature equal to or higher than a predetermined value is sprayed from the nozzle. That is, the mist control section can determine that the discharge of the stagnant water is completed when the temperature of the liquid reaches or exceeds a predetermined value. According to this characteristic configuration, when the temperature of the liquid reaches or exceeds a predetermined value, the mist control unit causes the nozzle unit to spray the mist at the spray amount received from the user, so that the mist is provided to the user at the desired spray amount. can.

A further characteristic configuration of the mist device according to the present invention is
A temperature measuring unit that measures the temperature of the liquid sprayed from the nozzle unit,
In the initial operation, when the temperature of the liquid measured by the temperature measuring unit reaches or exceeds a predetermined value, the mist control unit controls the angle of the wind direction changing unit to the angle received from the user by the receiving unit. It is in.

According to this characteristic configuration, the mist control unit returns the angle of the wind direction changing unit to the angle accepted from the user when the temperature of the liquid reaches or exceeds the predetermined value, so mist can be provided to the user at a desired angle.

A further characteristic configuration of the mist device according to the present invention is
In the initial operation, the present invention is provided with a notification unit that notifies when the temperature of the liquid measured by the temperature measurement unit reaches or exceeds a predetermined value.

According to this characteristic configuration, since the user is notified when the temperature of the liquid reaches or exceeds a predetermined value, the user can understand that the accumulated water has been discharged and the mist can be used comfortably.

It is a schematic diagram which shows the structure of a mist apparatus. FIG. 4 is a layout diagram when the arrangement of a plurality of nozzles is viewed from inside the bathroom; It is a block diagram which shows the structure of the control part of a mist apparatus. FIG. 4 is a schematic diagram showing an outline of spray control of stagnant water in initial operation. FIG. 4 is a schematic diagram showing an outline of spray control of stagnant water in initial operation. 4 is a table showing the relationship between the user's existing position, the louver angle, and the air volume level of the air from the circulation fan. It is an example of the flowchart which shows the flow of spray control of the stagnant water in initial operation. It is a mimetic diagram showing other composition of a mist device. FIG. 4 is a schematic diagram showing an outline of spray control of stagnant water in initial operation. FIG. 4 is a schematic diagram showing an outline of spray control of stagnant water in initial operation .

[Embodiment]
A mist device 100 according to an embodiment of the present invention will be described below. The mist device 100 is configured so that a bather who is a user can easily enjoy mist sauna bathing in a bathroom.
Before the use of the mist device 100 is started, cold stagnant water is accumulated in the pipes and the like in the mist device 100, and the stagnant water is sprayed into the bathroom Y when the mist operation is started. Then, the user is splashed with cold stagnant water, which makes the user feel uncomfortable. Therefore, in the mist device 100 according to the embodiment of the present invention, control is performed to prevent the user in the bathroom Y from being splashed with the stagnant water that is sprayed at the start of use.

In FIG. 1 and the like below, a mist device 100 of a so-called “hot water supply direct connection type” and “ceiling installation type” installed in the ceiling space of the bathroom Y will be described as an example. The "hot water supply direct connection method" is a method of mist operation in which hot water heated by the heat source device 1 (heating unit) is sprayed directly from the nozzle unit 2 in the form of mist using the supply pressure of the hot water. This hot water supply direct connection type mist device 100 can directly use hot water as compared with a hot water circulation type mist device, so that a large amount of mist is ejected and a heating effect of the bathroom Y can be expected.
The bathroom Y is an example of a space where mist sauna bathing can be enjoyed while mist is being sprayed. The bathroom Y includes an upper bathtub space Ya in which a bathtub 66 for bathing is provided, and a washing space Yb adjacent to the bathtub 66 for the user to wash his/her body.

As shown in FIG. 1, the mist device 100 includes a heat source machine 1 that heats water to generate hot water, and hot water from the heat source machine 1 that is supplied through a hot water channel 82 and a nozzle supply channel 3. A mist section 90 for spraying mist from the nozzle section 21 is provided. Hereinafter, the water remaining in the heat exchanger, piping, etc. at the start of the mist operation will be referred to as retained water, and after the retained water is discharged, the appropriate temperature water sprayed to the user will be referred to as mist water. The stagnant water is, for example, water that remains without being discharged from the heat exchanger and piping after the previous mist operation is completed.

The mist device 100 according to this embodiment also has a hot water supply function, and includes a hot water supply section 89 . In other words, the mist device 100 includes a hot water supply unit 89 such as a bathtub 66, a shower 58, a faucet 56, etc., to which hot water from the heat source device 1 is supplied. The mist device 100 also includes a reception unit 19 that receives an operation of the mist device 100 from the user, and a control unit 11 that controls operations of the heat source device 1, the mist unit 90, the hot water supply unit 89, and the like. The configuration of each part will be described below.

