JP4145071B2 - Bath mist equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention comprises a mist spraying means for spraying hot water in a mist toward the bath space,
Ventilation means for ventilating the heated air heated by the heating means toward the bath space, and changing the amount of ventilation;
The present invention relates to a bath mist device provided with control means for executing ventilation rate change control for controlling the operation of the ventilation means so as to change the ventilation rate based on a ventilation rate change command.
[0002]
[Prior art]
Such a bath mist device is configured to eject hot water in a mist form by a mist ejecting means while ventilating heated air heated by a heating means by a ventilation means toward a bath space such as a bathroom. The bather in the bath is configured to obtain a sauna effect by bathing the hot water sprayed in a mist form like a sauna or shower. Hereinafter, hot water jetted in a mist form is simply referred to as mist, and jetting hot water in a mist form may be described as jetting mist.
Conventionally, the mist ejection direction of the mist ejection means and the ventilation direction of the ventilation means are configured to be freely changeable, and based on the direction change command from the command means, the mist ejection direction and the heating air ventilation direction (hereinafter simply referred to as heating air). The control means is configured to change each of them (which may be described as a ventilation direction).
In other words, conventionally, the user can independently command the airflow rate of the heated air (hereinafter sometimes simply referred to as “heated air flow rate”), the mist ejection direction, and the heated air flow direction to be arbitrarily changed by the user. It was.
In other words, the mist ejecting means and the ventilation means are installed in the upper part of the bath space, such as the ceiling part of the bath space and the part near the ceiling side of the side wall part. The ventilation direction is basically adjusted downward, and mist is ejected toward a lower part (hereinafter sometimes referred to as a lower part in the bath space) where the bather is present in the bath space. Then, the heated air is ventilated. When the outside air temperature is low and the amount of heat released from the bath space is large, the amount of heated air is increased. When the outside temperature is high and the amount of heat released from the bath space is small, the amount of heated air is reduced. By adjusting the amount, the atmospheric temperature of the bath space is adjusted.
Furthermore, when taking a bath with the mist ejection direction and the heating air ventilation direction facing downward as described above, for example, when the bath space is a bathroom with a bathtub, a person in the washing area directly hits the heated air or mist. If you prefer to take a bath, adjust the mist ejection direction or heated air ventilation direction so that it is directly directed to the washing area, and if you do not like to be directly exposed to the heated air or take a mist bath, use the mist ejection direction or heated air ventilation. The mist ejection direction and the heated air ventilation direction are changed according to the preference of the bather, for example, by adjusting the direction so that the direction is deviated from the washing area and directed toward the bathtub.
[0003]
[Problems to be solved by the invention]
By the way, in such a bath mist device, since it is necessary to allow a bather in a bathing space such as a bathroom to take a mist, the mist ejecting means usually places the mist on the lower side in the bathing space. It is constructed so as to spout vigorously so as to reach the mist attainment target location, so that the bather is at the mist attainment target location and can take the mist.
On the other hand, the heated air flow rate is adjusted to adjust the atmospheric temperature of the bath space.
[0004]
Conventionally, since the heating air flow rate, the mist ejection direction, and the heating air ventilation direction can be independently changed, adjustment of the mist ejection direction and the heating air ventilation direction with respect to the heating air ventilation rate can be performed for baths. It is difficult to maintain the atmosphere temperature at the lower part of the space so that it can be exposed to mist with good sensibility, and the temperature at the lower part of the bath space is appropriately adjusted depending on the amount of heated air flow. There was a problem that it was difficult to maintain and the mist could not be taken well.
[0005]
As described above, the heating air flow rate is adjusted so as to increase when the heat dissipation amount of the bath space is large and to decrease when the heat dissipation amount is small as described above, and the mist ejection direction and the heating air ventilation direction are Regardless of the amount of heated air flow, the temperature is simply adjusted separately toward the target position for reaching the mist.
And since mist is ejected vigorously as mentioned above, it reaches | attains a mist attainment target location. However, although the heated air easily reaches the mist target position when the air flow is large, it is difficult to reach the mist target position when the air flow is small, and when the heated air easily reaches the mist target position, the bath space Since it is easy to maintain the atmospheric temperature of the inner lower side part appropriately, the bather in the lower part of the bath space is likely to take mist with good sensibility, but when the heated air is difficult to reach the target position of mist, Bathers in the lower part of the bath space feel cold, making it difficult to properly maintain the atmospheric temperature in the lower part of the bath space and making it difficult to be exposed to mist.
[0006]
The present invention has been made in view of such circumstances, and an object of the present invention is to provide a bath mist device that allows easy exposure to mist regardless of changes in the ventilation rate of heated air.
[0007]
[Means for Solving the Problems]
  [Invention of Claim 1]
  The characteristic configuration according to claim 1 is configured such that one or both of the mist ejection direction of the mist ejection means and the ventilation direction of the ventilation means can be changed and operated.
  In accordance with the ventilation amount change control, the control means has a relationship between the mist ejection direction and the ventilation direction in the ventilation amount.Set according toIt is configured to execute direction adjustment control to change one or both of the mist ejection direction and the ventilation direction so as to be in a relationship.,and,
  As the direction adjustment control, when the ventilation rate is a set small ventilation rate, the mist ejection target and the ventilation direction cause the mist reaching target for the hot water sprayed in a mist shape to reach the bath space. When the air flow rate is a set large air flow rate that is larger than the set small air flow rate so as to intersect each other before reaching the location, the mist ejection direction and the air flow direction may reach the mist arrival target location. It is comprised so that either one or both of the said mist ejection direction and the said ventilation direction may be changed so that it may not cross | intersect.There is.
  According to the characteristic configuration of the first aspect, the control means performs the mist ejection in accordance with the ventilation amount change control for controlling the operation of the ventilation means so as to obtain the ventilation amount according to the ventilation amount change command. Change one or both of the mist ejection direction and the heated air ventilation direction so that the relationship between the direction and the heated air ventilation direction becomes a relationship according to the heated air ventilation rate adjusted by the ventilation rate change control. Execute orientation adjustment control.
  That is, the inventors of the present invention appropriately maintain the atmospheric temperature in the lower part of the bath space where the bather is present in the bath space, regardless of the amount of ventilation of the heated air. In order to allow the bather in the bath to be exposed to mist with good sensibility, we have intensively researched, and in the relationship between the mist ejection direction and the heated air ventilation direction, the atmosphere temperature at the lower side in the bath space is appropriately set. The relationship which can maintain and can make the bather who exists in the lower side location in the bath space to be exposed to mist with good body sensibility was found according to the heated air flow rate.
