JP4720345B2 - Air conditioner - Google Patents

Description

  The present invention relates to an air conditioner that is installed in a room such as a sanitary space such as a bathroom or a dressing room and that heats the room. Specifically, the air inlet and the air outlet are reduced in size so as not to stand out indoors.

  2. Description of the Related Art Conventionally, an air conditioner for a bathroom has been provided that has a function of sending warm air to the bathroom to heat the bathroom or drying and ventilating the laundry. Such a bathroom air conditioner is provided with a front panel having an air inlet and an outlet on the lower surface, and is attached in a form in which the front panel is exposed from the ceiling of the bathroom (see, for example, Patent Document 1).

JP 2003-294289 A

  However, the conventional bathroom air conditioner has a problem in that the size of the front panel is large, and thus the appearance of the room is impaired. In other words, since the front panel has a size of about 450 mm × 350 mm, the ceiling of the bathroom occupies a considerable area, which may impair the appearance.

  The present invention has been made to solve such a problem, and an object thereof is to provide an air conditioner that can be installed without impairing the appearance of a sanitary space such as a bathroom or a dressing room.

In order to solve the above-described problems, a first air conditioner according to the present invention includes a blower body that sucks in air and blows out the sucked air, and an air suction that is connected to the blower body through a duct member and sucks air. An air suction portion having a mouth, and an air blowing portion connected to the air blower body through a duct member and having an air blowout port for blowing air , and the air blower body is installed on the upper surface side of the ceiling panel. The air suction unit is an air conditioner that is installed with the air suction port exposed to the ceiling panel or the wall panel, and the air blowing unit is an air conditioner that is installed with the air outlet port exposed to the ceiling panel or the wall panel. The suction port and the air outlet are configured such that the length in the horizontal direction is longer than the length in the vertical direction, the length in the short direction is configured to be substantially equal and arranged in a line in the longitudinal direction, Air blowing Is configured on the same plane as the ceiling panel or wall panel, and a metal or resin frame is installed at the position of the air inlet and air outlet, and the air inlet and air outlet are are those grille is characterized by being attached to the frame.

A second air conditioner according to the present invention includes a blower body that sucks air and blows out the sucked air, an air suction unit that is connected to the blower body through a duct member, and has an air suction port that sucks air. The air blower body is connected to the air blower body through the duct member, and has an air blowing part having an air outlet for blowing air, the air blower body is installed on the upper surface side of the ceiling panel, and the air suction part is the ceiling panel. Alternatively, the air blower is an air conditioner that is installed with the air suction port exposed on the wall panel, and the air blowing unit is installed with the air blower port exposed on the ceiling panel or the wall panel. Airflow switching that switches between whether the air blown from the air blower outlet is blown out or discharged to the outside while the air outlet grille mounting part is attached and the air sent from the blower body through the duct member And the step, is characterized in that a heating means for heating the air blown from the air outlet.
In the first or second air conditioner of the present invention sucks indoor air from an air suction port installed on the ceiling panel or wall panel, a warm or blower that blows from the air outlet into the room, the heating operation Do.

According to the first and second air conditioner of the present invention, the ceiling panels of the air intake portion having an air blowing unit and the air inlet having an air outlet is independent of the blower body, the blower main body installation position The air outlet and the air inlet are exposed to the ceiling panel or the wall panel at the installation position, and the air inlet and the air outlet are configured such that the lateral length is longer than the longitudinal length, The length in the short direction is configured to be approximately the same, is arranged in a line in the longitudinal direction, and is configured on the same plane as the ceiling panel or wall panel, and at the positions where the air inlet and the air outlet are arranged. A metal or resin frame is installed, and a grill is attached to the frame at the air inlet and the air outlet. With this configuration, the area of the portion exposed to the indoor ceiling panel or wall surface panel can be reduced.

  Thereby, an air conditioner can be installed without impairing the appearance of the room.

  Hereinafter, an embodiment of a bathroom air conditioner as an air conditioner of the present invention will be described with reference to the drawings.

<Configuration example of bathroom air conditioner according to the first embodiment>
FIG. 1 is a configuration diagram illustrating an example of a bathroom air conditioner according to the first embodiment. FIG. 1A illustrates a ceiling panel 52a of a bathroom 51 provided with the bathroom air conditioner 1A according to the first embodiment. It is the top view seen from. Moreover, FIG.1 (b) is the side view which looked at the ceiling part of the bathroom 51 provided with 1A of bathroom air conditioners from the arrow A direction, FIG.1 (c) is the side surface which looked at the ceiling part of the bathroom 51 from the arrow B direction. FIG.

  1 A of bathroom air conditioners of 1st Embodiment are provided with 2 A of air blower main bodies, 3 A of blower outlet units, and the inlet unit 4. FIG. The air blower body 2A, the air outlet unit 3A, and the suction port unit 4 are independent forms, and the air blower body 2A and the air outlet unit 3A are connected via the air outlet duct 5 which is an example of a duct member. The suction port unit 4 is connected via a suction duct 6 which is an example of a duct member.

  The blowout unit 3A is an example of an air blowout unit, and includes a circulation blowout grill 7A that blows air into the bathroom 51. The circulation blow grill 7A is an example of a blow outlet, and has a rectangular outer shape in which one side is longer than the other side.

  The suction port unit 4 is an example of an air suction part, and includes a circulation / ventilation suction grill 8 for sucking air in the bathroom 51. The circulation / ventilation suction grill 8 is an example of a suction port, and has a rectangular outer shape in which the length of one side is longer than the length of the other side.

  The blower main body 2A is installed on the ceiling panel 52a of the bathroom 51, which is a sanitary space in this example. In the ceiling panel 52a of the bathroom 51, an opening is not formed at the position where the blower main body 2A is installed, and the blower main body 2A is not exposed in the bathroom 51.

  On the other hand, the outlet unit 3A is configured such that the circulating outlet grill 7A is exposed into the bathroom 51 from the outlet grill attachment opening 53a formed in the ceiling panel 52a of the bathroom 51. It is installed on 52a.

  The suction port unit 4 is configured to expose the circulation / ventilation suction grille 8 into the bathroom 51 from the suction grille mounting opening 53b formed in the ceiling panel 52a of the bathroom 51, and the ceiling panel 52a of the bathroom 51. Installed on top.

  The size of the circulation blow-out grill 7A and the circulation / ventilation suction grill 8 is configured to be smaller than the size of the lower surface of the blower main body 2A. Further, the length in the longitudinal direction (short direction) of the circulation blow-out grill 7A and the circulation / ventilation suction grill 8 is configured to be the same length. The installation positions of the outlet unit 3A and the inlet unit 4 are set so that the circulation outlet grill 7A and the circulation / ventilation suction grill 8 are arranged in a line in the lateral direction (longitudinal direction).

  Here, a frame portion 52c made of metal such as aluminum or resin is attached to the installation position of the circulation blowout grill 7A of the blowout outlet unit 3A and the circulation / ventilation suction grille 8 of the suction inlet unit 4, and the circulation blowout grille 7A. The circulation / ventilation suction grill 8 is attached in a form to be fitted into the frame portion 52c. In addition, a portion of the frame 52c where the circulation blow grill 7A and the circulation / ventilation suction grill 8 are not installed is provided with a cover member 52d made of metal such as aluminum or resin so as not to impair the design. ing.

<Configuration example of the blower body>
FIG. 2 is a cross-sectional view showing an example of the internal configuration of the blower main body 2A. Next, details of the configuration of the blower main body 2A constituting the bathroom air conditioner 1A according to the first embodiment will be described.

  The blower main body 2A includes a fan 10 that is rotationally driven by a fan motor 9 and sucks and blows air, and a fan case 11 that forms an air passage for air that is sucked and blown by the rotationally driven fan 10.

  The fan motor 9 is attached to the fan case 11 so that the rotation axis of the fan 10 formed of a multiblade impeller is in the vertical direction.

  The fan case 11 is attached to a main body case 12 constituting the outer shape of the blower main body 2A, and a fan suction port 11a is formed by opening a lower surface along the axial direction of the fan 10, and in a tangential direction of the fan 10. A fan outlet 11b is formed in the air blowing direction along.

  The main body case 12 has a flat rectangular parallelepiped shape, and includes an outlet duct attachment portion 13 to which the outlet duct 5 is attached on one side surface that communicates with the fan outlet 11b. Further, the main body case 12 is formed with a suction air passage 14 in communication with the fan air inlet 11 a at the lower portion of the fan case 11, and a suction duct attachment portion in which the suction duct 6 is attached to the other side surface in communication with the suction air passage 14. 15 is provided. Here, FIG. 1 illustrates an example in which one suction duct mounting portion 15 is provided on each of two opposing side surfaces, but the number of suction duct mounting portions 15 may be one, or two or more. Also good.

  The blower main body 2 </ b> A includes an ion generator 16 at the fan outlet 11 b of the fan case 11. The ion generator 16 is an example of an ion generating means, and the ion emission surface is exposed in the blowing air path formed by the fan case 11.

The ion generator 16 generates both positive ions and negative ions or negative ions. The principle of generation of positive ions and negative ions is that a corona discharge is caused by boosting and applying an AC voltage taken from a household AC power source or the like between a pair of electrodes opposed so as to interpose a dielectric, Oxygen or water in the air is ionized by receiving energy by ionization, and H ⁺ (H ₂ O) _m (m is an arbitrary natural number) and O ₂ ⁻ (H ₂ O) _n (n is an arbitrary natural number). The main ions are emitted.

These H ⁺ (H ₂ O) _m and O ₂ ⁻ (H ₂ O) _n adhere to the surface of the floating bacteria and chemically react to generate H ₂ O ₂ or .OH as an active species. Since H ₂ O ₂ or .OH exhibits extremely strong activity, they can surround and inactivate airborne bacteria in the air. Here, .OH is one kind of active species, and represents radical OH.

  As a result, the ion generator 16 generates approximately the same number of positive ions and negative ions in conjunction with the rotation of the fan motor 9, thereby supplying approximately the same number of positive ions and negative ions to the bathroom 51. Can inactivate the airborne bacteria and suppress the occurrence of mold and the like.

<Configuration example of outlet unit>
FIG. 3 is a cross-sectional view showing an example of the internal configuration of the outlet unit 3A. Next, details of the configuration of the outlet unit 3A constituting the bathroom air conditioner 1A of the first embodiment will be described.

  The air outlet unit 3A includes an air outlet duct 17 in which an air passage through which air blown out from the blower main body 2A passes is formed, and an air outlet grille in which the air outlet duct mounting portion 18 to which the air outlet duct 5 is connected and the circulation air outlet grille 7A are attached. A mounting portion 19 is provided.

  In the air outlet unit 3 </ b> A, a circulation / ventilation inlet 20 for sucking air is formed on one side surface of the air outlet case 17, and the air outlet duct attachment portion 18 is attached in communication with the circulation / ventilation inlet 20.

  Further, in the air outlet unit 3A, a ventilation air outlet 21 for blowing out air is formed on the other side surface of the air outlet case 17 so as to face the circulation / ventilation air inlet 20, and communicates with the ventilation air outlet 21 to provide an exhaust duct. An exhaust duct attachment portion 23 to which 22 is connected is attached.