(1) Mist section 90
As shown in FIG. 1, the mist unit 90 includes a main body casing 91a installed on the back side of the ceiling Yc of the bathroom Y, and a grill plate 91b installed on the front side of the ceiling Yc of the bathroom Y. As shown in FIG. The mist section 90 includes various members for spraying mist water into the bathroom Y and heating the bathroom Y, etc., in a housing composed of the main body casing 91a and the grill plate 91b.

As shown in FIGS. 1 and 2, the mist section 90 includes a nozzle unit 2 supported by a flat support plate 28 formed integrally with the grill plate 91b. The nozzle unit 2 has a plurality of nozzle portions 21 as spray means for spraying mist water toward the inside of the bathroom Y. As shown in FIG. Therefore, the plurality of nozzle portions 21 of the nozzle unit 2 are supported by the support plate 28 on the ceiling Yc. The plurality of nozzle portions 21 are provided in a state in which the tips protrude into the bathroom Y from a support plate 28 on the ceiling Yc side, for example.

More specifically, in this embodiment, as shown in FIG. 1, the nozzle unit 2 having a plurality of nozzle portions 21 protrudes from the ceiling Yc near the boundary between the bathtub space Ya and the washing space Yb. is provided as follows. The nozzle part 21 projects from the ceiling Yc between the bathtub space Ya and the washing space Yb with its tip tilted toward the washing space Yb. That is, the spray direction of the mist water from the nozzle portion 21 is the direction from between the bathtub space Ya and the washing space Yb toward the washing space Yb.

A nozzle supply path 3 described later is connected to the nozzle unit 2 , and hot water heated by a first combustor 42 described later of the heat source device 1 is supplied to the nozzle supply path 3 via a hot water path 82 . As a result, a mist operation is performed in which hot water, which is mist water, is sprayed into the bathroom Y from the nozzle portion 21 of the nozzle unit 2 as mist.
When spraying, the nozzle part 21 sprays the water for mist with the pressure of the water for mist. That is, the nozzle part 21 is a so-called one-fluid nozzle.

The plurality of nozzle portions 21 are arranged, for example, as shown in FIG. That is, in the present embodiment, for example, when viewed from the bathroom Y side, the nozzle portions 21 are arranged in two linear rows at regular intervals, and 13 nozzle portions are arranged in one row. And the nozzle part 21 is provided with the nozzle mouth (not shown) as a spray hole which sprays water for mist. For example, one nozzle part 21 may be provided with one nozzle opening, or may be provided with a plurality of nozzle openings.

The nozzle supply path 3 will be further explained. The nozzle supply path 3 is a pipe that is connected to the hot water path 82, communicates the hot water path 82 and the nozzle portion 21, and circulates hot water as mist water.
The nozzle supply path 3 is provided with a pressure detection section 86 for detecting the pressure of hot water flowing through the nozzle supply path 3 and the spray flow rate control valve 10 upstream of the pressure detection section 86 .

The spray flow control valve 10 is a valve member that controls the flow and stop of mist water flowing through the nozzle supply passage 3 . As the spray flow control valve 10, for example, an on-off valve that can be freely opened and closed can be used. Further, as the spray flow rate control valve 10, a valve member, that is, a flow rate control valve, which is capable of not only opening and closing but also changing the flow path area (opening degree adjustment), for example, may be used.
It is preferable that the spray flow control valve 10 is a normally closed type on-off valve because it is closed during a power failure or the like.

The spray flow control valve 10 in this embodiment is, for example, an on-off valve whose flow and stop are controlled by a mist control section 13, which will be described later. The spray flow rate control valve 10 is a normally closed type flow rate control valve that is normally in a closed state and opens to a predetermined degree of opening when an open command is received. Therefore, the flow rate of mist-use water flowing through the nozzle supply path 3 can be adjusted to a predetermined flow rate by the control of the mist control unit 13 .

When the spray flow rate control valve 10 is a flow rate control valve, it is possible to control the flow rate of hot water flowing through the nozzle supply path 3 per unit time (for example, 1 minute). For example, when the amount of spray from the nozzle unit 2 becomes excessive because the flow rate of hot water flowing through the nozzle supply path 3 is excessive, the mist control unit 13 controls the spray flow rate control valve 10 to The flow rate of hot water flowing through the supply channel 3 is restricted.
As such a spray flow rate control valve 10, a linear valve capable of linearly changing the flow area is suitable so that the mist water flowing through the nozzle supply path 3 can be adjusted to a desired flow rate.
A temperature sensor 88 is provided upstream of the spray flow control valve 10 . The temperature detected by this temperature sensor 88 is the temperature of the mist water sprayed from the nozzle portion 21 .

Moreover, the mist part 90 is equipped with the circulation part 70 which performs heating operation as a heating apparatus of the bathroom Y. FIG. The circulation unit 70 sucks the inside air from the inside of the bathroom Y, heats the inside air with a heat medium heated and supplied by the second combustor 45 of the heat source device 1, and returns it to the inside of the bathroom Y as warm air. It is a heating device of the bathroom Y which operates.
The circulation section 70 has a circulation fan 94 , an air heating heat exchanger 95 , a ventilation fan 96 , and a changeable movable louver (wind direction changing section) 97 .