  For example, when the heated air flow rate is so small that it is difficult for the heated air alone to reach the mist reach target location, the mist ejection direction and the heated air ventilation direction should intersect before reaching the mist reach target location. Then, it becomes possible to put the heated air on a strong mist to reach the mist arrival target location, and it becomes possible to appropriately maintain the atmospheric temperature at the lower side location in the bath space, The bather in the lower part of the bath space can take a mist with a good sensory feeling without feeling a feeling of cold, even though the heated air flow rate is small.
  In addition, when the temperature of the entire area of the bath space is low and the amount of heat dissipated in the bath space is particularly large, such as at the start of ventilation of heated air, the amount of heated air ventilation is particularly increased. In particular, when the mist ejection direction and the heated air ventilation direction are widened at the ejection destination, the heated air intensively reaches the target position of the mist because the momentum of the heated air is promoted by the mist. It is possible to suppress the passage of air, and it is possible to appropriately maintain the atmospheric temperature in the lower part of the bath space, so that the bather in the lower part of the bath space has a heated air flow rate. Although it is particularly large, the feeling of feeling too hot is suppressed, and the mist can be bathed with good body sensibility.
  And the mist ejection found as described above as a relationship suitable for the amount of heated air flow in order to maintain the atmospheric temperature at the lower part in the bath space appropriately so that the mist can be bathed with good sensibility The relationship between the direction and the heated air flow direction is set in advance according to the heated air flow rate.
  And the relationship between the mist ejection direction and the heated air ventilation direction was set according to the heated air ventilation amount so that the atmosphere temperature at the lower part in the bath space can be appropriately maintained and the mist can be bathed with good sensibility. In accordance with the air flow rate change control, the control means executes direction adjustment control to change either one or both of the mist ejection direction and the heated air flow direction according to the heated air flow rate. By doing so, it is possible to appropriately maintain the atmospheric temperature at the lower side in the bath space regardless of the change in the heated air flow rate, and to easily take the mist with good sensibility.
  Therefore, it has become possible to provide a bath mist device that can be easily exposed to mist regardless of changes in the amount of heated air.
  In addition, as a direction adjustment control, the control means performs heating so that the mist ejection direction and the heating air ventilation direction intersect before reaching the mist arrival target position when the heating air ventilation amount is the set small ventilation amount. When the air flow rate is a set large air flow rate that is larger than the set small air flow rate, the mist ejection direction and the heated air ventilation are set so that the mist ejection direction and the heated air ventilation direction do not intersect before reaching the mist target position. Change one or both of the directions.
In other words, when the amount of heat released in the bath space is large, it is instructed to set the heated air flow rate to the set large flow rate, and when the heated air flow rate is the set large flow rate, the mist ejection direction And the heated air ventilation direction do not intersect before reaching the mist target position, the heated air can reach the mist target position by its own momentum, Since it becomes possible to maintain the atmospheric temperature of a side location appropriately, the bather who exists in the lower side location in the bath space can take a mist with a good body feeling. Incidentally, when the mist ejection means and the ventilation means are provided close to each other, it is preferable that the mist ejection direction and the heated air ventilation direction are determined to be parallel.
On the other hand, when the amount of heat released from the bath space is small, it is instructed to set the heated air flow rate to the set small flow rate, and when the heated air flow rate is set to the set small flow rate, By crossing the direction and the heated air ventilation direction before reaching the mist target position, the heated air is heated while the heated air and the mist are brought into contact with each other to efficiently heat the mist with the heated air. Since it is possible to reach the target position of the mist by placing it on a strong mist, it is possible to maintain the atmosphere temperature at the lower part of the bath space appropriately. The bather in the place can take a mist with good sensation without feeling cold even though the heated air flow rate is small.
Therefore, a preferred specific configuration can be provided in order to make it easy to bathe mist with high sensibility regardless of the change in the air flow rate of the heated air.
[0008]
  [Invention of Claim 2]
  The characteristic configuration according to claim 2, wherein the mist ejection direction or the ventilation direction is artificially determined.By simple operationThere is a direction setting part to change and set,
  The control means is configured to execute the direction adjustment control in a state where the mist ejection direction or the ventilation direction is set to a direction set by the direction setting unit.
  According to the characteristic configuration of the second aspect, the control means sets the mist ejection direction and the heated air ventilation direction in a state where the mist ejection direction or the heated air ventilation direction is set to the direction set by the direction setting unit. The mist ejection direction or the heated air ventilation direction is changed so that the relationship is maintained in a relationship corresponding to the heated air ventilation rate.
  In other words, the mist ejection direction or the heated air ventilation direction can be changed in any direction of the bather, so that the bather directly hits the heated air, does not hit the heated air directly, It is possible to avoid direct exposure to mist. In addition, even if the mist ejection direction or the heated air ventilation direction is changed in such a manner, the relationship between the mist ejection direction and the heated air ventilation direction maintains the atmospheric temperature at the lower side in the bath space appropriately, so that the mist can be experienced. Since the relationship set according to the heated air flow rate is maintained so that it can be bathed well, the mist can be maintained by appropriately maintaining the ambient temperature in the lower part of the bath space regardless of the change in the heated air flow rate. It is possible to make it easy to bathe with good sensibility.
  Therefore, since the mist ejection direction or the heated air ventilation direction can be changed in any direction of the bather, the mist can be easily enjoyed regardless of the change in the ventilation amount of the heated air, and the usability is further improved. It became possible to improve.
[0010]
  [Claims3Description of Invention]
  Claim3The characteristic configuration described in the above is provided with a temperature detecting means for detecting the temperature of the bath space,
  The control means sets the ventilation amount to the set small ventilation amount so that the detected temperature of the temperature detection means becomes a set temperature, and the mist ejection direction and the ventilation direction are reached until the mist arrival target location is reached. A small air flow amount state that intersects with the mist, and a large air flow amount state that causes the air flow amount to be the set large air flow amount and that the mist ejection direction and the air flow direction do not intersect before reaching the mist arrival target location. It is to be configured to switch to.
  Claim3According to the characteristic configuration described in (1), the control means sets the heating air flow rate to the set small ventilation rate so that the detected temperature of the temperature detection means becomes the set temperature, and the mist ejection direction and the heating air ventilation direction reach the mist. Make sure that the small ventilation rate that intersects before reaching the target location, the heating air ventilation rate is set to a large ventilation rate, and that the mist ejection direction and the heated air ventilation direction do not intersect before reaching the mist arrival target location Switch to the state of large air flow.
  In other words, when the heated air flow rate is the set small flow rate, the mist ejection direction and the heated air flow direction are crossed before reaching the mist arrival target location, and the heated air flow rate is equal to the set large flow rate. When the mist ejection direction and the heated air ventilation direction do not intersect before reaching the mist arrival target location, the heated air flow rate should be set so that the temperature of the bath space is maintained at the set temperature. Since the air volume and the set small air volume can be switched, the temperature of the bath space is maintained at the set temperature. It will be properly maintained to facilitate.