  Further, in the outlet unit 3A, a circulation outlet 24 for blowing out air is formed in the lower part of the outlet case 17, the outlet grill mounting portion 19 is attached to the circulation outlet 24, and a heater 25 is provided in the circulation outlet 24. .

  The heater 25 is an example of a heating unit, and is configured by, for example, a PTC heater. When the heater 25 is energized, the air passing through the circulation outlet 24 is heated and the circulation outlet grill 7A attached to the outlet grill attachment portion 19 is heated. Hot air blows out.

  The air outlet unit 3 </ b> A includes an air path switching damper 26 that switches an air path formed in the air outlet case 17. The air path switching damper 26 is an example of an air path switching means, and is rotated about a shaft 26a by a damper motor 27. In the air outlet case 17, depending on the position of the air path switching damper 26, the circulation air passage 28 a communicated from the circulation / ventilation suction port 20 to the circulation air outlet 24 or the circulation / ventilation suction port 20 to the ventilation air outlet 21. An exhaust air passage 28b communicating with the exhaust air passage 28b is formed.

  That is, when the air path switching damper 26 is in the fully closed position shown by the solid line in FIG. 2, the air path to the ventilation outlet 21 is shielded, and the circulation air path communicated from the circulation / ventilation inlet 20 to the circulation outlet 24. 28a is formed. The position where the air path switching damper 26 is fully closed is referred to as a circulation position.

  On the other hand, when the air path switching damper 26 is in the fully open position shown by the one-dot chain line in FIG. 2, the air path to the circulation outlet 24 is shielded and communicated from the circulation / ventilation inlet 20 to the ventilation outlet 21. An exhaust air passage 28b is formed. The position where the air path switching damper 26 is fully opened is referred to as a ventilation position.

  Further, when the air path switching damper 26 is at an intermediate position between the circulation position and the ventilation position indicated by a two-dot chain line in FIG. 2, a circulation air path 28a communicating from the circulation / ventilation suction port 20 to the circulation outlet 24, Both exhaust air passages 28b communicating from the ventilation inlet 20 to the ventilation outlet 21 are formed. An intermediate position of the air path switching damper 26 is referred to as a circulation ventilation position.

<Configuration example of inlet unit>
FIG. 4 is a cross-sectional view showing the internal configuration of the suction port unit 4. Next, details of the configuration of the suction port unit 4 constituting the bathroom air conditioner 1A of the first embodiment will be described.

  The suction port unit 4 includes a chamber 29 to which the suction duct 6 is attached and a suction grill attachment portion 30 to which the circulation / ventilation suction grill 8 is attached. The suction grill mounting portion 30 is formed in the lower portion of the chamber 29, and the circulation / ventilation suction grill 8 is communicated with the suction duct 6 through the chamber 29.

<Installation example of bathroom air conditioner of the first embodiment>
Next, with reference to FIG. 1 etc., the installation example of 1 A of bathroom air conditioners of 1st Embodiment is demonstrated. A frame 52c is attached to the ceiling panel 52a of the bathroom 51 at the installation position of the outlet unit 3A and the inlet unit 4, and the installation position of the outlet unit 3A is set in accordance with the position of the outlet grill attachment part 19. The blow grill attachment opening 53a is opened. In addition, at the installation position of each suction port unit 4, the suction grill attachment opening 53 b is opened by aligning the suction grill attachment part 30. Note that it is not necessary to form an opening at the installation position of the blower main body 2A.

  The blow grill attachment opening 53a and the suction grill attachment opening 53b are arranged in a line. The blow grill attachment opening 53a is a rectangle having an elongated shape according to the shape of the circulation blow grill 7A. Similarly, the suction grill attachment opening 53b is a rectangle having an elongated shape according to the shape of the circulation / ventilation suction grill 8. is there.

  For example, the bathroom air conditioner 1A installs a frame body (not shown) at a desired position on the upper surface of the ceiling panel 52a, and fixes the air blower body 2A to the frame body so that the air blower body 2A is on the upper surface side of the ceiling panel 52a. Installed.

  Here, since the blower main body 2A is not provided with a suction grill or a blowout grill, no opening is required at the installation position of the blower main body 2A in the ceiling panel 52a. For this reason, the blower body 2 </ b> A is not exposed in the bathroom 51.

  The bathroom air conditioner 1A is provided with a frame body (not shown) on the upper surface of the ceiling panel 52a in accordance with the position of the blow grill mounting opening 53a, and the blow outlet unit 3A is fixed to the frame body. 3A is installed in the upper surface side of the ceiling panel 52a in the position where the blowing grill attachment part 19 opposes the blowing grill attachment opening part 53a. The outlet unit 3A is fitted into the frame part 52c, and the circulation outlet grille 7A is attached to the outlet grill attachment part 19.

  Further, the bathroom air conditioner 1A fixes the suction port unit 4 to the suction grille mounting opening 53b, so that the suction port unit 4 has a ceiling panel at a position where the suction grille mounting portion 30 faces the suction grille mounting opening 53b. It is installed on the upper surface side of 52a. The suction port unit 4 is fitted into the frame portion 52 c, and the circulation / ventilation suction grill 8 is attached to the suction grill attachment portion 30.

  Accordingly, the bathroom air conditioner 1A is configured such that the circulation outlet grill 7A is exposed to the bathroom 51 side from the outlet grill attachment opening 53a formed in the ceiling panel 52a of the bathroom 51, and the outlet unit 3A is provided on the ceiling panel of the bathroom 51. 52a. In addition, the suction port unit 4 is installed in the ceiling panel 52a of the bathroom 51 in such a manner that the circulation / ventilation suction grill 8 is exposed to the bathroom 51 side from the suction grill attachment opening 53b formed in the ceiling panel 52a of the bathroom 51. .

  Therefore, in the bathroom air conditioner 1A, the circulation blow-out grill 7A and the circulation / ventilation suction grill 8 are arranged in a line. In addition, the circulation blow-out grill 7A and the circulation / ventilation suction grill 8 are attached so as to be substantially flush with the ceiling panel 52a. Furthermore, a cover member 52d is attached to a portion of the frame 52c where the circulation blow grill 7A and the circulation / ventilation suction grill 8 are not installed, and is configured to be substantially flush with the ceiling panel 52a.

  In addition, as an installation form of each unit, the form suspended from the ceiling back using an anchor bolt etc. may be sufficient.

  The blower main body 2A is connected to the blowout duct attachment portion 13 at one end side of the blowout duct 5, and the blowout outlet unit 3A is connected to the blowout duct attachment portion 18 at the other end side of the blowout duct 5 so that the blower main body 2A. And the outlet unit 3 </ b> A are connected via the outlet duct 5.

  Moreover, 3 A of blower outlet units are connected with the outdoors of the building which is not shown in figure in which the bathroom 51 is installed by connecting the exhaust duct 22 to the exhaust duct attaching part 23.

  Further, the blower main body 2A is connected to the suction duct mounting portion 15 at one end side of the suction duct 6, and the suction port unit 4 is connected to the chamber 29 at the other end side of the suction duct 6 so that the blower main body 2A and The suction port unit 4 is connected via a suction duct 6.

  Although the circulation blow-out grill 7A and the circulation / ventilation suction grill 8 are configured to be attached together with the cover member 52d in the frame portion 52c, the frame portion and the cover member are not provided as in the installation example of FIG. Alternatively, it may be directly attached to the ceiling panel 52a.

  Also, the outlet unit 3A and the inlet unit 4 are installed on the ceiling panel 52a near the wall of the room such as the bathroom 51, so that the circulation grill 7A and the circulation / ventilation suction grill 8 are at the end of the ceiling panel 52a. It can also be made less noticeable by being arranged.

<Control function example of bathroom air conditioner according to the first embodiment>
FIG. 5 is a functional block diagram illustrating an example of a control system of the bathroom air conditioner 1A according to the first embodiment.

  The bathroom air conditioner 1A includes a control unit 61A configured by a CPU, a memory, and the like, an operation unit 62A, a fan motor 9 and an ion generator 16 of the blower body 2A, a heater 25 and a damper motor 27 of the outlet unit 3A, and the like. Is connected.

  The controller 61A is an example of a control unit, and executes, for example, a heating operation mode, a ventilation operation mode, a drying operation mode, and a cool air operation mode according to a program stored in a memory (not shown). These operation modes are selected by a user such as a bather operating the operation unit 62A, and the control unit 61A performs the fan motor 9, the ion generator 16, the heater 25 in accordance with a program for executing the selected operation mode. And controls the damper motor 27 and the like.

  The operation unit 62A is a remote control device independent of the bathroom air conditioner 1A main body. For example, the operation unit 62A is attached to a wall surface of a bathroom (not shown) adjacent to the bathroom 51 and mounted on the blower main body 2A. Connected with electrical cable.

<Operation example of bathroom air conditioner of the first embodiment>
Next, operation | movement of 1 A of bathroom air conditioners of 1st Embodiment is demonstrated with reference to each figure. When the heating operation mode is selected by the operation of the operation unit 62A, the control unit 61A of the bathroom air conditioner 1A drives the damper motor 27 of the outlet unit 3A to set the air path switching damper 26 to the circulation position. Then, the fan motor 9 of the blower main body 2A is driven to rotate the fan 10, and the heater 25 of the outlet unit 3A is driven.

  In the blower main body 2A, when the fan 10 rotates, air is sucked from the fan suction port 11a of the fan case 11. The blower main body 2 </ b> A and the suction port unit 4 are connected via a suction duct 6, and the fan suction port 11 a communicates with the suction port unit 4 through the suction air passage 14 and the suction duct 6.

  Thereby, when the fan 10 rotates, the air in the bathroom 51 is sucked into the blower main body 2 </ b> A through the suction duct 6 from the circulation / ventilation suction grill 8 of the suction port unit 4.

  The air in the bathroom 51 sucked into the blower main body 2 </ b> A blows out from the fan outlet 11 b of the fan case 11. The blower body 2 </ b> A and the air outlet unit 3 </ b> A are connected via the air outlet duct 5, and the fan air outlet 11 b communicates with the air outlet unit 3 </ b> A through the air outlet duct 5.

  Thereby, the air in the bathroom 51 sucked from the inlet unit 4 by the rotation of the fan 10 is sent to the outlet unit 3 </ b> A through the outlet duct 5.

  In the heating operation mode, since the air passage switching damper 26 is in the circulation position in the outlet unit 3A, the circulation / ventilation inlet 20 connected to the outlet duct 5 is connected to the circulation outlet 24 in the outlet case 17. A communicating circulation air passage 28a is formed.

  Thereby, the air sent into the blower outlet unit 3A is blown out into the bathroom 51 from the circulation blowout grill 7A through the circulation air passage 28a.

  And since the heater 25 is arrange | positioned at the circulation blower outlet 24 before the circulation blowing grill 7A, when the heater 25 is energized and heated, the air passing through the circulation blower outlet 24 is warmed and blown out from the circulation blowing grill 7A. .

  Thereby, in heating operation mode, the inside of the bathroom 51 can be heated and the temperature can be raised while circulating the air in the bathroom 51.

  When the ventilation operation mode is selected by the operation of the operation unit 62A, the control unit 61A of the bathroom air conditioner 1A drives the damper motor 27 of the outlet unit 3A to set the air path switching damper 26 to the ventilation position. Then, the fan motor 9 of the blower main body 2A is driven to rotate the fan 10. In the ventilation operation mode, the heater 25 of the outlet unit 3A is not driven.