The circulation fan 94 is an air blowing/circulating means that sucks the air (inside air) in the bathroom Y through the suction port 92 formed in the grill plate 91 and blows the sucked air into the bathroom Y through the air passage 93. The circulation fan 94 supplies air to the changeable movable louver 97 through the air passage 93 . A sirocco fan, for example, can be used as the circulation fan 94 .

The changeable louver 97 is provided in an opening provided in the ceiling Yc continuously from the air duct 93, and can change the blowing direction of the air (warm air) supplied from the air duct 93 into the bathroom Y. It is a member. The changeable louver 97 is configured to be rotatable around a predetermined fulcrum. The changeable louver 97 appropriately changes the blowing direction of the air supplied from the air passage 93 and blows the air into the bathroom Y by changing the rotation angle thereof. The changeable movable louver 97 is configured by, for example, a plate member in this embodiment. The changeable louver 97 is stored in the opening of the ceiling Yc when not in use, and is configured to protrude from the opening of the ceiling Yc when in use as shown in FIG. 1 and the like.
However, the changeable movable louver 97 is not limited to a plate-like member as long as it can change the blowing direction of air into the bathroom Y, and for example, it can be a cylindrical member that can rotate and allow air to pass through. There may be. The changeable movable louver 97 made of a tubular member may, for example, have a U-shaped cross section and extend along the direction in which the plurality of nozzle portions 21 are arranged.

In this embodiment, as described above, the tip of the nozzle unit 2 protrudes from the ceiling Yc toward the washing space Yb between the bathtub space Ya and the washing space Yb, as shown in FIG. 1 and 2, the changeable louver 97 is provided adjacent to the nozzle unit 2 on the washing space Yb side of the nozzle unit 2. As shown in FIGS. The changeable louver 97 is provided parallel to the direction in which the plurality of nozzle portions 21 of the nozzle unit 2 are arranged linearly.

In this way, the nozzle unit 2 is provided next to the movable louver 97 and in parallel with the movable louver 97 , so that the mist sprayed from the nozzle unit 2 is absorbed by the air blown out from the movable louver 97 . Attracted by the accompanying current. Therefore, the mist sprayed from the nozzle unit 2 can efficiently come into contact with the air (warm air) blown from the changeable movable louver 97 . For example, when the mist operation is performed and the heating operation is performed, the mist sprayed from the nozzle unit 2 and the air (warm air) blown from the changeable movable louver 97 are heat-exchanged, thereby It is possible to adjust the bathroom environment according to the preference of the person. This is preferable because, for example, the case where a bather feels chilly can be avoided, and the feeling of bathing can be improved.

The changeable movable louver 97 has a size capable of covering at least a part of the nozzle opening of the nozzle portion 21 of the nozzle unit 2 when rotated toward the nozzle unit 2, as will be described in detail later. preferably configured.

The air heating heat exchanger 95 is a heat exchanger as air heating means for heating the air blown by the circulation fan 94 .

The ventilation fan 96 is a blower and ventilation means that sucks the air (inside air) in the bathroom Y through the suction port 92 and discharges it to the outside. For example, a sirocco fan can be used.

(2) Hot water supply unit 89
The mist device 100 includes a hot water supply unit 89 that is bathroom equipment that performs a hot water supply operation in which hot water is discharged (used) in the bathroom Y. As shown in FIG. In this embodiment, the hot water supply unit 89 includes, for example, the hot water supply unit 65 and the faucet unit 55 .

The faucet unit 55 has a callan 56 that is a hot water supply port for performing a shower 58 and normal hot water supply, and supplies hot water generated by the heat source device 1 to the callan 56 via a faucet water channel 57 branching from the water supply channel 81 . Hot water supply operation is performed.

The hot water filling part 65 has a bath adapter 67 which is a hot water supply port for filling the bathtub 66 with hot water. The hot water filling unit 65 performs a hot water supply operation to supply hot water generated by the heat source device 1 to the bath adapter 67 via a hot water filling water channel 68 branching from the hot water channel 82 .

The mist device 100 is a “hot water supply direct connection system”, and hot water heated by the heat source device 1 is supplied to the nozzle unit 2 of the mist section 90 through the nozzle supply path 3, and the faucet water path 57 of the faucet section 55 It is supplied to the hot water supply section 89 including the hot water filling channel 68 of the hot water filling section 65 .
The nozzle supply channel 3 for supplying mist water and the hot water supply channels such as the faucet channel 57 and the hot water supply channel 68 may be a series of channels, or may be provided independently of each other.