  Therefore, while the temperature of the bath space is maintained at the set temperature, the atmosphere temperature at the lower part of the bath space is appropriately maintained so that the mist can be easily bathed regardless of the change in the amount of heated air flow. The quality of the sensibility when taking a bath can be further improved.
[0011]
  [Claims4Description of Invention]
  Claim4In the characteristic configuration described in (1), the control unit is configured to be freely changeable between an automatic orientation adjustment mode and a normal mode. In the automatic orientation adjustment mode, the control unit executes the orientation adjustment control, and the normal mode. In the present invention, either or both of the mist ejection direction and the ventilation direction are changed based on a direction change command.
  Claim4In the automatic direction adjustment mode, the control means is adapted to execute the ventilation amount change control for controlling the operation of the ventilation means so that the ventilation amount is in accordance with the ventilation amount change command. The mist ejection direction and the heated air ventilation direction so that the relationship between the mist ejection direction and the heated air ventilation direction is adjusted according to the ventilation volume change control. Both are changed, and in the normal mode, one or both of the mist ejection direction and the heated air ventilation direction are changed based on the direction change command.
  In other words, in the automatic direction adjustment mode, the relationship between the mist ejection direction and the heated air ventilation direction is automatically adjusted so as to be a relationship according to the heated air ventilation rate. In the normal mode, the mist ejection direction and the heated air are adjusted. Either or both of the ventilation directions can be changed and adjusted in any direction regardless of the relationship according to the amount of the heated air.
  Therefore, not only the mode in which the relationship between the mist ejection direction and the heating air ventilation direction is automatically adjusted so as to become a relationship according to the heating air ventilation amount, but either one of the mist ejection direction and the heating air ventilation direction. Since one or both of them can be operated in a form that can be changed and adjusted in any direction regardless of the relationship according to the amount of heated air, the usability can be further improved. It was.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
An example in which the bath mist device according to the present invention is incorporated in a bathroom air conditioner will be described with reference to the drawings.
As shown in FIG. 1, the bathroom air conditioner is installed in the bathroom 1 as a bath space, and is supported by the apparatus main body 3 including the circulation fan 2 and the movable louver 15 (see FIG. 2), and the apparatus main body 3. The mist injection part 4 (refer FIG. 2) as a mist injection means, the control part 5 (refer FIG. 4) as a control means which controls the operation state of the circulation fan 2 and the mist injection part 4, etc. are comprised.
[0013]
As shown in FIGS. 2 to 4, the apparatus main body 3 is installed suspended and supported by the suspension support 7 on the opening 6 a of the ceiling 6 in a state of entering the back of the ceiling of the bathroom 1. In the installed state, the mist ejection part 4 is supported on the surface side portion of the ceiling 6, and a grill plate 8 is provided inside the bathroom 1 to cover the apparatus main body part 3 on which the mist ejection part 4 is supported. And the mist injection part 4 are comprised integrally.
And the apparatus main-body part 3 is installed in the location corresponded to the upper part of the bathtub A in the bathroom 1, the function which heats the inside of the bathroom 1, the function which dries the inside of the bathroom 1, and the function which circulates and ventilates the air in the bathroom 1 It is configured to have a function of ventilating the bathroom 1.
In addition, the grill plate 8 is provided with a plurality of mists for injecting mists at positions corresponding to the plurality of ejection nozzles 4 b provided in the mist ejection part 4 by arranging the intake ports 9 and the ejection ports 10 in parallel. A spout 11 is formed.
[0014]
The apparatus main body 3 has a circulation ventilation path 12 for sucking the air in the bathroom 1 through the air inlet 9 and blowing the air through the outlet 10 in the main body casing 3 a, and the ventilation action on the circulation ventilation path 12. A circulating fan 2, a heat exchanger 13 as a heating means for heating the air passing through the circulating ventilation path 12, a thermal valve 14 for intermittently supplying hot water from the heat source unit G to the heat exchanger 13, A movable louver 15 capable of changing the blowing direction of the air blown out through the blow-out port 10, a ventilation fan 17 that sucks air in the bathroom 1 and exhausts it outside through the exhaust duct 16, and the like.
[0015]
That is, the circulation fan 2 is operated, the thermal valve 14 is opened, hot water as a heat medium is supplied to the heat exchanger 13, and the air sucked from the bathroom 1 through the air inlet 9 is received by the heat exchanger. It is configured to heat and vent into the bathroom 1 through the outlet 10.
Moreover, the movable louver 15 is configured to be an electric type that changes the direction of air blown into the bathroom 1 by the ventilation electric motor M.
[0016]
The circulation fan 2 is constituted by a cross flow fan that rotates around a horizontal axis and performs both suction and exhaust of air along a direction orthogonal to the rotation axis, and covers almost the entire width in the rotation axis direction. The air in the bathroom 1 is sucked through the heat exchanger 13 over a wide range, and the air heated by the heat exchanger 13 is blown out from the outlet 10 to the bathroom 1.
The ventilation fan 17 rotates around the axis of the vertical axis, sucks air from the lower side of the fan case 17a, and passes the air toward the exhaust duct 16 through the discharge port 18 formed on the lateral side surface of the main body casing 3a. It is configured to ventilate.
[0017]
The circulation fan 2 is configured such that the ventilation amount of the air that is ventilated in the bathroom 1 is changed by changing the drive voltage of the motor that rotates the circulation fan 2, and the air that is ventilated in the bathroom 1. Is configured to be changed to a set large ventilation amount (strong state) and a set small ventilation amount (weak state) smaller than the set large ventilation amount.
[0018]
That is, the circulation fan 2, the circulation ventilation path 12, the heat exchanger 13, the movable louver 15, and the like constitute the ventilation means T, and the ventilation means T is configured so that the ventilation amount and the ventilation direction can be changed and operated. is there.
[0019]
The mist ejection part 4 includes a straight tubular hot water supply pipe 4a and a plurality of ejection nozzles 4b arranged at intervals in the longitudinal direction of the hot water supply pipe 4a. A mist electric motor 19 is provided for changing the jet direction of the jet nozzle 4b by rotating the nozzle.
And the mist ejection part 4 is comprised so that the warm water supplied from the heat source machine G may be ejected in the shape of a mist toward the bathroom 1 from the ejection nozzle 4b.
[0020]
As shown in FIG. 8, the hot water supply pipe 4a is suspended and supported at both ends by a support L or the like that is screwed to the main body casing 3a, and is attached to the downstream end of the hot water supply pipe 4a. The hot water supply pipe 4a is supported by the mist electric motor 19 so as to be rotatable around the horizontal axis.