  In the blower main body 2A, when the fan 10 rotates, air is sucked from the fan suction port 11a of the fan case 11. As described above, the air blower main body 2 </ b> A has the fan suction port 11 a communicating with the suction port unit 4 through the suction duct 6, so that the circulation / ventilation suction grille 8 of the suction port unit 4 can be connected to the interior of the bathroom 51. Air is sucked into the blower main body 2 </ b> A through the suction duct 6.

  The air in the bathroom 51 sucked into the blower main body 2 </ b> A blows out from the fan outlet 11 b of the fan case 11. As described above, since the fan blower outlet 11b communicates with the blower outlet unit 3A through the blowout duct 5 in the blower main body 2A, the air in the bathroom 51 sucked from the suction inlet unit 4 is blown into the blowout duct 5. Is sent to the outlet unit 3A.

  In the ventilation operation mode, since the air path switching damper 26 is in the ventilation position in the air outlet unit 3 </ b> A, in the air outlet case 17, the circulation / ventilation inlet 20 connected to the air outlet duct 5 is connected to the ventilation air outlet 21. A communicating exhaust air passage 28b is formed.

  Thereby, the air sent into the blower outlet unit 3A passes through the exhaust air passage 28b and is discharged to the outside from the exhaust duct 22. Moreover, since the air in the bathroom 51 is discharged to the outside, the air in the bathroom or the like is sucked from an air intake provided in a bathroom door (not shown).

  Thereby, in ventilation operation mode, the steam and moisture in the bathroom 51 can be discharged | emitted, dew condensation etc. can be suppressed and generation | occurrence | production of mold | fungi can be suppressed.

  The bathroom air conditioner 1A may include a sterilization ventilation operation mode in which the ventilation operation mode and the generation of ions are linked.

  In the sterilization ventilation operation mode, the control unit 61A drives the damper motor 27 of the outlet unit 3A to set the air path switching damper 26 to the circulation ventilation position. Then, the fan motor 9 of the blower main body 2A is driven to rotate the fan 10, and the ion generator 16 is driven to generate both positive ions and negative ions. Even in the sterilization ventilation operation mode, the heater 25 of the outlet unit 3A is not driven.

  When the fan 10 rotates in the air blower main body 2A, the air in the bathroom 51 is sucked into the air blower main body 2A through the suction duct 6 from the circulation / ventilation suction grill 8 of the air inlet unit 4, and the air blower main body 2A. The sucked air in the bathroom 51 is sent to the outlet unit 3A through the outlet duct 5.

  In the sterilization ventilation operation mode, since the air passage switching damper 26 is in the circulation ventilation position in the air outlet unit 3A, both the air circulation passage 28a and the exhaust air passage 28b are formed in the air outlet case 17.

  Thereby, a part of the air sent into the blower outlet unit 3A is blown out from the circulation blow grill 7A into the bathroom 51 through the circulation air passage 28a. And since both positive ions and negative ions are supplied to the air fed into the blowout unit 3A by the ion generator 16, air containing substantially the same number of positive ions and negative ions is blown out into the bathroom 51. .

  A part of the air sent to the blowout unit 3A passes through the exhaust air passage 28b and is discharged from the exhaust duct 22 to the outside. Furthermore, since the air in the bathroom 51 is discharged to the outside, the air in the washroom or the like is sucked from an air intake provided in a bathroom door (not shown) or the like.

  Thus, in the sterilization ventilation operation mode, while ventilating the bathroom 51, the floating bacteria contained in the air to be circulated and the floating bacteria in the air in the bathroom 51 are inactivated to prevent the growth of mold bacteria. be able to. In the sterilization / ventilation operation mode, both the positive ions and the negative ions may be generated only by circulating the indoor air without using the air path switching damper 26 as a circulation position and performing ventilation.

  When the drying operation mode is selected by the operation in the operation unit 62A, the control unit 61A of the bathroom air conditioner 1A drives the damper motor 27 of the outlet unit 3A to set the air path switching damper 26 to the circulation ventilation position. Then, the fan motor 9 of the blower main body 2A is driven to rotate the fan 10, and the heater 25 of the outlet unit 3A is driven.

  When the fan 10 rotates in the air blower main body 2A, the air in the bathroom 51 is sucked into the air blower main body 2A through the suction duct 6 from the circulation / ventilation suction grill 8 of the air inlet unit 4, and the air blower main body 2A. The sucked air in the bathroom 51 is sent to the outlet unit 3A through the outlet duct 5.

  In the dry operation mode, since the air path switching damper 26 is in the circulation ventilation position in the air outlet unit 3A, both the air circulation path 28a and the exhaust air air path 28b are formed in the air outlet case 17.

  Thereby, a part of the air sent into the blower outlet unit 3A is blown out from the circulation blow grill 7A into the bathroom 51 through the circulation air passage 28a. And since the heater 25 is arrange | positioned at the circulation blower outlet 24 before the circulation blowing grill 7A, when the heater 25 is energized and heated, the air passing through the circulation blower outlet 24 is warmed and blown out from the circulation blowing grill 7A. .

  A part of the air sent to the blowout unit 3A passes through the exhaust air passage 28b and is discharged from the exhaust duct 22 to the outside. Furthermore, since the air in the bathroom 51 is discharged to the outside, the air in the washroom or the like is sucked from an air intake provided in a bathroom door (not shown) or the like.

  Thereby, in dry operation mode, warm air is blown out into the bathroom 51, and the laundry hung on the land pipe (not shown) can be dried. In addition, since a part of the air in the bathroom 51 is exhausted to the outside and is ventilated, moisture and the like can be discharged and drying of the laundry can be promoted.

  Note that the sterilization ventilation operation mode described above may be executed for a predetermined time after the drying operation mode. If the sterilization ventilation operation mode is executed after the drying operation mode, air containing both positive ions and negative ions is blown into the bathroom 51 where the clothes are hung, so that the growth of mold fungi in the clothes, etc. Can be prevented.

  When the cool air operation mode is selected by the operation of the operation unit 62A, the control unit 61A of the bathroom air conditioner 1A drives the damper motor 27 of the outlet unit 3A to set the air path switching damper 26 to the circulation ventilation position. Then, the fan motor 9 of the blower main body 2A is driven to rotate the fan 10. In the cool breeze operation mode, the heater 25 of the outlet unit 3A is not driven.

  When the fan 10 rotates in the air blower main body 2A, the air in the bathroom 51 is sucked into the air blower main body 2A through the suction duct 6 from the circulation / ventilation suction grill 8 of the air inlet unit 4, and the air blower main body 2A. The sucked air in the bathroom 51 is sent to the outlet unit 3A through the outlet duct 5.

  In the cool air operation mode, since the air passage switching damper 26 is in the circulation ventilation position in the air outlet unit 3A, both the air circulation passage 28a and the exhaust air passage 28b are formed in the air outlet case 17.

  Thereby, a part of the air sent into the blower outlet unit 3A is blown out from the circulation blow grill 7A into the bathroom 51 through the circulation air passage 28a. In the cool breeze operation mode, the heater 25 is not energized, so that the wind corresponding to the temperature in the bathroom 51 is blown out from the circulation blow grill 7A.

  A part of the air sent to the blowout unit 3A passes through the exhaust air passage 28b and is discharged from the exhaust duct 22 to the outside. Furthermore, since the air in the bathroom 51 is discharged to the outside, the air in the washroom or the like is sucked from an air intake provided in a bathroom door (not shown) or the like.

  Thereby, in a cool breeze operation mode, a cool breeze can be blown out in the bathroom 51, and it can utilize as a fan. Moreover, since a part of the air in the bathroom 51 is exhausted to the outside and ventilation is performed, moisture and the like can be discharged.

<Effect of bathroom air conditioner according to the first embodiment>
In the bathroom air conditioner 1A of the first embodiment described above, the air blower body 2A is not exposed on the ceiling panel 52a of the bathroom 51, and the circulation blowout grill 7A and the circulation / ventilation suction grill 8 are exposed. It is.

  Thereby, in the bathroom air conditioner 1A, since the area of the portion exposed to the ceiling panel 52a of the bathroom 51 can be reduced, the bathroom air conditioner 1A can be installed without impairing the appearance of the bathroom 51.

  Further, since the air outlet unit 3A and the air inlet unit 4 are made independent of the air blower body 2A, the degree of freedom of the installation positions of the circulation air outlet grill 7A and the circulation / ventilation air intake grill 8 is improved, and the size of the bathroom, etc. The bathroom air conditioner 1A can be installed, for example, in a shower room without a bathtub.

  Furthermore, if the circulation blow grill 7A and the circulation / ventilation suction grill 8 are arranged in a line with the same width, they can be visually inconspicuous. Further, the circulation blow grill 7A and the circulation / ventilation suction grill 8 can be made visually inconspicuous by arranging them on the same surface without protruding from the ceiling panel 52a.

<Configuration example of bathroom air conditioner according to second embodiment>
FIG. 6 is a configuration diagram illustrating an example of a bathroom air conditioner according to the second embodiment. Here, FIG. 6 is a plan view of the ceiling of the sanitary space 55 such as the bathroom 51 provided with the bathroom air conditioner 1B of the second embodiment as seen from the lower surface.

  The bathroom air conditioner 1B according to the second embodiment includes a blower body 2A, outlet units 3A and 3B, inlet units 4a and 4b, and a branch chamber 31. It is installed in a sanitary space 55 such as a washroom (dressing room) 56 and a toilet 57 to enable multi-room heating.

  In addition, 2 A of air blower main bodies which comprise the bathroom air conditioner 1B of 2nd Embodiment are the same as the structure demonstrated in FIG. 2, 3 A of blower outlet units are the same as the structure demonstrated in FIG. The units 4a and 4b have the same configuration as that described with reference to FIG.

  The blower body 2A, the outlet units 3A and 3B, and the suction port units 4a and 4b are independent, and the blower body 2A, the outlet unit 3A, and the outlet unit 3B are connected via the branch chamber 31 and the outlet duct 5. Connected. Further, the blower body 2 </ b> A and the suction port units 4 a and 4 b are connected via the suction duct 6.

  The outlet unit 3B is an example of an air outlet, and includes a circulation outlet grill 7A that blows out air into the room. A frame 52c is attached to the ceiling panel 56a of the washroom 56 where the blowout unit 3B and the suction port unit 4b are installed, and a blowout grill attachment opening and a suction grille attachment opening (not shown) are formed. The unit 3B is installed on the ceiling panel 56a of the washroom 56 in a form in which the circulation blow grill 7A is fitted into the frame portion 52c and exposed toward the washroom 56. The suction port unit 4 b is installed on the ceiling panel 56 a of the washroom 56 in a form in which the circulation / ventilation suction grill 8 is fitted into the frame portion 52 c and exposed toward the washroom 56.

  Similarly, a frame 52c is attached to the ceiling panel 57a of the toilet 57 where the air outlet unit 3B is installed, and a blow grill attachment opening (not shown) is formed. The air outlet unit 3B has a circulation blow grill 7A. It is placed on the ceiling panel 57 a of the toilet 57 in such a form that it is sandwiched between the frame parts 52 c and exposed toward the toilet 57.

  A cover member 52d is attached to the non-installation position of the grill of the frame portion 52c to which each grill is attached.