(3) Heat source machine 1
The heat source equipment 1 includes a first heat exchange mechanism 31 and a second heat exchange mechanism 32 .
The first heat exchange mechanism 31 has a first heat exchange section 41 , a first combustor 42 and a first proportional valve 43 . A water supply channel 81 is connected to the inlet of the first heat exchange section 41, and a hot water channel 82 is connected to the outlet thereof. The first heat exchange section 41 heats the water supplied from the water supply path 81 to generate hot water. The generated hot water is supplied to the hot water passage 82 . The generated hot water is used for spraying from the nozzle unit 2 (mist operation) and supply from the faucet portion 55 and hot water filling portion 65 (hot water supply operation).

When the mist operation is started, when the flow rate of the water supply passage 81 detected by the flow rate detection unit 84 reaches a predetermined flow rate, the heat source control unit 16 ( FIG. 3 ) causes the first combustor 42 to ignite (start operation). command. The first combustor 42 starts operating according to the command. That is, the first proportional valve 43 and the on-off valve 47 are opened, and fuel (for example, gas) is supplied to the heat source equipment 1 . As a result, the first combustor 42 starts operating, and the water flowing through the water supply passage 81 is heated in the first heat exchange section 41 and supplied to the hot water passage 82 . The hot water for mist thus heated flows through the nozzle supply passage 3 described above.
Note that the temperature of the water heated by the first heat exchange section 41 is detected by a temperature sensor 83 provided in the hot water passage 82 .

When the hot water supply operation is started, at least one of the faucet water channel 57 communicating with the faucet portion 55 and the hot water filling channel 68 communicating with the hot water filling portion 65 is opened, and the water supply channel 81 detected by the flow rate detecting portion 84 flows. When the flow rate reaches a predetermined flow rate, the heat source control unit 16 commands the first combustor 42 to ignite (start operation). By this command, the first proportional valve 43 and the on-off valve 47 are opened, and fuel (for example, gas) is supplied to the heat source equipment 1 . As a result, the first combustor 42 starts operating, and the filling water flowing through the water supply passage 81 is heated in the first heat exchange section 41 and supplied to the hot water passage 82 . The warm water for hot water supply thus heated is supplied from the faucet portion 55 via the faucet water channel 57 and is also supplied to the bathtub 66 via the hot water filling channel 68 and the bath adapter 67 .

The second heat exchange mechanism 32 has a second heat exchange section 44 , a second combustor 45 and a second proportional valve 46 . The second heat exchange section 44 heats the heat medium flowing through the heat medium circuit 51 . The heated heat medium is used when the air heating heat exchanger 95 performs a heating operation.

When the heating operation by the air-heating heat exchanger 95 is started, the control valve 52 for controlling the circulation of the heat medium in the heat medium circulation path 51 is opened, and the heat medium in the heat medium circulation path 51 is circulated by the pump P. In the circulating state, the second proportional valve 46 is opened to supply the gas to the second combustor 45 . As a result, the second combustor 45 is ignited and starts operating, and the heat medium flowing through the heat medium circuit 51 is heated in the second heat exchange section 44 .
The heat medium heated in this way is supplied to the air heating heat exchanger 95 . After that, the circulation fan 94 is operated to suck the air in the bathroom Y through the suction port 92, and the sucked air is blown out into the bathroom Y after being heated by the heat exchanger 95 for heating air.

(4) Reception unit 19
The reception unit 19 receives an operation to the mist device 100 from the user. The reception unit 19 is provided outside the bathroom Y, for example, and is configured by a remote controller or the like. The reception unit 19 has at least a start button and a stop button with which the user can instruct start and stop of the mist operation. In addition, the reception unit 19 includes an operation unit capable of receiving information such as the amount of sprayed mist in the mist operation, the temperature of the mist, the heating temperature of the air in the air heating heat exchanger 95, the direction of the changeable movable louver 97, and the like. It is preferable to have
In addition, the reception unit 19 may be provided with an operation unit that can set the hot water supply temperature in the faucet unit 55, the hot water supply unit 65, and the like.

(5) Control unit 11
As shown in FIG. 3, the control unit 11 is a mist control unit that performs spray control of the stagnant water so as to suppress the stagnant water sprayed from the nozzle in the initial operation immediately after the start of the mist operation so as to suppress the user. 13, a storage unit 14 that stores a table defining the spray control of the stagnant water performed by the mist control unit 13, a notification unit 15 that notifies that the spraying of the stagnant water from the nozzle unit 21 has been completed, and a heat source machine and a heat source control unit 16 for controlling 1.

Here, the retained water remaining in the heat exchangers, pipes, etc. remains in the pipes, heat exchangers, etc. after the mist operation ends, and the temperature of the water drops as time elapses from the hot water state. In addition, there is a possibility that bacteria and the like are generated in the stagnant water due to stagnant water in pipes and the like. In the initial operation immediately after the mist operation is started, this retained water is sprayed from the nozzle portion 21 . Therefore, cold stagnant water is splashed on the user, giving the user a feeling of discomfort. In addition, if bacteria or the like are generated in the stagnant water, the user's health is impaired.
In the case of FIG. 1 and the like, for example, stagnant water stays in the water supply path 81, the first heat exchange section 41, the hot water path 82, the nozzle supply path 3, the spray flow rate control valve 10, the pressure detection section 86, the nozzle unit 2, and the like.
Therefore, in the control unit 11 of the present embodiment, in the initial operation immediately after the start of the mist operation, the remaining water spray control is performed so as to suppress the user from being sprayed with the remaining water sprayed from the nozzle unit 21.