When the explanation is added, the upstream end of the hot water supply pipe 4a is connected to the L-shaped connecting pipe 4c and an O-ring seal, and is screwed to the hanging member L1 screwed to the main body casing 3a and the hanging member L1. The L-shaped connecting pipe 4c is supported by the receiving member L2.
The downstream end of the hot water supply pipe 4a is supported by a suspension member L1 screwed to the main body casing 3a and a motor cover 19a of the mist electric motor 19 screwed to the suspension member L1. I am doing so.
[0021]
As shown in FIG. 4, a temperature that is located in the vicinity of the air inlet 9 in the circulation ventilation path 12 and detects the temperature of the air in the bathroom 1 sucked into the air inlet 9 as the temperature in the bathroom 1 as a bath space. A bathroom thermistor 20 is provided as detection means.
[0022]
As shown in FIGS. 2 and 3, a hot water thermistor 22 that detects the temperature of the hot water flowing through the hot water supply passage 21 from the upstream side is provided in the hot water supply passage 21 from the heat source machine G to the mist ejection unit 4. A hot water supply intermittent valve 23 for interrupting the supply of hot water to the mist ejection part 4 is provided.
Further, a hot water discharge passage 24 for discharging hot water remaining in the hot water supply passage 21 is branched between the hot water thermistor 22 and the hot water supply intermittent valve 23 in the hot water supply passage 21 and remains there. The hot water is discharged into the bathroom 1 or outdoors.
[0023]
Operations of the apparatus main body 3 and the heat source unit G are controlled by a control unit 5 using a microcomputer, and a remote control operation unit R capable of communicating with the control unit 5 in both directions is a dressing room adjacent to the bathroom A. And in kitchens.
As shown in FIG. 4, the remote control operation unit R is commanded to the heating operation switch 25 for instructing the preheating operation mode and the bathing heating operation mode, the ventilation operation switch 26 for instructing the ventilation operation mode, and the drying operation mode. Drying operation switch 27, cool air operation switch 28 instructing cool air operation mode, mist operation switch 29 instructing mist operation mode, strong heating mist simultaneous operation switch 30 instructing strong heating mist simultaneous operation mode, and weak heating mist simultaneous operation A weak heating mist simultaneous operation switch 31 for instructing a mode, an automatic direction adjustment switch 32 for instructing an automatic direction adjustment mode in each of a strong heating mist simultaneous operation mode and a weak heating mist simultaneous operation mode, and a temperature controlled heating mist simultaneous operation mode instructed Temperature control heating mist simultaneous operation switch 33, each heating mist simultaneous There are provided a hot air ventilation direction setting switch 34 for changing and setting the circulating air ventilation direction (corresponding to the heating air ventilation direction) in rotation, a mist ejection direction setting switch 35 for changing and setting the mist ejection direction in each heating mist simultaneous operation. ing.
[0024]
The control operation of the control unit 5 will be described.
In the present invention, a heating operation in which circulating air (corresponding to heated air) heated by the heat exchanger 13 is blown out from the outlet 10 into the bathroom 1 by the circulation fan 2, and hot water is introduced into the bathroom 1 by the mist outlet 4. In the heating mist simultaneous operation in which the mist operation for simultaneously discharging the mist is performed, the control unit 5 controls the operation of the circulation fan 2 so as to change the circulating air flow rate based on the flow rate change command. Change one or both of the mist ejection direction and the circulating air ventilation direction so that the relationship between the mist ejection direction and the circulating air ventilation direction is in accordance with the circulating air ventilation volume according to the volume change control. It is comprised so that direction adjustment control to perform may be performed.
[0025]
In the present embodiment, the control unit 5 determines the mist ejection direction and the circulating air ventilation direction as directions set by the mist ejection direction setting switch 35 and the hot air ventilation direction setting switch 34, respectively. In this state, the direction adjustment control is executed.
In addition, as the direction adjustment control, when the circulating air flow rate is the set small ventilation amount, the control unit 5 intersects the mist ejection direction and the circulating air ventilation direction until the mist reaching target position is reached. When the circulating air flow rate is larger than the set small air flow rate so as to intersect at a set crossing angle set so as to be, the mist ejection direction and the circulating air ventilation direction are the mist arrival directions. One or both of the mist ejection direction and the ventilation direction are changed so as not to intersect before reaching the target location.
Further, the control unit 5 is configured to be freely changeable between an automatic direction adjustment mode and a normal mode. In the automatic direction adjustment mode, the control unit 5 executes the direction adjustment control, and in the normal mode, the mist ejection is performed. The mist ejection direction and the circulating air ventilation direction are each changed based on direction change commands by the direction setting switch 35 and the hot air ventilation direction setting switch 34, respectively.
[0026]
The control operation of the control unit 5 will be described in detail.
Based on a command from the remote controller operation unit R, the control unit 5 executes the preheating operation when the heating operation switch 25 is pressed once to enter the preheating operation mode, and the heating operation switch 25 is pressed twice to bathe. In the middle heating operation mode, a heating operation during bathing is executed, a ventilation operation is executed when the ventilation operation switch 26 is turned ON, a drying operation is executed when the drying operation switch 27 is turned ON, and a cool air operation switch 28 is operated. When is turned on, a cool wind operation is executed.
Further, when the mist operation switch 29 is turned on, the mist operation is executed.
[0027]
In addition, when the strong heating mist simultaneous operation switch 30 and the automatic direction adjustment switch 32 are turned on based on a command from the remote controller operation unit R, the control unit 5 performs the strong heating mist simultaneous operation in the automatic direction adjustment mode. When the strong heating mist simultaneous operation switch 30 is turned on, the strong heating mist simultaneous operation in the normal mode is executed, and when the weak heating mist simultaneous operation switch 31 and the automatic direction adjustment switch 32 are turned on. When the weak heating mist simultaneous operation in the automatic orientation adjustment mode is executed and only the weak heating mist simultaneous operation switch 31 is turned ON, the weak heating mist operation in the normal mode is executed and the temperature controlled heating mist simultaneous operation switch When 33 is turned on, the temperature-controlled heating mist simultaneous operation is executed.
[0028]
Further, in each operation, the control unit 5 adjusts the blowing direction of the air from the movable louver 15, that is, the circulating air ventilation direction, and a rotary encoder (not shown) provided in the ventilation electric motor M. When the operation of the electric motor M for ventilation is controlled based on the detected information and the mist ejection direction by the ejection nozzle 4b is adjusted, the rotary encoder (not shown) provided in the mist electric motor 19 is used. On the basis of the detected information, the operation of the mist electric motor 19 is controlled.
[0029]
In the preliminary heating operation, as shown in FIG. 4, the ventilation fan 17 is stopped and the circulation fan 2 is operated, and the temperature in the bathroom 1 is set based on the temperature detected by the bathroom thermistor 20. The hot water as a heat medium is circulated and supplied to the heat exchanger 13 by controlling the opening and closing of the thermal valve 14 so that the circulating air heated by the heat exchanger 13 is supplied from the outlet 10 to the bathroom 1. It blows out inside.