  Here, in FIG. 6, although the suction inlet unit 4b was installed in the washroom 56, you may install two suction inlet units 4a and 4b in the bathroom 51. FIG.

<Configuration example of outlet unit>
FIG. 7 is a cross-sectional view showing an example of the internal configuration of the air outlet unit 3B. Next, details of the structure of the air outlet unit 3B constituting the bathroom air conditioner 1B of the second embodiment will be described.

  The blower outlet unit 3B includes a blowout duct mounting portion 33 to which a blowout duct 5 is connected to a blower outlet case 32 in which an air passage through which air blown from the blower main body 2A passes, and a blowout grille to which a circulation blowout grill 7A is attached. A mounting portion 34 is provided.

  In the air outlet unit 3 </ b> B, a circulation suction port 35 for sucking air is formed on one side surface of the air outlet case 32, and the air discharge duct attachment portion 33 is attached in communication with the circulation suction port 35.

  Further, in the outlet unit 3B, a circulation outlet 36 for blowing out air is formed in the lower part of the outlet case 32, and an outlet grill attachment portion 34 is attached to the circulation outlet 36, and a heater 37 is provided in the circulation outlet 36. .

  The heater 37 is an example of a heating unit, and is constituted by, for example, a PTC heater. When the heater 37 is energized, the air passing through the circulation outlet 36 is heated and is supplied from the circulation outlet grill 7A attached to the outlet grill attachment portion 34. Hot air blows out.

<Configuration example of branch chamber>
FIG. 8 is a cross-sectional view showing an example of the internal configuration of the branch chamber 31. Next, details of the configuration of the branch chamber 31 constituting the bathroom air conditioner 1B of the second embodiment will be described.

  The branch chamber 31 is an example of an air branch part, and a main outlet duct attachment part 39 to which an outlet duct 5 connected to the outlet unit 3A is connected to a branch case 38 in which an air passage through which air blown from the blower main body 2A passes is formed. And a sub blowout duct mounting portion 40 to which the blowout duct 5 connected to the blowout outlet unit 3B is connected.

  In the branch chamber 31, a circulation / ventilation suction port 41 for sucking air is formed on one side surface of the branch case 38, and the circulation / ventilation suction port 41 is connected to the fan outlet 11b of the blower body 2A shown in FIG. .

  The branch chamber 31 has a circulation / ventilation outlet 42 for blowing out air formed on the other side of the branch case 38 so as to face the circulation / ventilation inlet 41, and a main outlet duct is attached to the circulation / ventilation outlet 42. Part 39 is attached.

  Further, in the branch chamber 31, a circulation outlet 43 that blows out air is formed on the other two side surfaces of the branch case 38, and the auxiliary outlet duct attachment portion 40 is attached to each circulation outlet 43. Each circulation outlet 43 is provided with an air path opening / closing damper 44.

  The air path opening / closing damper 44 is an example of an air path opening / closing means, and the damper motor 45 rotates the shaft 44a around a fulcrum to open and close the circulation outlet 43. That is, when the air path opening / closing damper 44 is in the open position indicated by a solid line in FIG. 8, the circulation outlet 43 is opened, and both the circulation / ventilation inlet 42 and the circulation outlet 43 are connected to the circulation / ventilation inlet 41. The air path is formed.

  On the other hand, when the air path opening / closing damper 44 is in the closed position shown by the one-dot chain line in FIG. 8, the circulation outlet 43 is closed, and only the air path from the circulation / ventilation inlet 41 to the circulation / ventilation outlet 42 is provided. Is formed.

<Installation example of bathroom air conditioner of the second embodiment>
Next, with reference to FIG. 6 etc., the installation example of the bathroom air conditioner 1B of 2nd Embodiment is demonstrated. Here, the installation example of 2 A of blower apparatuses, the blower outlet unit 3A, and the suction inlet unit 4a which are installed in the bathroom 51 is the same as 1 A of bathroom air conditioners of 1st Embodiment.

  The blower body 2A is connected to the branch chamber 31 instead of the blowout duct 5, and the blowout duct 5 is connected to the branch chamber 31 and the blowout unit 3A is connected thereto.

  On the ceiling panel 56a of the washroom 56, a frame part 52c is attached at the installation position of the outlet unit 3B and the inlet unit 4b, and an outlet grill attachment opening (not shown) is opened at the installation position of the outlet unit 3B. A suction grill mounting opening (not shown) is opened at the installation position of the suction port unit 4b.

  The blower outlet unit 3B is installed on the upper surface of the ceiling panel 56a via a frame or the like (not shown). In the outlet unit 3B, the circulating outlet grill 7A is attached to the outlet grill attaching portion 34.

  Thus, in the bathroom air conditioner 1B, the outlet unit 3B is installed on the ceiling panel 56a of the washroom 56 in a form in which the circulation blowout grill 7A is fitted into the frame 52c and exposed to the washroom 56 side.

  Moreover, the suction inlet unit 4b is installed in the upper surface of the ceiling panel 56a, and the circulation and ventilation suction grill 8 is attached.

  Thus, in the bathroom air conditioner 1B, the inlet / outlet unit 4b is installed on the ceiling panel 56a of the washroom 56 in a form in which the circulation / ventilation suction grill 8 is fitted into the frame 52c and exposed to the washroom 56 side.

  Similarly, a frame 52c is attached to the ceiling panel 57a of the toilet 57 at the installation position of the blowout unit 3B, and a blowout grill attachment opening (not shown) is opened. Is installed on the upper surface of the ceiling panel 57a. In the outlet unit 3B, the circulating outlet grill 7A is attached to the outlet grill attaching portion 34.

  Thus, in the bathroom air conditioner 1B, the outlet unit 3B is installed on the ceiling panel 57a of the toilet 57 in such a manner that the circulation outlet grill 7A is fitted into the frame body 52c and exposed to the toilet 57 side.

  Each air outlet unit 3B is connected to the air outlet duct mounting portion 33 by connecting the air outlet duct 5 connected to the auxiliary air outlet duct mounting portion 40 of the branch chamber 31. The chamber 31 and the blowout duct 5 are connected.

<Example of control function of bathroom air conditioner according to second embodiment>
FIG. 9 is a functional block diagram illustrating an example of a control system of the bathroom air conditioner 1B according to the second embodiment.

  The bathroom air conditioner 1B includes a control unit 61B configured by a CPU, a memory, and the like, an operation unit 62B, a fan motor 9 and an ion generator 16 of the blower body 2A, a heater 25 and a damper motor 27 of the outlet unit 3A, The heater 37 of the outlet unit 3B is connected to the damper motor 45 of the branch chamber 31 and the like.

  The control unit 61B is an example of a control unit, and executes, for example, a heating operation mode, a ventilation operation mode, a drying operation mode, and a cool air operation mode according to a program stored in a memory (not shown) or the like. These operation modes are selected by a user such as a bather operating the operation unit 62B, and the control unit 61B follows the fan motor 9, the ion generator 16, and the heater 25 in accordance with a program for executing the selected operation mode. , 37 and damper motors 27, 45 are controlled.

  The operation unit 62B is a remote control device independent of the bathroom air conditioner 1B main body. For example, the operation unit 62B is attached to the wall surface of the washroom 56 adjacent to the bathroom 51 and mounted on the blower main body 2A or the like. Connected by cable.

<Operation example of bathroom air conditioner of second embodiment>
Next, operation | movement of the bathroom air conditioner 1B of 2nd Embodiment is demonstrated with reference to each figure. When the heating operation mode is selected by the operation in the operation unit 62B, the control unit 61B of the bathroom air conditioner 1B drives the damper motor 27 of the outlet unit 3A, and the air path switching damper 26 is circulated as indicated by a solid line in FIG. To position. Then, the fan motor 9 of the blower main body 2A is driven to rotate the fan 10, and the heater 25 of the outlet unit 3A is driven. Further, the damper motor 45 of the branch chamber 31 is driven to bring the air passage opening / closing damper 44 into the open position shown by a solid line in FIG.

  When the fan 10 rotates in the blower main body 2A, the air in the bathroom 51 is sucked into the blower main body 2A through the suction duct 6 from the circulation / ventilation suction grill 8 of the suction port unit 4a. Further, air in the washroom 56 is sucked into the blower main body 2 </ b> A through the suction duct 6 from the circulation / ventilation suction grill 8 of the suction port unit 4 b.

  The air in the bathroom 51 and the washroom 56 sucked into the blower main body 2 </ b> A blows out from the fan outlet 11 b of the fan case 11. Since the air blower main body 2A has the circulation / ventilation inlet 41 of the branch chamber 31 connected to the fan outlet 11b, the air in the bathroom 51 and the washroom 56 sucked from the inlet units 4a and 4b is separated from the branch chamber. It is sent to 31.

  Since the branch chamber 31 is connected to the outlet unit 3A and the outlet unit 3B via the outlet duct 5, a part of the air in the bathroom 51 and the washroom 56 sucked in from the inlet units 4a and 4b is obtained. It is sent to the air outlet unit 3A through the air outlet duct 5.

  In the heating operation mode, since the air passage switching damper 26 is in the circulation position in the outlet unit 3A, the circulation / ventilation inlet 20 connected to the outlet duct 5 is connected to the circulation outlet 24 in the outlet case 17. A communicating circulation air passage 28a is formed.

  Thereby, the air sent into the blower outlet unit 3A is blown out into the bathroom 51 from the circulation blowout grill 7A through the circulation air passage 28a.

  And since the heater 25 is arrange | positioned at the circulation blower outlet 24 before the circulation blowing grill 7A, when the heater 25 is energized and heated, the air passing through the circulation blower outlet 24 is warmed and blown out from the circulation blowing grill 7A. .

  Further, in the heating operation mode, since the air passage opening / closing damper 44 is in the open position in the branch chamber 31, a part of the air in the bathroom 51 and the washroom 56 sucked from the suction port units 4 a and 4 b passes through the blowout duct 5. To the outlet unit 3B. And since the heater 37 is driven in the blower outlet unit 3B, the air sent into the blower outlet unit 3B is warmed by the heater 37, and blown out into the washroom 56 and the toilet 57 from the circulation blower grill 7A. The

  Thereby, in heating operation mode, the inside of the bathroom 51 can be heated and the temperature can be raised while circulating the air in the bathroom 51. Further, in the heating operation mode, the bathroom 56 and the toilet 57 are heated by the air sucked from the bathroom 51 with high humidity. Therefore, humidification heating of the sanitary space other than the bathroom 51 can be performed.

  In the heating operation mode, the air passage opening / closing damper 44 of the branch chamber 31 may be controlled to heat only one of the washroom 56 and the toilet 57 other than the bathroom 51. Further, only the bathroom 51 may be heated.

  When the ventilation operation mode is selected by the operation of the operation unit 62B, the control unit 61B of the bathroom air conditioner 1B drives the damper motor 27 of the outlet unit 3A, and the air path switching damper 26 is indicated by a one-dot chain line in FIG. Set to ventilated position. Then, the fan motor 9 of the blower main body 2A is driven to rotate the fan 10. Further, the damper motor 45 of the branch chamber 31 is driven to bring the air passage opening / closing damper 44 into the closed position shown by the one-dot chain line in FIG. In the ventilation operation mode, the heater 25 of the outlet unit 3A is not driven.