(5-1) Outline of Stagnant Water Spray Control Next, an outline of the stagnant water spray control will be described with reference to FIGS. 1, 4, and 5. FIG.
When the reception unit 19 receives the start of the mist operation from the user of the bathroom Y, the mist control unit 13 starts the mist operation. In the initial operation immediately after the mist operation is started, the remaining water remaining in the heat exchanger, piping, etc. is sprayed from the nozzle portion 21 .

In FIG. 1, the nozzle part 21 projects from the ceiling Yc between the bathtub space Ya and the washing space Yb with its tip inclined toward the washing space Yb. Therefore, in the initial operation, the spray direction of the stagnant water from the nozzle portion 21 is the direction from between the bathtub space Ya and the washing space Yb toward the washing space Yb. Here, from the nozzle portion 21, water is sprayed over a spray range φa1 (a spray range represented by an angle range φa1), as shown in FIG. 1, for example.

1, the changeable movable louver 97 is provided so as to be adjacent to the nozzle unit 2 on the washing space Yb side of the nozzle unit 2. As shown in FIG. Also, the changeable louver 97 is inclined in the direction opposite to the nozzle portion 21 at a louver angle θa1 with the ceiling Yc. The louver angle θa1 is, for example, at least an angle smaller than 90°, and the variable movable louver 97 is inclined in a direction that does not block the spray range φa1 of the stagnant water sprayed from the nozzle portion 21 . The tilting direction of the changeable louver 97 can also be said to be along the spraying direction of the stagnant water, for example.

Regarding the relationship between the spray range φa1 of the stagnant water from the nozzle portion 21 and the inclination direction of the changeable movable louver 97 in FIG. sprayed on. In this case, if a user exists within the spray range φa1 in the washing space Yb, the user will be splashed with stagnant water. Therefore, cold stagnant water is splashed on the user, giving the user a feeling of discomfort. In addition, if bacteria or the like are generated in the stagnant water, the user's health is impaired.

Therefore, the mist control unit 13 rotates the changeable louver 97 so that the stagnant water is sprayed in the direction in which the probability of existence of the user in the bathroom Y is low, as shown in FIG. 4 . In other words, the mist control unit 13 rotates the changeable louver 97 so as to prevent the remaining water from being sprayed to the position where the user exists.

At this time, the mist control unit 13 refers to the storage unit 14 and rotates the changeable louver 97 . Thereby, the changeable movable louver 97 is rotated so as to block at least part of the spray range φa1 (see FIG. 1) of the stagnant water sprayed from the nozzle portion 21 . In FIG. 4, the changeable movable louver 97 is inclined in the direction opposite to the nozzle portion 21, forming a louver angle θa2 with the ceiling Yc. The louver angle θa2 is, for example, at least an angle larger than 90°, and the variable movable louver 97 is inclined in a direction that blocks at least part of the spray range φa1 (see FIG. 1) of the stagnant water from the nozzle portion 21. there is The direction of inclination of the changeable louver 97 can also be said to intersect the spray direction of the stagnant water, for example.

It should be noted that the changeable range of the louver angle when discharging stagnant water can be set larger than the changeable range of the louver angle during normal mist spraying. For example, the louver angle for normal mist spraying can be changed from about 20° to about 90°, while the louver angle for discharging stagnant water can be changed from about 10° to about 170°. It is

More specifically, as shown in FIG. 4, the changeable louver 97 is sized to cover at least a portion of the nozzle portion 21 when rotated toward the nozzle unit 2. there is As a result, spraying of the stagnant water from the nozzle portion 21 toward the washing space Yb side is partially blocked by the changeable movable louver 97 . As a result, as shown in FIG. 4, in the initial operation, the stagnant water is sprayed into the wash space Yb over a spray range φa2. By reducing the spray range of the stagnant water from the spray range φa1 shown in FIG. 1 to the spray range φa2 shown in FIG. In this case, for example, the angle of the variable louver 97 is changed so that the spray range of the stagnant water deviates from the user's existing position by about 30 to 40 degrees.

The mist control unit 13 may stop the operation of the circulation fan 94 when the changeable louver 97 is rotated as shown in FIG. 4 in the initial operation. In the case of FIG. 4, the mist controller 13 stops the operation of the circulation fan 94 . As a result, it is possible to prevent the stagnant water sprayed in the initial operation from being diffused by the wind from the circulation fan 94 .
Conversely, the mist control unit 13 may drive the circulation fan 94 in FIG. Such an example will be described with reference to FIG.