Then, the circulation fan 2 is operated in a strong state so that the ventilation rate of the air ventilated in the bathroom 1 becomes the set large ventilation rate, and the movable louver 15 is swung by the ventilation motor M. Yes.
[0030]
As shown in FIG. 4, the heating operation during bathing is performed by stopping the ventilation fan 17 and operating the circulation fan 2, as shown in FIG. 4, and based on the detected temperature of the bathroom thermistor 20. The heating valve 14 is controlled to open and close so that the temperature inside is maintained at a preset temperature for preheating, and hot water as a heat medium is circulated and supplied to the heat exchanger 13, and is heated by the heat exchanger 13. The circulated air is blown out from the outlet 10 into the bathroom 1.
Then, the circulation fan 2 is operated in a weak state so that the ventilation rate of the air ventilated in the bathroom 1 becomes the set small ventilation rate, and the movable louver 15 is swung by the ventilation electric motor M. ing.
[0031]
As shown in FIG. 5, in the ventilation operation, the ventilation fan 17 is operated and the movable louver 15 is closed in a state where the operation of the circulation fan 2 is stopped and the thermal valve 14 is maintained in the closed state. In addition, the operating state of the movable louver 15 is adjusted by the ventilation electric motor M so that the air sucked from the bathroom 1 is exhausted.
[0032]
In the drying operation, as shown in FIG. 4, the circulation fan 2 is operated, and the temperature in the bathroom 1 is maintained within the set temperature range for drying based on the detected temperature of the bathroom thermistor 20. While controlling the opening and closing of the thermal valve 14 to circulate and supply hot water as a heat medium to the heat exchanger 13, the ventilation fan 17 is activated and a part of the air sucked from inside the bathroom 1 is outdoors through the exhaust duct 16. The circulating air heated by the heat exchanger 13 is blown into the bathroom 1 from the blowout port 10 while being discharged.
The direction of the movable louver 15 is adjusted by the ventilation electric motor M so that the ventilation direction of the circulating air into the bathroom 1 is almost directly below the drying ventilation direction.
[0033]
That is, the air heated through the circulation ventilation path 12 is blown out in the direction directly below the drying object such as clothes that are suspended and supported on the upper part of the bathtub A by the locking tool.
Then, moist air containing moisture evaporating from the dry object is sucked from the air inlet 9, and a part thereof is exhausted to the outside by the ventilation fan 17, and then heated by the heat exchanger 13 to be returned to the bathroom 1 again. I try to blow it out.
In this way, a part of the air in the bathroom 1 is discharged to the outside, and the drying object D is dried by heating while circulating the air in the bathroom 1.
[0034]
As shown in FIG. 4, in the cool air operation, the circulation fan 2 is operated in a state where the thermal valve 14 is kept closed, and the ventilation fan 17 is operated so that a part of the air sucked from the bathroom 1 is operated. The air sucked out from the bathroom 1 is blown out into the bathroom 1 through the circulation ventilation path 12 without heating.
And the direction of the movable louver 15 is adjusted by the electric motor M for ventilation so that the air ventilation direction into the bathroom 1 becomes the ventilation direction for cool air (for example, the direction facing the washing place B).
[0035]
As shown in FIG. 6, in the mist operation, the hot water supply intermittent valve 23 is opened so that the hot water supplied from the heat source machine G to the mist ejection section 4 is ejected from the ejection nozzle 4b as a mist, and the mist ejection direction. The mist electric motor 19 is operated so that becomes the direction set by the mist ejection direction setting switch 35. Incidentally, the mist ejection direction is configured to be changed by operating the mist electric motor 19 and rotating the hot water supply pipe 4a around the horizontal axis to change the ejection direction of the ejection nozzle 4b. Yes.
[0036]
In the high-heating mist simultaneous operation in the automatic direction adjustment mode, as shown in FIG. 7 (a), the ventilation fan 17 is stopped and the circulation fan 2 is operated in a strong state in which the ventilation rate becomes the set large ventilation rate. The circulating air heated by the heat exchanger 13 is blown into the bathroom 1 from the outlet 10 and the hot water supply intermittent valve 23 is opened so that the hot water supplied from the heat source unit G to the mist outlet 4 is mist. And the operation of one or both of the ventilation electric motor M and the mist electric motor 19 so that the mist ejection direction and the circulating air ventilation direction are parallel to each other. And the opening and closing of the thermal valve 14 is controlled so that the detected temperature of the bathroom thermistor 20 is maintained at the set temperature for mist heating.
[0037]
Incidentally, when the simultaneous operation of the strong heating mist in the automatic orientation adjustment mode is started, the operation of the mist electric motor 19 is performed so that the mist ejection direction is parallel to the circulating air ventilation direction at the start. To control.
Further, during the simultaneous operation of the strong heating mist in the automatic direction adjustment mode, if the change of the circulating air ventilation direction is commanded by the hot air ventilation direction setting switch 34, the ventilation air flow is set so that the commanded circulating air ventilation direction is obtained. The operation of the electric motor M for mist is controlled, and the operation of the electric motor 19 for mist is controlled so that the mist ejection direction and the circulating air ventilation direction are maintained in parallel with the change of the circulating air ventilation direction. Control to adjust the mist ejection direction.
In addition, when a change in the mist ejection direction is commanded by the mist ejection direction setting switch 35 during the simultaneous operation of the strong heating mist in the automatic direction adjustment mode, the mist electric motor is set so that the commanded mist ejection direction is obtained. The operation of the ventilation electric motor M is controlled so that the mist ejection direction and the circulating air ventilation direction are maintained in parallel with the change in the mist ejection direction. Adjust the direction of circulating air blowing.
[0038]
That is, in the strong heating mist simultaneous operation in the automatic direction adjustment mode, as shown in FIG. 9A, the mist and the circulating air heated by the heat exchanger 13 are set in parallel with each other so that the mist ejection direction is set. It will be ejected in the direction set by the switch 35 or the hot air ventilation direction setting switch 34, for example, toward the mist reaching target location set in the washing place B or the like.
Therefore, it becomes possible to cause the circulating air to reach the mist reach target location by its own momentum, and it becomes possible to appropriately maintain the atmospheric temperature of the washing place B etc. which is the lower side location in the bath space, The bather in the lower part of the bath space can take a mist with good physical sensitivity.
[0039]
In the normal heating mist simultaneous operation in the normal mode, the ventilation fan 17 is stopped and the circulation fan 2 is operated in a strong state where the ventilation amount becomes the set large ventilation amount, and the circulation air heated by the heat exchanger 13 is operated. While blowing out into the bathroom 1 from the blower outlet 10, the hot water supply intermittent valve 23 is opened, the hot water supplied to the mist spraying part 4 from the heat source machine G is sprayed from the spray nozzle 4b as mist, and the bathroom thermistor 20 The opening / closing of the thermal valve 14 is controlled so that the detected temperature is maintained at the set temperature for mist heating.