  When the fan 10 rotates in the blower main body 2A, the air in the bathroom 51 and the washroom 56 is sucked into the blower main body 2A through the suction duct 6 from the circulation / ventilation suction grill 8 of the suction inlet units 4a and 4b. .

  The air in the bathroom 51 and the washroom 56 sucked into the blower main body 2A is sent into the branch chamber 31 as described above. In the ventilation operation mode, since the air passage opening / closing damper 44 is in the closed position in the branch chamber 31, the air sent into the branch chamber 31 is sent into the outlet unit 3 </ b> A through the outlet duct 5.

  In the ventilation operation mode, since the air path switching damper 26 is in the ventilation position in the air outlet unit 3 </ b> A, the exhaust air path 28 b is formed in the air outlet case 17.

  Thereby, the air sent into the blower outlet unit 3A passes through the exhaust air passage 28b and is discharged to the outside from the exhaust duct 22. Moreover, since the air in the bathroom 51 is discharged to the outside, the air in the bathroom 56 and the like is sucked from an air intake provided in a bathroom door (not shown).

  Thereby, in ventilation operation mode, the steam and moisture in the bathroom 51 can be discharged | emitted, dew condensation etc. can be suppressed and generation | occurrence | production of mold | fungi can be suppressed.

  The bathroom air conditioner 1B may include a sterilization ventilation operation mode in which the ventilation operation mode and the generation of ions are linked.

  In the sterilization ventilation operation mode, the control unit 61B drives the damper motor 27 of the outlet unit 3A to set the air path switching damper 26 to the circulation ventilation position indicated by a two-dot chain line in FIG. Then, the fan motor 9 of the blower main body 2A is driven to rotate the fan 10, and the ion generator 16 is driven to generate both positive ions and negative ions. Further, the damper motor 45 of the branch chamber 31 is driven to bring the air passage opening / closing damper 44 into the open position shown by a solid line in FIG. Even in the sterilization ventilation operation mode, the heater 25 of the outlet unit 3A is not driven.

  When the fan 10 rotates in the blower main body 2A, the air in the bathroom 51 and the washroom 56 is sucked into the blower main body 2A through the suction duct 6 from the circulation / ventilation suction grille 8 of the suction inlet units 4a and 4b. The air sucked into the blower main body 2 </ b> A is sent into the branch chamber 31.

  In the sterilization ventilation operation mode, since the air passage opening / closing damper 44 is in the open position in the branch chamber 31, the air fed into the branch chamber 31 is supplied to both the outlet unit 3 </ b> A and the outlet unit 3 </ b> B through the outlet duct 5. Is sent to.

  In the sterilization ventilation operation mode, since the air path switching damper 26 is in the circulation ventilation position in the air outlet unit 3A, both the circulation air path 28a and the exhaust air path 28b are formed in the air outlet case 17. Yes.

  Thereby, a part of the air sent into the blower outlet unit 3A is blown out from the circulation blow grill 7A into the bathroom 51 through the circulation air passage 28a. And since both positive ions and negative ions are supplied to the air fed into the blowout unit 3A by the ion generator 16, air containing substantially the same number of positive ions and negative ions is blown out into the bathroom 51. .

  A part of the air sent to the blowout unit 3A passes through the exhaust air passage 28b and is discharged from the exhaust duct 22 to the outside. Furthermore, air in the bathroom 51 is discharged to the outside, so that air in the bathroom 56 and the like is sucked from an air intake port provided in a bathroom door (not shown).

  Furthermore, the air sent into the blowout unit 3B is blown out from the circulation blowout grill 7A to the washroom 56 and the toilet 57. Since both positive ions and negative ions are supplied to the air sent to the outlet unit 3B by the ion generator 16, air containing substantially the same number of positive ions and negative ions in the washroom 56 and the toilet 57 is provided. Is blown out.

  Thus, in the sterilization ventilation operation mode, while ventilating the bathroom 51, the floating bacteria contained in the air to be circulated and the floating bacteria in the air in the bathroom 51 are inactivated to prevent the growth of mold bacteria. be able to. Moreover, it is possible to inactivate airborne bacteria in the bathroom 56 and the toilet 57 and prevent the growth of mold fungi.

  In the sterilization ventilation operation mode, the air passage opening / closing damper 44 of the branch chamber 31 may be controlled to supply ions only to either the washroom 56 or the toilet 57 other than the bathroom 51. Further, ions may be supplied only to the bathroom 51. Alternatively, the air path switching damper 26 may be used as a circulation position to generate both positive ions and negative ions only by circulating indoor air without performing ventilation.

  When the drying operation mode is selected by the operation of the operation unit 62B, the control unit 61B of the bathroom air conditioner 1B drives the damper motor 27 of the outlet unit 3A to set the air path switching damper 26 to the circulation ventilation position. Then, the fan motor 9 of the blower main body 2A is driven to rotate the fan 10, and the heater 25 of the outlet unit 3A is driven. Further, the damper motor 45 of the branch chamber 31 is driven to bring the air passage opening / closing damper 44 into the closed position. In the drying operation mode, the heater 37 of the outlet unit 3B is not driven.

  When the fan 10 rotates in the blower main body 2A, the air in the bathroom 51 and the washroom 56 is sucked into the blower main body 2A through the suction duct 6 from the circulation / ventilation suction grille 8 of the suction inlet units 4a and 4b. The air sucked into the blower main body 2 </ b> A is sent into the branch chamber 31.

  In the drying operation mode, since the air passage opening / closing damper 44 is in the closed position in the branch chamber 31, the air sent into the branch chamber 31 is sent into the outlet unit 3 </ b> A through the outlet duct 5.

  Further, in the drying operation mode, since the air passage switching damper 26 is in the circulation ventilation position in the air outlet unit 3A, both the air circulation passage 28a and the exhaust air passage 28b are formed in the air outlet case 17.

  Thereby, a part of the air sent into the blower outlet unit 3A is blown out from the circulation blow grill 7A into the bathroom 51 through the circulation air passage 28a. And since the heater 25 is arrange | positioned at the circulation blower outlet 24 before the circulation blowing grill 7A, when the heater 25 is energized and heated, the air passing through the circulation blower outlet 24 is warmed and blown out from the circulation blowing grill 7A. .

  A part of the air sent to the blowout unit 3A passes through the exhaust air passage 28b and is discharged from the exhaust duct 22 to the outside. Furthermore, air in the bathroom 51 is discharged to the outside, so that air in the bathroom 56 and the like is sucked from an air intake port provided in a bathroom door (not shown).

  Thereby, in dry operation mode, warm air is blown out into the bathroom 51, and the laundry hung on the land pipe (not shown) can be dried. In addition, since a part of the air in the bathroom 51 is exhausted to the outside and is ventilated, moisture and the like can be discharged and drying of the laundry can be promoted.

  Note that the sterilization ventilation operation mode described above may be executed for a predetermined time after the drying operation mode. If the sterilization ventilation operation mode is executed after the drying operation mode, air containing both positive ions and negative ions is blown into the bathroom 51 where the clothes are hung, so that the growth of mold fungi in the clothes, etc. Can be prevented.

  When the cool air operation mode is selected by the operation in the operation unit 62B, the control unit 61B of the bathroom air conditioner 1B drives the damper motor 27 of the outlet unit 3A to set the air path switching damper 26 to the circulation ventilation position. Then, the fan motor 9 of the blower main body 2A is driven to rotate the fan 10. Further, the damper motor 45 of the branch chamber 31 is driven to bring the air passage opening / closing damper 44 into the closed position. In the cool air operation mode, the heater 25 of the outlet unit 3A and the heater 37 of the outlet unit 3B are not driven.

  When the fan 10 rotates in the blower main body 2A, the air in the bathroom 51 and the washroom 56 is sucked into the blower main body 2A through the suction duct 6 from the circulation / ventilation suction grille 8 of the suction inlet units 4a and 4b. The air sucked into the blower main body 2 </ b> A is sent into the branch chamber 31.

  In the cool air operation mode, since the air path opening / closing damper 44 is in the closed position in the branch chamber 31, the air sent into the branch chamber 31 is sent into the outlet unit 3 </ b> A through the outlet duct 5.

  Further, in the cool air operation mode, since the air passage switching damper 26 is in the circulation ventilation position in the air outlet unit 3A, both the air circulation passage 28a and the exhaust air passage 28b are formed in the air outlet case 17.

  Thereby, a part of the air sent into the blower outlet unit 3A is blown out from the circulation blow grill 7A into the bathroom 51 through the circulation air passage 28a. In the cool breeze operation mode, the heater 25 is not energized, so that the wind corresponding to the temperature in the bathroom 51 is blown out from the circulation blow grill 7A.

  A part of the air sent to the blowout unit 3A passes through the exhaust air passage 28b and is discharged from the exhaust duct 22 to the outside. Furthermore, air in the bathroom 51 is discharged to the outside, so that air in the bathroom 56 and the like is sucked from an air intake port provided in a bathroom door (not shown).

  Thereby, in a cool breeze operation mode, a cool breeze can be blown out in the bathroom 51, and it can utilize as a fan. Moreover, since a part of the air in the bathroom 51 is exhausted to the outside and ventilation is performed, moisture and the like can be discharged.

<Effect of bathroom air conditioner of the second embodiment>
In the bathroom air conditioner 1B of the second embodiment described above, the heater 37 is provided in the sanitary space 55 such as the bathroom 56 and the toilet 57 other than the bathroom 51 by connecting the branch chamber 31 to the blower body 2A. The provided outlet unit 3B can be installed.

  Thereby, in the bathroom air conditioner 1B of 2nd Embodiment, in addition to the effect acquired by 1 A of bathroom air conditioners of 1st Embodiment, multi-room heating can be performed.

<Configuration example of bathroom air conditioner according to the third embodiment>
FIG. 10 is a configuration diagram illustrating an example of a bathroom air conditioner according to the third embodiment. FIG. 10A illustrates a lower surface of the ceiling panel 52a of the bathroom 51 including the bathroom air conditioner 1C according to the third embodiment. It is the top view seen from. Moreover, FIG.10 (b) is the side view which looked at the ceiling part of the bathroom 51 provided with 1 C of bathroom air conditioners from the arrow C direction.

  1 C of bathroom air conditioners of 3rd Embodiment are equipped with 2 A of blower main bodies, 3 A of blower outlet units, and the suction inlet unit 4, and are equipped with an electric louver in the blower outlet unit 3C, and can switch a ventilation direction. It is a thing.

  The air blower body 2A constituting the bathroom air conditioner 1C of the third embodiment is the same as the configuration described in FIG. 2, and the suction port unit 4 is the same as the configuration described in FIG. Then, explanation is omitted.

  The blower main body 2A, the outlet unit 3C, and the suction port unit 4 are independent, and the blower main body 2A and the outlet unit 3C are connected via the blowout duct 5. The blower body 2 </ b> A and the suction port unit 4 are connected via a suction duct 6.

  The blowout unit 3C is an example of an air blowout unit, and includes a circulation blowout grill 7B that blows out air into the room. The ceiling panel 52a of the bathroom 51 where the blowout unit 3C is installed has a blowout grill mounting opening (not shown), and the blowout unit 3C exposes the circulation blowout grill 7B toward the bathroom 51 in the bathroom. 51 on the ceiling panel 52a.

  In addition, the installation example of 1 C of bathroom air conditioners of 3rd Embodiment is the same as 1 A of bathroom air conditioners of 1st Embodiment.