As shown in FIG. 5, the mist control unit 13 refers to the storage unit 14 and rotates the changeable louver 97 so that the stagnant water is sprayed in the direction in which the probability of existence of the user in the bathroom Y is low. Let For example, the mist control unit 13 rotates the changeable louver 97 so that the stagnant water is sprayed toward the bathtub 66 side.
In FIG. 5, the changeable movable louver 97 is inclined in the direction opposite to the nozzle portion 21 at a louver angle θa3 with the ceiling Yc. The louver angle θa3 is, for example, at least an angle larger than 90°, and the movable louver 97 is set in a direction that blocks at least part of the spray range φa1 (see FIG. 1) of the stagnant water sprayed from the nozzle portion 21. Inclined. In this state, the mist control unit 13 drives the circulation fan 94 to blow air along the slope of the changeable louver 97 through the air passage 93 .

As a result, the remaining water spray from the nozzle portion 21 toward the washing space Yb side is partially blocked by the changeable movable louver 97 and flowed toward the bathtub space Ya side. As a result, as shown in FIG. 5, in the initial operation, at least part of the stagnant water having the spray range φa3 is sprayed toward the bathtub space Ya. Therefore, it is possible to prevent the user existing in the washing space Yb from being splashed with the stagnant water.
As described above, when the circulation fan 94 is driven, air is blown out from the air duct 93, causing the stagnant water to flow toward the bathtub space Ya. Therefore, the louver angle θa3 shown in FIG. 5 may be smaller than the louver angle θa2 shown in FIG.

(5-2) Table for spray control of stagnant water In the present embodiment, in order for the mist control unit 13 to perform spray control of stagnant water as described above, remembers a table of This table defines the louver angle of the changeable movable louver 97, as shown in FIG. This louver angle is an angle for spraying stagnant water in a direction in which the probability of existence of a user in the bathroom Y is low.
In this table, as shown in FIG. 6, in addition to the louver angle of the changeable movable louver 97, the volume of air blown from the circulation fan 94 may be defined. The table of FIG. 6 may further define the amount of spray of stagnant water from the nozzle portion 21 .

(5-3) Flow of Stagnant Water Spray Control Next, the flow of stagnant water spray control in the initial operation performed by the control unit 11 will be described with reference to FIG.
Step S10: When the reception unit 19 receives the start of the mist operation from the user (Yes in step S10), the heat source control unit 16 controls the operation of the heat source device 1 to generate heated mist water. In addition to the start of the mist operation, the reception unit 19 receives information such as the spray amount of mist in the mist operation, the temperature of the mist, the heating temperature of the air in the air heating heat exchanger 95, the direction of the changeable movable louver 97, and the like. Settings may be accepted from the user.
If the reception unit 19 has not received the start of the mist operation (No in step S10), the reception unit 19 waits until the mist operation is input.

Step S11: The mist control unit 13 controls the changeable movable louver 97 so that the stagnant water is sprayed in the direction in which the probability of existence of the user in the bathroom Y is low in the initial operation. At this time, the mist control unit 13 controls the changeable movable louver 97 by referring to the table illustrated in FIG.
Furthermore, the mist control unit 13 may drive the circulation fan 94 in addition to controlling the louver angle of the changeable louver 97 . As a result, air is blown out from the air passage 93 along the changeable movable louver 97 whose louver angle is controlled.

Step S<b>12 : After controlling the changeable louver 97 , the mist control unit 13 sprays the remaining water from the nozzle unit 21 . In step S11, the changeable louver 97 is controlled to a louver angle at which the user is not splashed with stagnant water.
When the mist control unit 13 controls the changeable louver 97 and blows air from the circulation fan 94, the spray direction of the stagnant water moves further away from the user in the bathroom Y. Therefore, it is possible to further suppress the user from being splashed with the stagnant water in the initial operation.

Here, the mist control unit 13 may adjust the spray amount of the stagnant water from the nozzle unit 21 to any value within the upper limit range from near the maximum to the maximum. For example, the spray amount of the stagnant water can be adjusted anywhere from 80% to 100% of the maximum spray amount. The mist control unit 13 can control the spray amount of the stagnant water by controlling the opening degree of the spray flow control valve 10 . By increasing the spray amount of the stagnant water in this way, it is possible to expedite the discharge of the stagnant water in the pipe or the like from the nozzle portion 21 . Therefore, the mist user can use the mist warmed in the mist device 100 early.

Step S13: The mist control unit 13 acquires the temperature of the mist water from the temperature sensor 88, and when the temperature of the mist water exceeds the predetermined value (Yes in step S13), the process proceeds to step S14. On the other hand, when the temperature of the mist water is less than the predetermined value (No in step S13), the mist control unit 13 waits until the temperature of the mist water reaches or exceeds the predetermined value, and continues spraying the stagnant water. The predetermined value is, for example, a temperature at which the mist user feels comfortable, and is, for example, 28°C.

Here, the mist controller 13 may output a notification to that effect to the notification unit 15 when the temperature of the mist water reaches or exceeds a predetermined value. Then, the notification unit 15 may notify the user that the temperature of the mist water has reached or exceeded a predetermined value via a speaker (not shown) and a display device (not shown). Since the user is notified when the temperature of the mist reaches or exceeds a predetermined value, the user can know that the accumulated water has been discharged and the mist can be used comfortably.