[0040]
In addition, when a change in the circulating air ventilation direction is commanded by the hot air ventilation direction setting switch 34 during the simultaneous operation of the strong heating mist in the normal mode, the ventilation motor is operated so that the commanded circulation air ventilation direction is obtained. When the operation of the motor M is controlled and a change in the mist ejection direction is commanded by the mist ejection direction setting switch 35, the operation of the mist electric motor 19 is controlled so that the commanded mist ejection direction is obtained.
[0041]
Simultaneously operating the weak heating mist in the automatic direction adjustment mode, as shown in FIG. 7 (b), the ventilation fan 17 is stopped and the circulation fan 2 is operated in a weak state where the ventilation rate is the set small ventilation rate. The circulating air heated by the heat exchanger 13 is blown into the bathroom 1 from the outlet 10 and the hot water supply intermittent valve 23 is opened to supply hot water supplied from the heat source unit G to the mist outlet 4. Either of the electric motor M for ventilation and the electric motor 19 for mist is ejected from the ejection nozzle 4b as mist and the mist ejection direction and the circulating air ventilation direction intersect at the set intersection angle. One or both operations are controlled, and the opening and closing of the thermal valve 14 is controlled so that the detected temperature of the bathroom thermistor 20 is maintained at the set temperature for mist heating.
[0042]
By the way, at the start of the simultaneous operation of weak heating mist in the automatic direction adjustment mode, the mist ejection direction intersects the circulating air ventilation direction at the start at the set crossing angle. The operation of the electric motor 19 is controlled.
Further, when the warm air ventilation direction setting switch 34 is instructed to change the circulating air ventilation direction during the weak heating mist simultaneous operation in the automatic direction adjustment mode, the ventilation air flow direction is set so as to be in the commanded circulating air ventilation direction. And controlling the operation of the electric motor M, and maintaining the state where the mist ejection direction and the circulating air ventilation direction intersect at the set crossing angle with the change of the circulating air ventilation direction. The operation of the mist electric motor 19 is controlled to adjust the mist ejection direction.
In addition, during simultaneous operation of the weak heating mist in the automatic direction adjustment mode, when a change in the mist ejection direction is commanded by the mist ejection direction setting switch 35, the mist electric motor is set so that the commanded mist ejection direction is obtained. 19, and the change in the mist ejection direction maintains the state where the mist ejection direction and the circulating air ventilation direction intersect at the set intersection angle. The operation of M is controlled to adjust the circulating air ventilation direction.
[0043]
That is, in the weak heating mist simultaneous operation in the automatic direction adjustment mode, as shown in FIG. 9B, the mist and the circulating air heated by the heat exchanger 13 reach the mist reaching target location. So as to intersect with the mist ejection direction setting switch 35 or the hot air ventilation direction setting switch 34, for example, toward the mist arrival target position set in the washing place B or the like.
Accordingly, the circulating air and the mist can be brought into contact with each other to efficiently heat the mist with the circulating air, and the circulating air can be placed on the strong mist to reach the target position of the mist. In addition, since it becomes possible to appropriately maintain the atmospheric temperature of the washing place B, etc., which is the lower part of the bath space, the bather in the lower part of the bath space has a low circulating air flow rate, You can take a mist with a good feeling without feeling cold.
[0044]
In the weak heating mist operation in the normal mode, the ventilation fan 17 is stopped and the circulation fan 2 is operated in a weak state in which the ventilation amount becomes the set small ventilation amount, and the circulating air heated by the heat exchanger 13 is generated. While blowing out into the bathroom 1 from the blower outlet 10, the hot water supply intermittent valve 23 is opened, the hot water supplied to the mist spraying part 4 from the heat source machine G is sprayed from the spray nozzle 4b as mist, and the bathroom thermistor 20 The opening / closing of the thermal valve 14 is controlled so that the detected temperature is maintained at the set temperature for mist heating.
[0045]
In addition, during the simultaneous operation of the weak heating mist in the normal mode, if the change of the circulating air ventilation direction is commanded by the hot air ventilation direction setting switch 34, the ventilation motor is operated so that the commanded circulation air ventilation direction is obtained. When the operation of the motor M is controlled and a change in the mist ejection direction is commanded by the mist ejection direction setting switch 35, the operation of the mist electric motor 19 is controlled so that the commanded mist ejection direction is obtained.
[0046]
That is, it is configured that a ventilation amount change command for changing the ventilation amount by the ventilation means T is instructed by the strong heating mist simultaneous operation switch 30 and the weak heating mist simultaneous operation switch 31.
[0047]
The temperature-controlled heating mist simultaneous operation is performed in the automatic direction adjustment mode so that the temperature detected by the bathroom thermistor 20 is maintained at the set temperature for mist heating while the thermal valve 14 is maintained in the open state. The state is switched between a state operated by the simultaneous heating mist operation (corresponding to the large air flow state) and a state operated by the simultaneous weak heating mist operation in the automatic direction adjustment mode (corresponding to the small air flow state).
[0048]
And the control part 5 is the above-mentioned mist operation, the strong heating mist simultaneous operation in the automatic direction adjustment mode, the strong heating mist simultaneous operation in the normal mode, the weak heating mist simultaneous operation in the automatic direction adjustment mode, and the normal mode In each of the weak heating mist operation and the temperature-controlled heating mist simultaneous operation, when the temperature detected by the hot water thermistor 22 is within the ejection allowable setting range from the allowable ejection lower limit temperature to the allowable ejection upper limit temperature, the hot water to the mist ejection section 4 is The hot water supply intermittent valve 23 is opened so as to allow the supply, and when the temperature detected by the hot water thermistor 22 is outside the allowable jetting setting range, the hot water supply is prevented so as to prevent the hot water from being supplied to the mist ejection unit 4. The intermittent valve 23 is configured to be closed.
In other words, when the temperature detected by the hot water thermistor 22 is lower than the allowable ejection lower limit temperature, the hot water supply intermittent valve 23 is closed and discharged into the bathroom 1 or outside through the hot water discharge passage 24 and detected by the hot water thermistor 22. When the temperature is higher than the allowable ejection upper limit temperature, the hot water supply intermittent valve 23 is closed, an error is displayed on the display unit of the remote control operation unit R, and the mist operation is stopped by an error so that the temperature detected by the hot water thermistor 22 is detected. Mist is ejected only when is within the ejection allowable setting range.
