CN103090502A - Air supply device - Google Patents

Abstract

An air supply device is provided with a suction inlet, a blowout wind path, an air supply part for sucking the air from the suction inlet and blowing out to the blowout wind path, a heating part for heating the air passing through the blowout wind path, a first blowout port for blowing out the air passing through the heating part, and a second blowout port for generating wind blowing for stirring indoor air.

Description

Air-supply arrangement

Technical field

The present invention relates to be arranged at bathroom etc., blow out the air-supply arrangement of warm braw or the air corresponding with room temperature.

Background technology

At present, motion is arranged at the tops such as bathroom, blows out warm braw or the air corresponding with room temperature, realizes the air-supply arrangement of the functions such as drying of indoor heating, the indoor thing that is dried.This air-supply arrangement has the ventilatory with the exhaust outside the room of indoor air mostly, and is called as the dry heat supplier of bathroom aerating.

The dry heat supplier of bathroom aerating possesses the blow-off outlet of air and is arranged at the top, bathroom with blow-off outlet towards the mode in the bathroom at the lower surface of its front panel.Example motion as the dry heat supplier of bathroom aerating has, the operation mode that possesses the things that are dried such as clothing in dry bathroom, the blow-off direction of air is fixed as the dry heat supplier (for example, with reference to patent documentation 1) of bathroom aerating of the direction of regulation in the mode that blows out warm braw on a large scale.

In addition, also motion has the formation that possesses the switching wind direction that is called as electric-powered shutter, the dry heat supplier of bathroom aerating that can switch wind direction according to operation or the operation mode of operating portion, and the dry heat supplier of bathroom aerating that can the manual switchover wind direction.

In addition, and having, motion can blow out equably from blow-off outlet the dry heat supplier (for example, with reference to patent documentation 2,3) of bathroom aerating of warm braw.

In patent documentation 2, motion has, and possesses cowling panel in body, utilizes cowling panel to carry out pressure drop to the air that is sent by pressure fan, regulates the air capacity by heater, thus the dry heat supplier of the bathroom aerating of quantity-adjustable.

In addition, in patent documentation 2, motion has the dry heat supplier of following bathroom aerating, possess relative with the blow-off outlet of determining size, be used for and the adjuster because of the space integral body beyond obstruction heater corresponding to the different and different situation of device specification such as the size of heater, number, whole by stopping up the space that heater is not set, make the air that is sent by pressure fan equably by heater, and make and blow out temperature and be made as necessarily.

In patent documentation 3, motion has the dry heat supplier of following bathroom aerating, possess by the wind path of heater and the wind path by heater not, to not become even by the air quantity in the fast wind path of the wind speed of heater in blow-off outlet, make not air by the heater thing that is dried in blowing, at short notice the drying thing that is dried.

Patent documentation 1: the JP 2004-278956 of Japan communique

Patent documentation 2: the JP 2003-097818 of Japan communique

Patent documentation 3: the JP 2005-098557 of Japan communique

Be fixed as in the dry heat supplier of existing bathroom aerating of prescribed direction at the blow-off direction with air, warm braw blows out on a large scale, but warm braw can directly not blow in all things that is dried.Therefore, the thing drying that is dried during warm braw directly blows, but the be dried thing of warm braw in directly not blowing is difficult to drying, and drying needs the time.

In the formation of utilizing electric-powered shutter switching wind direction, same, switch wind direction, the thing that is dried during warm braw directly blows carries out drying, and the thing that is dried in not blowing is difficult to drying, and drying needs the time.Even the formation of manual switchover wind direction too.

In addition, as patent documentation 2 and patent documentation 3, even from blow-off outlet blow out air equably, can not make warm braw directly blow in all things that is dried.Therefore, the thing that is dried during warm braw directly blows carries out drying, but the thing that is dried in not blowing is difficult to drying, and drying needs the time.

As patent documentation 3, even if air by heater is dried in blowing in the dry heat supplier of bathroom aerating of thing, due to the warm braw that blows out by heater with do not blow out to equidirectional by the fast air of the wind speed of heater, therefore, can not make the wind of sending here directly blow in all things that is dried, the drying of the thing that is dried during the wind of sending here does not blow needs the time.

Summary of the invention

It is a kind of by producing the indoor Air Flow that stirs that embodiments of the present invention provide, and reduces the air-supply arrangement of the needed energy such as drying of the thing that is dried.

Air-supply arrangement also can possess: suction inlet, blow out wind path, from the suction inlet air amount and to the heating part that blows out air supplying part that wind path blows out, the heating air by blowing out wind path, blow out the first blow-off outlet by the air of heating part, produce second blow-off outlet that flows of the wind that stirs room air.

Description of drawings

Fig. 1 means the pie graph of an example of the dry heat supplier of the bathroom aerating of the first embodiment;

Fig. 2 means the pie graph of an example of the dry heat supplier of the bathroom aerating of the first embodiment;

Fig. 3 means the pie graph of an example of the dry heat supplier of the bathroom aerating of the first embodiment;

Fig. 4 means the pie graph of the setting example of the dry heat supplier of the bathroom aerating of the first embodiment;

Fig. 5 means the action specification figure of the Air Flow in the bathroom of the dry heat supplier of the bathroom aerating of the first embodiment;

Fig. 6 means the pie graph of an example of the dry heat supplier of the bathroom aerating of the second embodiment;

Fig. 7 means that wind path opens and closes the side view of an example of the driving mechanism of baffle plate;