Step S14: When the mist temperature reaches or exceeds a predetermined value, the mist control unit 13 controls the changeable louver 97 based on the setting of the louver angle of the changeable louver 97 if the reception unit 19 has received the setting of the louver angle. Thereby, mist can be provided to the user at a desired louver angle.
In addition, if the reception unit 19 receives the mist spray amount in the mist operation, the mist temperature, the air heating temperature in the air heating heat exchanger 95, etc., the mist control unit 13 control. As a result, mist can be provided to the user at a desired spray amount, temperature, and air temperature.

Step S15: The mist control unit 13 determines whether or not the set time has elapsed since the start of the mist operation when the operation time of the mist operation is set. If the set time has passed since the start of the mist operation (Yes in step S15), the mist control unit 13 ends the mist operation. Otherwise (No in step S15), the mist control unit 13 continues the mist operation.

According to the present embodiment described above, in the initial operation immediately after the start of the mist operation, the mist control unit 13 has the variable movable louver so that the liquid is sprayed in the direction in which the probability of existence of the user in the bathroom Y is low. Controls 97 louver angles. Therefore, it is possible to suppress the cold, unheated water remaining in the pipes or the like from splashing on people in the bathroom Y, thereby suppressing the discomfort felt by the user of the mist. In addition, it is possible to prevent the user from being splashed with stagnant water in which bacteria or the like may be generated.

[Other embodiments ]

( 1 ) In the above embodiment, as shown in FIGS. 1, 4, 5, etc., the nozzle portion 21 extends from the ceiling Yc between the bathtub space Ya and the washing space Yb toward the washing space Yb. slanted and protruding. Also, the changeable movable louver 97 is provided so as to be adjacent to the nozzle unit 2 on the washing space Yb side of the nozzle unit 2 . However, the arrangement relationship between the nozzle unit 2 and the changeable movable louver 97 is not limited to this.

For example, the nozzle unit 2 and the changeable movable louver 97 may be arranged as shown in FIGS. 8 to 10. FIG. 8 to 10, the tip of the nozzle portion 21 of the nozzle unit 2 protrudes downward from the ceiling Yc of the washing space Yb toward the washing space Yb immediately below. In addition, the changeable movable louver 97 is arranged in the washing space Yb similarly to the nozzle unit 2, and is provided so as to be adjacent to the nozzle unit 2 on the side farther from the bathtub space Ya than the nozzle unit 2. .

In the arrangement as described above, as shown in FIG. 8, if the changeable movable louver 97 is inclined in a direction that does not block the spray range φb1 of the stagnant water sprayed from the nozzle portion 21, then the spray in the washing space Yb will occur. If a user exists within the range φb1, the user will be splashed with stagnant water.
Therefore, the mist control unit 13 refers to the storage unit 14 as shown in FIG. move. Specifically, the mist control unit 13 inclines the changeable movable louver 97 in a direction that blocks at least part of the spray range φb1 (see FIG. 8) of the stagnant water from the nozzle unit 21 . As a result, the spray range of the stagnant water is reduced to φb2 (<φb1), and it is possible to suppress the splashing of the stagnant water on the user present in the washing space Yb.
Further, as shown in FIG. 10, the mist control unit 13 refers to the storage unit 14 and rotates the changeable louver 97 so that the liquid is sprayed in the direction in which the probability of existence of the user in the bathroom Y is low. and drives the circulation fan 94 . As a result, the spray range of the stagnant water is reduced to φb3 (<φb1), and the stagnant water is flowed toward the bathtub space Ya, thereby preventing the user in the washing space Yb from being splashed with the stagnant water.

( 2 ) In the above embodiment, the mist device 100 of a hot water supply direct connection system was taken as an example, but the mist device 100 can also be applied to a hot water circulation system. In the hot water circulation method, the heat exchanger in the mist device exchanges heat between the hot water for high temperature heating (e.g. 80 ° C) as a heat medium sent from the heat source machine and the water supply to heat the water supply in the device, In this method, a mist operation is performed in which hot water thus obtained is sprayed from the nozzle portion 21 in the form of a mist. That is, the heat medium heated by the heat source device 1 is different from the hot water supplied to the nozzle section 21 , and the heat source device 1 can be operated in a state in which only a small amount of hot water is supplied to the nozzle section 21 .

( 3 ) In the above embodiment, the circulation unit 70 heats the inside air with hot water heated and supplied by the heat source device 1 that generates hot water for the mist operation and the hot water supply operation. may heat the inside air using another heat source machine different from the heat source machine 1 .