[0049]
In this way, there is a possibility that unpleasant feeling will be given to the bather when the mist is ejected as mist, such as cold remaining hot water remaining in the hot water supply passage 21 at the initial stage of mist operation or hot water that has become abnormally hot for some reason. When there is a mist, it is prevented from being ejected by the bather as a mist.
[0050]
The operation of the control unit 5 will be described based on the flowchart of FIG. Based on the command from the remote control operation part R, preheating operation, heating operation during bathing, ventilation operation, cool air operation, drying operation, mist operation, strong heating mist simultaneous operation in automatic orientation mode, strong heating in normal mode The mist simultaneous operation, the weak heating mist simultaneous operation in the automatic direction adjustment mode, the weak heating mist operation in the normal mode, and the temperature controlled heating mist simultaneous operation are started.
If it adds explanation, the state of the switch of remote control operation part R will be read, and the operation corresponding to the state of the switch will be started.
[0051]
When the heating operation switch 25 is pressed once and a preheating operation mode (hereinafter referred to as an ON state of the preheating operation switch) is instructed, the preheating operation is started (steps 1 and 2). When the set time elapses after the ON state of the operation switch is commanded or the heating operation switch 25 is turned OFF, the preliminary heating operation is terminated.
[0052]
Further, when the heating operation switch 25 is pressed twice to command a heating operation mode during bathing (hereinafter referred to as an ON state of the heating operation switch during bathing), the heating operation during bathing is started (steps 3 and 4). ).
In the heating operation during bathing, when the set time elapses after the ON state of the heating operation switch during bathing is commanded or the heating operation switch 25 is turned OFF, the heating operation during bathing is terminated.
[0053]
When the ventilation operation switch 26 is turned on, the ventilation operation is started (steps 5 and 6). A set time elapses after the ventilation operation switch 26 is turned on, or the ventilation operation switch 26 is turned off. Then, the ventilation operation ends.
When the cool air operation switch 28 is turned on, the cool air operation is started (steps 7 and 8).
In the cool breeze operation, when the set time elapses after the cool breeze operation switch 28 is turned on or the cool breeze operation switch 28 is turned off, the cool breeze operation is terminated.
[0054]
When the drying operation switch 27 is turned on, the drying operation is started (steps 9 and 10). When the mist operation switch 29 is turned on, the mist operation is started (steps 11 and 12).
Regarding the end of each of the dry operation and the mist operation, when the set time elapses after each switch is turned on, or when each switch is turned off, the respective operation is finished.
[0055]
When the strong heating mist simultaneous operation switch 30 and the automatic direction adjustment switch 32 are turned ON, the strong heating mist simultaneous operation in the automatic direction adjustment mode is started, and when only the strong heating mist simultaneous operation switch 30 is turned ON, The simultaneous operation of the strong heating mist in the normal mode is started (steps 13, 14, 15, 16).
In each of the strong heating mist simultaneous operation in the automatic orientation adjustment mode and the strong heating mist simultaneous operation in the normal mode, the set time elapses after the strong heating mist simultaneous operation switch 30 is turned on, or the strong heating mist When the simultaneous operation switch 30 is turned off, each operation is terminated.
[0056]
When the weak heating mist simultaneous operation switch 31 and the automatic direction adjustment switch 32 are turned ON, the weak heating mist simultaneous operation in the automatic direction adjustment mode is started, and when only the weak heating mist simultaneous operation switch 31 is turned ON, The weak heating mist operation in the normal mode is started (steps 17, 18, 19, 20).
In each of the weak heating mist simultaneous operation in the automatic direction adjustment mode and the weak heating mist simultaneous operation in the normal mode, the set time elapses after the weak heating mist simultaneous operation switch 31 is turned on, or the weak heating mist When the simultaneous operation switch 31 is turned off, each operation is terminated.
[0057]
When the temperature control heating mist simultaneous operation switch 33 is turned on, the temperature control heating mist simultaneous operation is started. (Steps 21, 22).
The temperature controlled heating mist simultaneous operation ends when the set time elapses after the temperature controlled heating mist simultaneous operation switch 33 is turned on or when the temperature controlled heating mist simultaneous operation switch 33 is turned off.
[0058]
[Another embodiment]
(1) In the simultaneous operation of strong heating mist in the automatic direction adjustment mode, the circulating air ventilation direction is uniquely adjusted to the setting direction, and thus the circulating air ventilation direction is uniquely adjusted to the setting direction. On the other hand, you may comprise so that a mist ejection direction may be adjusted so that it may become parallel.
Further, in the simultaneous operation of the weak heating mist in the automatic direction adjustment mode, the circulating air ventilation direction is uniquely adjusted to the setting direction, and the circulation air ventilation direction is uniquely adjusted in such a setting direction. On the other hand, the mist ejection direction is set so as to intersect at the set intersection angle set so as to intersect before reaching the mist attainment target location (hereinafter, sometimes referred to as a set intersection angle for the intersection before arrival). You may comprise so that it may adjust.
[0059]
(2) In the above embodiment, a case where both the mist ejection direction of the mist ejection section 4 and the circulating air ventilation direction of the ventilation means T are configured to be freely changeable is illustrated, but the mist ejection of the mist ejection section 4 Only one of the direction and the circulating air ventilation direction of the ventilation means T may be changed and operated.
In this case, when the mist ejection direction of the mist ejection part 4 is fixed and the circulating air ventilation direction of the ventilation means T is configured to be freely changeable, in the direction adjustment control, in accordance with the ventilation amount change control, The circulating air ventilation direction is changed so that the relationship between the mist ejection direction and the circulating air ventilation direction becomes a relationship corresponding to the circulating air ventilation amount.
Further, in the case where the circulating air ventilation direction of the ventilation means T is fixed and the mist ejection direction of the mist ejection section 4 is configured to be freely changeable, the direction adjustment control is performed in accordance with the ventilation volume change control. The mist ejection direction is changed so that the relationship between the mist ejection direction and the circulating air ventilation direction becomes a relationship corresponding to the circulating air ventilation amount.
[0060]
(3) In the strong heating mist simultaneous operation in the automatic direction adjustment mode, the movable louver 15 is swung by the ventilation electric motor M while maintaining the circulating air ventilation direction and the mist ejection direction in parallel. In addition, the mist electric motor 19 may be configured to swing the ejection nozzle 4b.
Further, in the simultaneous operation of the weak heating mist in the automatic direction adjustment mode, the electric motor for ventilation is maintained in a state where the circulating air ventilation direction and the mist ejection direction are crossed at a set intersection angle for intersection before arrival. The movable louver 15 may be swung by M, and the ejection nozzle 4 b may be swung by the mist electric motor 19.