<Configuration example of outlet unit>
FIG. 11 is a cross-sectional view showing an example of the internal configuration of the outlet unit 3C. Next, details of the configuration of the outlet unit 3C constituting the bathroom air conditioner 1C of the third embodiment will be described.

  The air outlet unit 3C includes an air outlet duct 17 in which an air passage through which air blown out from the blower main body 2A passes is formed, and an air outlet grille in which the air outlet duct mounting portion 18 to which the air outlet duct 5 is connected and the circulation air outlet grill 7B are attached. A mounting portion 19 is provided.

  In the air outlet unit 3 </ b> C, a circulation / ventilation inlet 20 for sucking air is formed on one side surface of the air outlet case 17, and the air outlet duct attachment portion 18 is attached in communication with the circulation / ventilation inlet 20.

  Further, in the air outlet unit 3C, a ventilation air outlet 21 for blowing out air is formed on the other side of the air outlet case 17 so as to face the circulation / ventilation air inlet 20, and communicates with the ventilation air outlet 21 so that the exhaust duct. An exhaust duct attachment portion 23 to which 22 is connected is attached.

  Further, in the air outlet unit 3C, a circulation air outlet 24 that blows out air is formed in the lower part of the air outlet case 17, the air outlet grille mounting part 19 is attached to the circulation air outlet 24, and a heater 25 is provided in the circulation air outlet 24. .

  The heater 25 is composed of, for example, a PTC heater or the like, and when the heater 25 is energized, the air passing through the circulation outlet 24 is heated, and hot air blows out from the circulation outlet grill 7B attached to the outlet grill attachment portion 19.

  The air outlet unit 3 </ b> C includes an air path switching damper 26 that switches an air path formed in the air outlet case 17. The air path switching damper 26 is rotated about a shaft 26a by a damper motor 27. When the air path switching damper 26 is in a circulation position indicated by a solid line in FIG. 11, the circulation / ventilation suction port 20 is placed in the outlet case 17. A circulation air passage 28a communicating with the circulation outlet 24 is formed.

  Further, when the air path switching damper 26 is in the ventilation position indicated by the alternate long and short dash line in FIG. 11, an exhaust air path 28 b communicating from the circulation / ventilation suction port 20 to the ventilation air outlet 21 is formed in the air outlet case 17. The

  Further, when the air path switching damper 26 is in the circulation ventilation position indicated by a two-dot chain line in FIG. 11, a circulation air path 28 a communicating from the circulation / ventilation inlet 20 to the circulation outlet 24 is provided in the outlet case 17. Both the exhaust air passage 28b communicating from the circulation / ventilation inlet 20 to the ventilation outlet 21 is formed.

  The air outlet unit 3 </ b> C includes a human sensor 46. The human sensor 46 is an example of a state change detection unit, and is attached to, for example, the circulation blow grill 7B facing the bathroom 51, and detects the presence or absence of a person in the bathroom 51.

  FIG. 12 is a configuration diagram showing an example of the circulation blowout grill 7B. The air outlet unit 3C includes an electric louver 47 in the circulation air outlet grill 7B. The electric louver 47 is an example of wind direction switching means, and includes a plurality of rectifying plates 48, a louver motor 49 that changes the direction of each rectifying plate 48, and a link mechanism 50 that transmits driving force to each rectifying plate 48.

  Each rectifying plate 48 is rotatably supported with a shaft 48a as a fulcrum, and the shaft of a louver motor 49 is connected to the shaft 48a of one rectifying plate 48. The louver motor 49 is constituted by a stepping motor, and the rectifying plate 48 can be reciprocally rotated.

  A link lever 50a constituting the link mechanism 50 is attached to each rectifying plate 48, and each link lever 50a is connected by a link rod 50b.

  When the louver motor 49 is rotationally driven in the direction of arrow a, the rectifying plate 48 connected to the louver motor 49 rotates in the direction of arrow a about the shaft 48a, and each rectifying plate 48 is connected by the link lever 50a and the link rod 50b. Therefore, each rectifying plate 48 rotates in the direction of arrow a with the shaft 48a as a fulcrum. Thereby, each baffle plate 48 turns to one direction as shown in FIG.12 (b), for example, the washing room 51a direction of the bathroom 51 shown in FIG.

  On the other hand, when the louver motor 49 is rotationally driven in the direction of arrow b, the rectifying plate 48 connected to the louver motor 49 rotates in the direction of arrow b around the shaft 48a, and each rectifying plate 48 supports the shaft 48a. Rotate in the direction of arrow b. Thereby, each baffle plate 48 faces in the other direction as shown in FIG. 12C, for example, the direction of the land re-pipe 51b (tub 51c) of the bathroom 51 shown in FIG.

<Example of control function of bathroom air conditioner of third embodiment>
FIG. 13 is a functional block diagram illustrating an example of a control system of the bathroom air conditioner 1C according to the third embodiment.

  The bathroom air conditioner 1C includes an operation unit 62C, a fan motor 9 and an ion generator 16 of the blower main body 2A, a heater 25 of the outlet unit 3C, a damper motor 27, a control unit 61C configured by a CPU, a memory, and the like. A louver motor 49 and a human sensor 46 are connected.

  The control unit 61C is an example of a control unit, and executes, for example, a heating operation mode, a ventilation operation mode, a drying operation mode, and a cool air operation mode in accordance with a program stored in a memory (not shown) or the like. These operation modes are selected by a user such as a bather operating the operation unit 62C, and the control unit 61C determines the fan motor according to the program for executing the selected operation mode and the detection result of the human sensor 46. 9. Ion generator 16, heater 25, damper motor 27, louver motor 49 and the like are controlled.

  The operation unit 62C is a remote control device independent of the bathroom air conditioner 1C main body. For example, the operation unit 62C is attached to the wall surface of the bathroom adjacent to the bathroom 51 and mounted on the blower main body 2A. Connected with.

<Operation example of bathroom air conditioner of third embodiment>
Next, operation | movement of 1 C of bathroom air conditioners of 3rd Embodiment is demonstrated with reference to each figure. When the heating operation mode is selected by the operation of the operation unit 62C, the control unit 61C of the bathroom air conditioner 1C drives the damper motor 27 of the outlet unit 3C to set the air path switching damper 26 to the circulation position. Further, the louver motor 49 is driven so that the blowing direction from the circulation blowing grill 7B is set to the washing area 51a. And while driving the fan motor 9 of the air blower main body 2A and rotating the fan 10, the heater 25 of the blower outlet unit 3C is driven.

  When the fan 10 rotates in the air blower main body 2A, the air in the bathroom 51 is sucked into the air blower main body 2A through the suction duct 6 from the circulation / ventilation suction grill 8 of the air inlet unit 4, and the air blower main body 2A. The sucked air in the bathroom 51 is sent to the outlet unit 3C through the outlet duct 5.

  In the heating operation mode, since the air path switching damper 26 is in the circulation position in the air outlet unit 3 </ b> C, the air circulation path 28 a is formed in the air outlet case 17. Thereby, the air sent into the blower outlet unit 3C passes through the circulation air passage 28a, is warmed by the heater 25, and is blown into the bathroom 51 from the circulation blowout grill 7B.

  And since the direction of each baffle plate 48 has faced the washing place 51a direction as shown in FIG.12 (b), the warm air is blown out from the circulation blowing grill 7B toward the washing place 51a.

  Thereby, in heating operation mode, the inside of the bathroom 51 can be heated and the temperature can be raised while circulating the air in the bathroom 51. In the heating operation mode, the hot air blowing direction is the direction of the washing area 51 a, so that the floor surface of the washing area 51 a can be warmed and the bather can prevent the feet from feeling cold when entering the bathroom 51. Can do.

  In the heating operation mode, the control unit 61C monitors the output of the human sensor 46 and, when detecting the presence of a person, drives the louver motor 49 to change the direction of hot air blowing from the washing place 51a to the land re-pipe. You may switch to 51b (tub 51c) direction. Accordingly, it is possible to prevent the bather in the washing area 51a from being exposed to the cold air and not feel cold.

  Further, as a state change detection means, for example, a lighting switch (not shown) of the bathroom 51 is used, and when the lighting of the bathroom 51 is turned on, it is determined that there is a person (bathing person) in the bathroom 51 and the blowing direction of the warm air is changed. You may switch from the washing place 51a to the land re-pipe 51b.

  In addition, a heating operation mode during bathing is provided as the heating operation mode, and when the heating operation mode during bathing is selected by the operation unit 62C, the hot air blowing direction may be switched to a bathtub direction or the like other than the washing place 51a. .

  When the drying operation mode is selected by the operation of the operation unit 62C, the control unit 61C of the bathroom air conditioner 1C drives the damper motor 27 of the outlet unit 3C to set the air path switching damper 26 to the circulation ventilation position. Further, the louver motor 49 is driven so that the air blowing direction from the circulation blowing grill 7B is the direction of the land pipe 51b. And while driving the fan motor 9 of the air blower main body 2A and rotating the fan 10, the heater 25 of the blower outlet unit 3C is driven.

  When the fan 10 rotates in the air blower main body 2A, the air in the bathroom 51 is sucked into the air blower main body 2A through the suction duct 6 from the circulation / ventilation suction grill 8 of the air inlet unit 4, and the air blower main body 2A. The sucked air in the bathroom 51 is sent to the outlet unit 3C through the outlet duct 5.

  In the drying operation mode, since the air path switching damper 26 is in the circulation ventilation position in the air outlet unit 3C, both the air circulation path 28a and the exhaust air air path 28b are formed in the air outlet case 17.

  Thereby, a part of the air sent to the outlet unit 3C passes through the circulation air passage 28a, is heated by the heater 25, and is blown out into the bathroom 51 from the circulation outlet grill 7B.

  In the circulation blow grill 7B, the direction of each rectifying plate 48 is directed toward the land re-pipe 51b as shown in FIG. 12C, so that warm air is blown from the circulation blow grill 7B toward the land re-pipe 51b. The

  A part of the air sent to the blowout unit 3C passes through the exhaust air passage 28b and is discharged to the outside from the exhaust duct 22. Furthermore, since the air in the bathroom 51 is discharged to the outside, the air in the washroom or the like is sucked from an air intake provided in a bathroom door (not shown) or the like.

  As a result, in the dry operation mode, warm air is blown out into the bathroom 51, and laundry such as clothes (not shown) hung on the land pipe 51b can be dried. Further, in the drying operation mode, since the hot air blowing direction is the direction of the land re-pipe 51b, the laundry hung on the land re-pipe 51b can be efficiently dried.

  Here, the louver motor 49 may be driven to swing the rectifying plate 48 without fixing the blowing direction of the warm air in the direction of the land pipe 51b.

  Furthermore, since a part of the air in the bathroom 51 is exhausted to the outside and is ventilated, moisture and the like can be discharged to promote the drying of the laundry.

  In the bathroom air conditioner 1C of the third embodiment, the ventilation operation mode is performed by the same operation as the bathroom air conditioner 1A of the first embodiment. For this reason, in the bathroom air conditioner 1C of the third embodiment, the above-described sterilization ventilation operation mode may be executed for a predetermined time after the drying operation mode. If the sterilization ventilation operation mode is executed after the drying operation mode, air containing both positive ions and negative ions is blown into the bathroom 51 where the clothes are hung, so that the growth of mold fungi in the clothes, etc. Can be prevented.