( 4 ) In the above embodiment, the mist device 100 having the “ceiling installation type” mist unit 90 installed in the ceiling of the bathroom Y is illustrated, and the nozzle unit 2 is directed into the bathroom Y from the ceiling Yc of the bathroom Y. An example is provided for
However, the mist device may have a “wall-mounted” mist unit installed on the wall of the bathroom Y, and the nozzle unit 2 may be provided toward the inside of the bathroom Y from the wall of the bathroom Y.

( 5 ) In the above embodiment, when viewed from the bathroom Y side, 13 nozzles 21 are arranged in a straight line at the same intervals, and arranged in two parallel lines. did.
However, the nozzle portions 21 are not limited to being arranged at the same intervals. The nozzle portions 21 may be arranged at uneven intervals. Alternatively, they may be arranged in a combination of a plurality of predetermined intervals.
Moreover, it is not limited to the case where the nozzle portions 21 are arranged in a straight line. In some cases, the nozzle portions 21 are arranged in a curved line.
Moreover, when the nozzle portions 21 are arranged in a straight line or a curved line, they may be arranged in one row, two rows, or three or more rows.

( 6 ) The nozzle part 21 can also be configured so that each direction can be adjusted. In this case, the flow rate of the mist water supplied to the nozzle portion 21 where the ejected mist water hits the user well is reduced, and the mist water supplied to the nozzle portion 21 where the ejected mist water does not hit the user is reduced. The flow rate may be increased. As a result, it is possible to improve the sensibility of the user who enjoys the mist bath.

( 7 ) In the above-described embodiment, the mist device 100 is used in the bathroom Y, but it can also be used in a sauna room or other space.

( 8 ) In the above-described embodiment, the changeable louver 97 has a size capable of covering at least part of the nozzle opening of the nozzle portion 21 of the nozzle unit 2 when rotated toward the nozzle unit 2. It is configured. However, when air is blown out from the air passage 93 as shown in FIG. Even in this case, it is possible to adjust the spray direction of the stagnant water so that the stagnant water does not reach the user by blowing air from the air passage 93 .

The configurations disclosed in the above-described embodiments (including other embodiments, the same shall apply hereinafter) can be applied in combination with configurations disclosed in other embodiments unless there is a contradiction. The embodiments disclosed in this specification are examples, and the embodiments of the present invention are not limited thereto, and can be modified as appropriate without departing from the scope of the present invention.

1: Heat source machine (heating unit)
13: mist control unit 15: notification unit 19: reception unit 21: nozzle unit 66: bathtub 83: temperature sensor 88: temperature sensor (temperature measurement unit)
94: circulation fan (ventilation fan)
97: Changeable movable louver (wind direction changing part)
100: mist device Y: bathroom

Claims (7)

a reception unit that receives from a user a start of mist operation for spraying liquid in the bathroom;
at least one nozzle for spraying liquid into the bathroom;
a heating unit for heating the liquid to be sprayed into the bathroom;
a blower fan for blowing air into the bathroom;
a wind direction changing unit that changes the blowing direction of the wind sent out from the blower fan by changing the angle;
When the reception unit receives the start of the mist operation, in the initial operation immediately after the start of the mist operation, the bathtub space, which is in the direction of the low probability of existence of a user, of the bathtub space and the washing space in the bathroom. A mist control unit that controls the angle of the wind direction changing unit and starts spraying the liquid from the nozzle so that the liquid is sprayed to the side ,
The mist control unit adjusts the spray amount of the liquid sprayed from the nozzle unit to any range of 80% to 100% of the maximum spray amount in the initial operation . The mist control unit controls the angle of the wind direction changing unit in the initial operation so that the blowing direction of the air from the blower fan intersects the spray direction of the liquid from the nozzle unit. 2. The mist device according to 1. In the initial operation, the mist control unit controls the spray direction of the liquid from the nozzle so that the liquid is sprayed in the bathtub space side, which is the direction in which the probability of existence of a user in the bathroom is low. 2. The mist device according to claim 1, wherein the wind direction changing parts are crossed. In the initial operation, the mist control unit adjusts the air volume of the air blown out from the blower fan so that the liquid is sprayed toward the bathtub space side, which is the direction in which the presence probability of users in the bathroom is low. The mist device according to any one of claims 1 to 3. A temperature measuring unit that measures the temperature of the liquid sprayed from the nozzle unit,
In the initial operation, when the temperature of the liquid measured by the temperature measuring unit reaches or exceeds a predetermined value, the mist control unit adjusts the spray amount of the liquid from the nozzle unit to the spray amount received from the user by the reception unit. The mist device according to any one of claims 1 to 4, wherein the mist device is controlled to . A temperature measuring unit that measures the temperature of the liquid sprayed from the nozzle unit,
In the initial operation, when the temperature of the liquid measured by the temperature measuring unit reaches or exceeds a predetermined value, the mist control unit controls the angle of the wind direction changing unit to the angle received from the user by the reception unit. A mist device according to any one of claims 1 to 4 . 7. The mist device according to claim 5 , further comprising a notification unit that notifies when the temperature of the liquid measured by the temperature measurement unit reaches or exceeds a predetermined value in the initial operation .

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