[0061]
(4) In the above embodiment, as the direction adjustment control, when the circulating air flow rate is the set large air flow rate, the mist ejection direction and the circulating air ventilation direction are parallel to each other, and the circulating air When the ventilation rate is the set small ventilation rate, the mist ejection direction and the circulating air ventilation direction are switched to two states so as to intersect at a set intersection angle for crossing before arrival. However, when the circulating air flow rate is a set air flow rate between the set large air flow rate and the set small air flow rate, the mist ejection direction and the circulating air flow direction are set as the setting values. You may add the state which cross | intersects at the setting intersection angle for the intersection before arrival smaller than the setting intersection angle for the intersection before arrival corresponding to a large air flow.
Further, when the circulating air flow rate is between the set large ventilation rate and the set small ventilation rate, the larger the circulating air ventilation rate is, the smaller the set crossing angle for the crossing before arrival becomes, in a plurality of states. May be added.
Further, when the circulating air flow rate is larger than the set large air flow rate, a state in which the mist ejection direction and the circulation ventilation direction expand at the ejection destination may be added.
[0062]
(5) When the circulating air flow rate is the set large air flow rate, as a specific example for preventing the mist ejection direction and the circulating air ventilation direction from intersecting each other before reaching the mist arrival target location, In the embodiment, the case where the mist ejection direction and the circulating air ventilation direction are made parallel is illustrated, but instead, the mist ejection direction and the circulating air ventilation direction are the mist arrival directions. You may make it cross | intersect ahead of a target location.
[0063]
(6) In the above embodiment, in both the strong heating mist simultaneous operation in the normal mode and the weak heating mist simultaneous operation in the normal mode, both the mist ejection direction and the circulating air ventilation direction can be changed and operated. However, it may be configured so that only one of the mist ejection direction and the circulating air ventilation direction can be changed.
[0064]
(7) When the automatic direction adjustment switch 32 is omitted and the strong heating mist simultaneous operation switch 30 is turned ON, the strong heating mist simultaneous operation in the automatic direction adjustment mode is executed, and the weak heating mist simultaneous operation switch 31 is Even if the ON operation is performed, it is configured so that the weak heating mist simultaneous operation in the automatic orientation adjustment mode is executed, and the strong heating mist simultaneous operation in the normal mode and the weak heating mist simultaneous operation in the normal mode are omitted. good.
[0065]
(8) The installation position of the temperature detection means is not limited to the position exemplified in the above embodiment, that is, the position in the vicinity of the air inlet 9 in the circulation ventilation path 12. For example, the temperature detection means is installed in the bathroom 1. The remote control operation unit R may be used.
[0066]
(9) In the above embodiment, an example in which the bath mist device is incorporated in the bathroom air conditioner installed on the ceiling 6 of the bathroom 1 is shown. However, the wall-mounted bathroom installed on the surface side of the wall portion of the bathroom 1. It is also possible to incorporate the bath mist device into the air conditioner, and the installation location of the bathroom air conditioner incorporating the bath mist device can be changed as appropriate.
[0067]
(10) In the above embodiment, the mist ejecting portion 4 is supported by the device main body 3 provided with the ventilation means T, and the device main body 3 supported by the mist ejecting portion 4 is covered with the grill plate 8, thereby Although the jet part 4 and the ventilation means T are arranged in an integrated state, the mist jet part 4 is supported by being hung on the wall of the bathroom 1 or supported by being suspended from the ceiling. Thus, it is also possible to implement the mist ejection part 4 and the ventilation means T separately.
[0068]
(11) In the above-described embodiment, an example in which the bath space is the bathroom 1 has been described. However, a sauna room or the like provided separately from the bathroom 1 may be implemented as the bath space.
[Brief description of the drawings]
FIG. 1 is a perspective view of a bathroom where a bathroom air conditioner is installed.
FIG. 2 is an exploded perspective view of a bathroom air conditioner.
FIG. 3 is a cross-sectional plan view of a bathroom air conditioner.
FIG. 4 is a longitudinal side view of a bathroom air conditioner.
FIG. 5 is a longitudinal side view of a bathroom air conditioner.
FIG. 6 is a longitudinal side view of a bathroom air conditioner.
FIG. 7 is a longitudinal side view of a bathroom air conditioner.
FIG. 8 is a perspective view showing a mist ejection part of a bathroom air conditioner.
FIG. 9 is a schematic side view showing the direction of circulation of circulating air into the bathroom and the direction of ejection of mist.
FIG. 10 is a flowchart showing a control operation.
[Explanation of symbols]
1 Bath space
4 Mist ejection means
5 Control means
13 Heating means
20 Temperature detection means
34, 35 Direction setting part
T Ventilation means

Claims (4)

Mist ejection means for ejecting hot water in a mist shape toward the bath space;
Ventilation means for ventilating the heated air heated by the heating means toward the bath space, and changing the amount of ventilation;
A bath mist device provided with control means for executing ventilation rate change control for controlling the operation of the ventilation means so as to change the ventilation rate based on a ventilation rate change command,
Either or both of the mist ejection direction of the mist ejection means and the ventilation direction of the ventilation means are configured to be freely changeable,
The control means adjusts the mist ejection direction and the ventilation direction so that the relationship between the mist ejection direction and the ventilation direction is set according to the ventilation amount in accordance with the ventilation amount change control. Configured to perform orientation adjustment control to change one or both of them , and
As the direction adjustment control, when the air flow rate is a set small air flow rate, the mist injection target and the air flow direction make the mist reach target for reaching the hot water sprayed in a mist shape toward the bath space. When the air flow rate is a set large air flow rate that is larger than the set small air flow rate so as to intersect each other before reaching the location, the mist ejection direction and the air flow direction may reach the mist arrival target location. A bath mist device configured to change one or both of the mist ejection direction and the ventilation direction so as not to intersect . A direction setting unit for changing and setting the mist ejection direction or the ventilation direction by an artificial operation is provided,
2. The bath mist according to claim 1, wherein the control means is configured to execute the direction adjustment control in a state where the mist ejection direction or the ventilation direction is set to a direction set by the direction setting unit. apparatus. Temperature detecting means for detecting the temperature of the bath space is provided;
The control means sets the ventilation amount to the set small ventilation amount so that the detected temperature of the temperature detection means becomes a set temperature, and the mist ejection direction and the ventilation direction are reached until the mist arrival target location is reached. A small airflow amount state that intersects with the airflow, and a large airflow amount state in which the airflow amount is set to the set large airflow amount, and the mist ejection direction and the airflow direction do not intersect before reaching the mist arrival target location. The bath mist device according to claim 1, which is configured to switch between The control means is configured to be freely changeable between an automatic orientation adjustment mode and a normal mode. In the automatic orientation adjustment mode, the control means executes the orientation adjustment control, and in the normal mode, a direction change command is issued. The bath mist device according to any one of claims 1 to 3, wherein the bath mist device is configured to change one or both of the mist ejection direction and the ventilation direction based on the mist ejection direction .

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