  Moreover, in the bathroom air conditioner 1C of the third embodiment, the cool air operation mode is the same as that of the bathroom air conditioner 1A of the first embodiment except that the blowing direction of the airflow is directed to the direction of the land re-pipe 51b (tub 51c). Done in the same way.

<Effect of bathroom air conditioner of third embodiment>
In the bathroom air conditioner 1C of the third embodiment described above, the effect obtained in the bathroom air conditioner 1A of the first embodiment by including the electric louver 47 in the circulation outlet grille 7B of the outlet unit 3C. In addition to this, it is possible to blow air to an optimum location according to the operation mode. Moreover, since the ventilation direction can be selected, the freedom degree of the installation position of 3 C of blower outlet units further improves.

  Furthermore, the bathroom air conditioner 1C according to the third embodiment includes the human sensor 46 and the like, and can switch the blowing direction of the warm air during the heating operation with or without a person. You can avoid feeling cold by not hitting it.

<Configuration example of bathroom air conditioner according to the fourth embodiment>
FIG. 14 is a block diagram showing an example of a bathroom air conditioner according to the fourth embodiment. FIG. 14 (a) shows a lower surface of the ceiling panel 52a of the bathroom 51 provided with the bathroom air conditioner 1D according to the fourth embodiment. It is the top view seen from. Moreover, FIG.14 (b) is the side view which looked at the ceiling part of the bathroom 51 provided with bathroom air conditioner 1D from the arrow D direction.

  Bathroom air conditioner 1D of 4th Embodiment is equipped with 2 A of air blower main bodies, the blower outlet unit 3D, the suction inlet unit 4, and the heater damper unit 71, and the blower outlet unit 3D is near the floor surface of the bathroom 51. It is arranged in.

  Note that the air blower main body 2A constituting the bathroom air conditioner 1D of the fourth embodiment is the same as the configuration described in FIG. 2, and the suction port unit 4 is the same as the configuration described in FIG. Then, explanation is omitted.

  The blower body 2A, the air outlet unit 3D, the suction port unit 4 and the heater damper unit 71 are independent, and the blower body 2A and the heater damper unit 71 are connected via the blowout duct 5, and the heater damper unit 71 and the blower unit 71 are blown. The outlet unit 3D is connected via the blowout duct 5. The blower body 2 </ b> A and the suction port unit 4 are connected via a suction duct 6.

  The outlet unit 3D is an example of an air outlet, and includes a circulation outlet grill 7C that blows out air into the room. A blower grill mounting opening (not shown) is formed on the wall surface panel 52b of the bathroom 51 where the blowout unit 3D is installed. The blowout unit 3D is configured to expose the circulation blowout grill 7C toward the bathroom 51. 51 wall panels 52b. The outlet unit 3D may have the same configuration as the inlet unit 4 described with reference to FIG. 4, for example, as long as it has a configuration for connecting the outlet duct 5 and the circulation outlet grill 7C.

<Configuration example of heater damper unit>
FIG. 15 is a cross-sectional view showing an example of the internal configuration of the heater damper unit 71. Next, details of the configuration of the heater damper unit 71 constituting the bathroom air conditioner 1D of the fourth embodiment will be described.

  The heater damper unit 71 includes a blower duct mounting portion 73 in which a blower duct 5 connected to the blower main body 2A is connected to a heater damper case 72 in which an air passage through which air blown from the blower main body 2A passes is formed, and a blowout outlet unit The blower duct attachment part 74 to which the blowout duct 5 connected to 3D is connected is provided.

  In the heater damper unit 71, a circulation / ventilation suction port 75 for sucking air is formed on one side surface of the heater damper case 72, and an outlet duct attaching portion 73 is attached to the circulation / ventilation suction port 75.

  In the heater damper unit 71, a circulation outlet 76 for blowing out air is formed on the other side surface of the heater damper case 72, and an outlet duct attaching portion 74 is attached to the circulation outlet 76, and a heater 77 is attached to the circulation outlet 76. Is provided. The heater 77 is an example of a heating unit, and is composed of, for example, a PTC heater. When the heater 77 is energized, the air passing through the circulation outlet 76 is heated.

  Further, in the heater damper unit 71, a ventilation outlet 78 for blowing out air is formed on the other side surface of the heater damper case 72, and an exhaust duct attachment portion 79 to which the exhaust duct 22 is connected is attached to the ventilation outlet 78.

  The heater damper unit 71 includes an air path switching damper 80 that switches an air path formed in the heater damper case 72. The air path switching damper 80 is an example of an air path switching means, and is rotated around a shaft 80a by a damper motor 81. When the air path switching damper 80 is at a circulation position indicated by a solid line in FIG. A circulation air passage 82a communicating from the circulation / ventilation suction port 75 to the circulation outlet 76 is formed.

  Further, when the air path switching damper 80 is in the ventilation position indicated by the one-dot chain line in FIG. 15, an exhaust air path 82 b communicating from the circulation / ventilation inlet 75 to the ventilation outlet 78 is formed in the heater damper case 72. The

  Further, when the air path switching damper 80 is in the circulation ventilation position indicated by a two-dot chain line in FIG. 15, a circulation air path 82 a communicating from the circulation / ventilation inlet 75 to the circulation outlet 76 is provided in the heater damper case 72. Both the exhaust air passage 82b communicating from the circulation / ventilation suction port 75 to the ventilation outlet 78 is formed.

<Installation example of bathroom air conditioner according to the fourth embodiment>
Next, with reference to FIG. 14 etc., the installation example of bathroom air conditioner 1D of 4th Embodiment is demonstrated. Here, the installation example of 2 A of air blower main bodies and the inlet unit 4 installed in the bathroom 51 is the same as 1 A of bathroom air conditioners of 1st Embodiment.

  The wall panel 52b of the bathroom 51 is provided with a blow grill attachment opening (not shown) at the installation position of the blow outlet unit 3D. The blow outlet unit 3D is installed on the wall panel 52b via a frame or the like (not shown). A circulation outlet grill 7C is attached to the outlet unit 3D.

  Thereby, bathroom air conditioner 1D is the form which exposes circulation blowing grille 7C to the bathroom 51 side, and blower outlet unit 3D is installed in wall surface panel 52b of bathroom 51.

  Here, the installation position of the outlet unit 3 </ b> D is set near the floor of the bathroom 51, and the circulation outlet grill 7 </ b> C is arranged near the floor of the bathroom 51.

<Example of control function of bathroom air conditioner according to fourth embodiment>
FIG. 16 is a functional block diagram illustrating an example of a control system of the bathroom air conditioner 1D according to the fourth embodiment.

  The bathroom air conditioner 1D includes a control unit 61D configured by a CPU, a memory, and the like, an operation unit 62D, the fan motor 9 and the ion generator 16 of the blower body 2A, the heater 77 and the damper motor 81 of the heater damper unit 71, and the like Is connected.

  The control unit 61D is an example of a control unit, and executes, for example, a heating operation mode, a ventilation operation mode, a drying operation mode, and a cool air operation mode according to a program stored in a memory (not shown). These operation modes are selected by a user such as a bather operating the operation unit 62D, and the control unit 61D performs the fan motor 9, the ion generator 16, the heater 77 in accordance with a program for executing the selected operation mode. And the damper motor 81 and the like are controlled.

  The operation unit 62D is a remote control device that is independent of the bathroom air conditioner 1D main body. For example, the operation unit 62D is attached to the wall surface of the bathroom adjacent to the bathroom 51 and mounted on the blower main body 2A. Connected with.

<Operation example of bathroom air conditioner of the fourth embodiment>
Next, operation | movement of bathroom air conditioner 1D of 4th Embodiment is demonstrated with reference to each figure. When the heating operation mode is selected by the operation in the operation unit 62D, the control unit 61D of the bathroom air conditioner 1D drives the damper motor 81 of the heater damper unit 71, and the air path switching damper 80 is circulated as indicated by a solid line in FIG. To position. Then, the fan motor 9 of the blower main body 2A is driven to rotate the fan 10 and the heater 77 of the heater damper unit 71 is driven.

  When the fan 10 rotates in the air blower main body 2A, the air in the bathroom 51 is sucked into the air blower main body 2A through the suction duct 6 from the circulation / ventilation suction grill 8 of the air inlet unit 4, and the air blower main body 2A. The sucked air in the bathroom 51 is sent to the heater damper unit 71 through the blowout duct 5.

  In the heating operation mode, since the air path switching damper 80 is in the circulation position in the heater damper unit 71, a circulation air path 82 a is formed in the heater damper case 72. Thereby, the air sent to the heater damper unit 71 passes through the circulation air passage 82 a, is warmed by the heater 77, and is sent to the outlet unit 3 </ b> D via the outlet duct 5.

  Then, the warmed air sent to the blowout unit 3D is blown out from the circulation blowout grill 7C near the floor surface of the bathroom 51.

  Thereby, in heating operation mode, the inside of the bathroom 51 can be heated and the temperature can be raised while circulating the air in the bathroom 51. Moreover, since the circulation grille 7C is disposed near the floor surface of the bathroom 51, the vicinity of the floor surface of the washing place 51a can be warmed, and when the bather enters the bathroom 51, the feet are prevented from feeling cold. Can do.

  When the ventilation operation mode is selected by the operation of the operation unit 62D, the control unit 61D of the bathroom air conditioner 1D drives the damper motor 81 of the heater damper unit 71, and the air path switching damper 80 is indicated by a one-dot chain line in FIG. Set to ventilated position. Then, the fan motor 9 of the blower main body 2A is driven to rotate the fan 10. In the ventilation operation mode, the heater 77 of the heater damper unit 71 is not driven.

  When the fan 10 rotates in the air blower main body 2A, the air in the bathroom 51 is sucked into the air blower main body 2A through the suction duct 6 from the circulation / ventilation suction grill 8 of the air inlet unit 4, and the air blower main body 2A. The sucked air in the bathroom 51 is sent to the heater damper unit 71 through the blowout duct 5.

  In the ventilation operation mode, since the air path switching damper 80 is in the ventilation position in the heater damper unit 71, an exhaust air path 82 b is formed in the heater damper case 72.

  Thereby, the air sent into the heater damper unit 71 passes through the exhaust air passage 82b and is discharged to the outside from the exhaust duct 22. Furthermore, since the air in the bathroom 51 is discharged to the outside, the air in the washroom or the like is sucked from an air intake provided in a bathroom door (not shown) or the like.

  Thereby, in ventilation operation mode, the steam and moisture in the bathroom 51 can be discharged | emitted, dew condensation etc. can be suppressed and generation | occurrence | production of mold | fungi can be suppressed. The bathroom air conditioner 1D may also include a sterilization ventilation operation mode in which the ventilation operation mode and the generation of ions are linked.

  When the drying operation mode is selected by the operation in the operation unit 62D, the control unit 61D of the bathroom air conditioner 1D drives the damper motor 81 of the heater damper unit 71, and the air path switching damper 26 is indicated by a two-dot chain line in FIG. Set to the indicated circulation ventilation position. Then, the fan motor 9 of the blower main body 2A is driven to rotate the fan 10 and the heater 77 of the heater damper unit 71 is driven.

  When the fan 10 rotates in the air blower main body 2A, the air in the bathroom 51 is sucked into the air blower main body 2A through the suction duct 6 from the circulation / ventilation suction grill 8 of the air inlet unit 4, and the air blower main body 2A. The sucked air in the bathroom 51 is sent to the heater damper unit 71 through the blowout duct 5.

  In the drying operation mode, since the air path switching damper 80 is in the circulation ventilation position in the heater damper unit 71, both the circulation air path 82a and the exhaust air path 82b are formed in the heater damper case 72.

  Thereby, a part of the air sent to the heater damper unit 71 passes through the circulation air passage 82a, is warmed by the heater 77, and sent to the outlet unit 3D through the outlet duct 5. Then, the warmed air sent to the blowout unit 3D is blown out from the circulation blowout grill 7C near the floor surface of the bathroom 51.

  A part of the air sent to the heater damper unit 71 passes through the exhaust air passage 82b and is discharged from the exhaust duct 22 to the outside. Furthermore, since the air in the bathroom 51 is discharged to the outside, the air in the washroom or the like is sucked from an air intake provided in a bathroom door (not shown) or the like.

  As a result, in the dry operation mode, warm air is blown out into the bathroom 51, and laundry such as clothes (not shown) hung on the land pipe 51b can be dried. In addition, since a part of the air in the bathroom 51 is exhausted to the outside and is ventilated, moisture and the like can be discharged and drying of the laundry can be promoted.

  In the bathroom air conditioner 1D of the fourth embodiment, the above-described sterilization ventilation operation mode may be executed for a predetermined time after the drying operation mode. If the sterilization ventilation operation mode is executed after the drying operation mode, air containing both positive ions and negative ions is blown into the bathroom 51 where the clothes are hung, so that the growth of mold fungi in the clothes, etc. Can be prevented.

  When the cool air operation mode is selected by the operation in the operation unit 62D, the control unit 61D of the bathroom air conditioner 1D drives the damper motor 81 of the heater damper unit 71, and the air path switching damper 26 is indicated by a two-dot chain line in FIG. Set to the indicated circulation ventilation position. Then, the fan motor 9 of the blower main body 2A is driven to rotate the fan 10. In the cool air operation mode, the heater 77 of the heater damper unit 71 is not driven.

  When the fan 10 rotates in the air blower main body 2A, the air in the bathroom 51 is sucked into the air blower main body 2A through the suction duct 6 from the circulation / ventilation suction grill 8 of the air inlet unit 4, and the air blower main body 2A. The sucked air in the bathroom 51 is sent to the heater damper unit 71 through the blowout duct 5.

  In the cool air operation mode, since the air path switching damper 80 is in the circulation ventilation position in the heater damper unit 71, both the circulation air path 82 a and the exhaust air path 82 b are formed in the heater damper case 72.

  Thereby, a part of the air sent to the heater damper unit 71 passes through the circulation air passage 82a and is sent to the outlet unit 3D via the outlet duct 5. And the air sent into the blower outlet unit 3D blows off from the circulation blow grill 7C near the floor surface of the bathroom 51.

  A part of the air sent to the heater damper unit 71 passes through the exhaust air passage 82b and is discharged from the exhaust duct 22 to the outside. Furthermore, since the air in the bathroom 51 is discharged to the outside, the air in the washroom or the like is sucked from an air intake provided in a bathroom door (not shown) or the like.

  Thereby, in a cool breeze operation mode, a cool breeze can be blown out in the bathroom 51, and it can utilize as a fan. Moreover, since a part of the air in the bathroom 51 is exhausted to the outside and ventilation is performed, moisture and the like can be discharged.

<Effect of bathroom air conditioner according to the fourth embodiment>
In the bathroom air conditioner 1B of the fourth embodiment described above, the air outlet unit 3D is arranged near the floor surface of the bathroom 51, so in addition to the effects obtained with the bathroom air conditioner 1A of the first embodiment. In the heating operation mode, the vicinity of the floor surface of the washing area 51a can be heated, and when the bather enters the bathroom 51, the feet can be prevented from feeling cold.

  In the dry operation mode, warmed air is supplied from below the bathroom 51 and air is sucked in from above the bathroom 51, so that warm air easily passes through the entire laundry hung on the land pipe 51 b and is dried. Can be promoted.

  In the bathroom air conditioner 1D according to the fourth embodiment, the heater damper unit 71 may be provided with a heater instead of the heater damper unit 71. Moreover, you may arrange | position the suction inlet unit 4 above the wall surface panel 52b.

  The present invention is referred to as a bathroom ventilation drying / heating machine or the like, and is applied to an air conditioning apparatus for a bathroom having functions such as heating and ventilation in the bathroom and drying of laundry.

It is a block diagram which shows an example of the bathroom air conditioner of 1st Embodiment. It is sectional drawing which shows an example of an internal structure of an air blower main body. It is sectional drawing which shows an example of an internal structure of a blower outlet unit. It is sectional drawing which shows an example of the internal structure of a suction inlet unit. It is a functional block diagram which shows an example of the control system of the bathroom air conditioner of 1st Embodiment. It is a block diagram which shows an example of the bathroom air conditioner of 2nd Embodiment. It is sectional drawing which shows an example of an internal structure of a blower outlet unit. It is sectional drawing which shows an example of an internal structure of a branch chamber. It is a functional block diagram which shows an example of the control system of the bathroom air conditioner of 2nd Embodiment. It is a block diagram which shows an example of the bathroom air conditioner of 3rd Embodiment. It is sectional drawing which shows an example of an internal structure of a blower outlet unit. It is a block diagram which shows an example of a circulation blowing grill. It is a functional block diagram which shows an example of the control system of the bathroom air conditioner of 3rd Embodiment. It is a block diagram which shows an example of the bathroom air conditioner of 4th Embodiment. It is sectional drawing which shows an example of an internal structure of a heater damper unit. It is a functional block diagram which shows an example of the control system of the bathroom air conditioner of 4th Embodiment.

Explanation of symbols

1A, 1B, 1C, 1D ... Bathroom air conditioner, 2A ... Blower body, 3A, 3B, 3C, 3D ... Blowout unit, 4 ... Suction port unit, 5 ... Blowout duct , 6 ... suction duct, 7A, 7B, 7C ... circulation blow grill, 8 ... circulation / ventilation suction grill, 9 ... fan motor, 10 ... fan, 11 ... fan case, DESCRIPTION OF SYMBOLS 11a ... Fan suction inlet, 11b ... Fan blower outlet, 12 ... Main body case, 13 ... Blowout duct attachment part, 14 ... Suction air path, 15 ... Suction duct attachment part, 16 ... Ion generator, 17 ... Blowout outlet case, 18 ... Blowout duct mounting portion, 19 ... Blowout grill mounting portion, 20 ... Circulation / ventilation suction port, 21 ... Ventilation blowout port 22 ... Exhaust duct, 23 ... Exhaust duct mounting part, 24. Circulation outlet, 25 ... heater, 26 ... air path switching damper, 27 ... damper motor, 28a ... circulation air path, 28b ... exhaust air path, 29 ... chamber, 30 ··· Suction grill mounting portion, 31 ··· Branch chamber, 32 ··· outlet case, 33 · · · outlet duct mounting portion, 34 · · · outlet grill mounting portion, 35 ··· circulation inlet, 36 · ..Circulation outlet, 37 ... heater, 38 ... branch case, 39 ... main outlet duct mounting part, 40 ... sub outlet duct mounting part, 41 ... circulation / ventilation inlet, 42 ... circulation / ventilation outlet, 43 ... circulation outlet, 44 ... airway opening / closing damper, 45 ... damper motor, 46 ... human sensor, 47 ... electric louver, 48・ Rectifying plate, 48a ... shaft, 49 ... louver motor, 50 ... Link mechanism, 50a ... link lever, 50b ... link rod, 51 ... bathroom, 51a ... washing area, 51b ... Landry pipe, 51c ... tub, 52 ... ceiling panel, 53a ... Blowout grill mounting opening, 53b ... Suction grill mounting opening, 55 ... Sanitary space, 56 ... Toilet, 56a ... Ceiling panel, 57 ... Toilet, 57a ... Ceiling panel, 61A, 61B, 61C, 61D ... control unit, 62A, 62B, 62C, 62D ... operation unit, 71 ... heater damper unit, 72 ... heater damper case, 73 ... blowout Duct mounting part, 74 ... Blowout duct mounting part, 75 ... Circulation / ventilation inlet, 76 ... Circulation outlet, 77 ... Heater, 78 ... Ventilation outlet, 79 ... Exhaust Duct installation , 80... Air path switching damper, 81... Damper motor, 82 a... Circulating air path, 82 b.

Claims (6)

A blower main body that sucks air and blows out the sucked air;
An air suction portion connected to the air blower body through a duct member and having an air suction port for sucking air ;
An air blowing part connected to the air blower body through a duct member and having an air blowing outlet for blowing air ;
The blower body is installed on the upper surface side of the ceiling panel,
The air suction part is installed with the air suction port exposed to a ceiling panel or a wall panel,
The air blowing unit is an air conditioner installed with the air blowing port exposed to a ceiling panel or a wall panel ,
The air inlet and the air outlet are configured such that the lateral length is longer than the longitudinal length,
The length in the short direction is configured to be approximately equal and arranged in a line in the longitudinal direction,
The air inlet and the air outlet are configured on substantially the same plane as the ceiling panel or the wall panel,
In the arrangement position of the air inlet and the air outlet, a metal or resin frame is installed,
An air conditioner characterized in that a grille is attached to a frame portion at the air inlet and the air outlet . A blower main body that sucks air and blows out the sucked air;
An air suction portion connected to the air blower body through a duct member and having an air suction port for sucking air;
An air blowing part connected to the air blower body through a duct member and having an air blowing outlet for blowing air;
The blower body is installed on the upper surface side of the ceiling panel,
The air suction part is installed with the air suction port exposed to a ceiling panel or a wall panel,
The air blowing unit is an air conditioner installed with the air blowing port exposed to a ceiling panel or a wall panel,
The air blowing part is
A blower grill mounting portion for mounting the blower grill is provided,
Air path switching means for switching whether the air sent from the blower body through the duct member is blown out from the air outlet or discharged to the outside;
Air-conditioning apparatus characterized in that a heating means for heating the air blown from the air outlet. The air blowing unit is a wind direction switching unit that switches a blowing direction of air blown from the air blowing port ,
Control means for controlling the wind direction switching means so as to switch the blowing direction of the air blown from the air outlet ;
E Bei a state change detecting means for detecting a change in the room in a state in which the air blowing unit is installed,
The control means includes
3. The air conditioner according to claim 1, wherein when the change in the indoor state is detected by the state change detection unit, the air blowing direction is switched by the wind direction switching unit in accordance with an operation mode . An air branching portion for branching air blown from the blower body,
The air blowing part is installed at least in the first room and the second room, and each air blowing part is connected to the air branching part via the duct member ,
The air conditioner according to any one of claims 1 to 3 , wherein the air branching unit includes air passage opening / closing means for switching the air blowing unit that feeds air blown from the blower body . The air conditioner according to any one of claims 1 to 4 , wherein the blower main body includes ion generating means for generating positive ions and negative ions and supplying ions to the blown-out air. The air conditioner according to any one of claims 1 to 5 , wherein the air blowing section has the air blowing outlet disposed in the vicinity of an indoor floor surface.

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