Fig. 8 means that wind path opens and closes the exploded perspective view of an example of the driving mechanism of baffle plate;

Fig. 9 means the action specification figure of the Air Flow in the bathroom of the dry heat supplier of the bathroom aerating of the second embodiment;

Figure 10 means the action specification figure of the switching of the wind path in each operation mode;

Figure 11 means the action specification figure of the switching of the wind path in each operation mode;

Figure 12 means the action specification figure of the switching of the wind path in each operation mode;

Figure 13 means the action specification figure of the switching of the wind path in each operation mode;

Figure 14 means the pie graph of the variation of the dry heat supplier of the bathroom aerating of each embodiment;

Figure 15 means the pie graph of the variation of the dry heat supplier of the bathroom aerating of each embodiment;

Figure 16 means the pie graph of the variation of the dry heat supplier of the bathroom aerating of the second embodiment;

Figure 17 means the pie graph of another variation of the dry heat supplier of the bathroom aerating of the second embodiment;

Figure 18 means the pie graph of the another variation of the dry heat supplier of the bathroom aerating of the second embodiment;

Figure 19 means the stereogram of the variation of the dry heat supplier of the bathroom aerating of each embodiment;

Figure 20 means the stereogram of the variation of the dry heat supplier of the bathroom aerating of each embodiment.

Symbol description

1A ... the dry heat supplier of bathroom aerating, 2A ... the cyclical breathing fan, 20A ... the cyclical breathing suction inlet, 21A ... the first blow-off outlet, 22A ... the second blow-off outlet, 23A ... the ventilation blow-off outlet, 24 ... wind path switches baffle plate, 25A ... impeller, 26A ... the cyclical breathing fan motor, 27A ... the cyclical breathing blower-casting, 28A ... blow out wind path, 3A ... main part, 30A ... main stand, 31A ... metal shell, 32A ... flange part, 33A ... bottom, 34A ... the discharge duct joint, 4A ... front panel, 40A ... the suction inlet grid, 41A ... the first blow-off outlet grid, 42A ... the second blow-off outlet grid, 43A ... cowling panel, 5 ... heater, 50 ... wind path forms framework, 51A ... partition component, 100 ... the bathroom, 101 ... ceiling, 102 ... discharge duct, 102a ... grid outside the room, 103 ... bathtub, 104 ... the washing field, 105 ... clothes airing-tube, 106a, 106b ... metope

The specific embodiment

Below, with reference to accompanying drawing, embodiment and variation as the dry heat supplier of the bathroom aerating of air-supply arrangement are described.In addition, embodiment and variation be the example of invention just, does not limit invention, and all features that embodiment and variation are recorded and narrated and combination thereof be essence of the present invention not necessarily.

＜configuration example of the dry heat supplier of the bathroom aerating of the first embodiment 〉

Fig. 1～Fig. 3 means the pie graph of an example of the dry heat supplier of the bathroom aerating of the first embodiment.Fig. 1 means the side view that the inside of the dry heat supplier of bathroom aerating consists of.Fig. 2 is the plane of the dry heat supplier of bathroom aerating observed from following side.Fig. 3 means the plane of the dry heat supplier of bathroom aerating under the state that front panel is installed.Fig. 4 means the pie graph of the setting example of the dry heat supplier of the bathroom aerating of the first embodiment.

The main part 3A of the dry heat supplier 1A of bathroom aerating is installed on the top in bathroom 100 in the mode of exposing front panel 4A.Main part 3A has cyclical breathing fan 2A.

The dry heat supplier 1A of bathroom aerating possesses cyclical breathing suction inlet 20A, the first blow-off outlet 21A and the second blow-off outlet 22A.Cyclical breathing fan 2A sucks the interior air in bathroom 100 from cyclical breathing suction inlet 20A.The first blow-off outlet 21A has heater 5, blows out warm braw from the first blow-off outlet 21A.The second blow-off outlet 22A produces the wind that stirs the air in bathroom 100.

In addition, the dry heat supplier 1A of bathroom aerating possesses ventilation blow-off outlet 23A.The air that cyclical breathing fan 2A sucks from cyclical breathing suction inlet 20A is from ventilation blow-off outlet 23A exhaust outside the bathroom.In addition, the dry heat supplier 1A of bathroom aerating possesses the wind path switching baffle plate 6A that switches wind path between the first blow-off outlet 21A and the second blow-off outlet 22A and ventilation blow-off outlet 23A.

The dry heat supplier 1A of bathroom aerating utilizes the Air Flow that blows out from the second blow-off outlet 22A by front panel 4A, produces the wind that stirs the air in bathroom 100.Utilize the wind that stirs the air in this bathroom 100, in bathroom 100, such place the warm braw that blows out from the first blow-off outlet 21A by front panel 4A does not directly blow also produces Air Flow.

Like this, the dry heat supplier 1A of bathroom aerating blow out warm braw to bathroom 100 and to bathroom 100 in take a breath and carry out being easy to evaporate clothing moisture under the dry operation mode such as clothing, reduce the dry needed energy such as clothing.

According to an example of embodiment, cyclical breathing fan 2A possesses the cyclical breathing fan motor 26A of impeller 25A, the drives impeller 25A of multiple wing, the cyclical breathing blower-casting 27A of formation wind path.Impeller 25A is recycled scavenger fan motor 26A and drives and be rotated, thereby produces from the inboard to outer circumferential side and the Air Flow that is blown at centrifugal direction.

Cyclical breathing blower-casting 27A has along the circular position of the periphery of impeller 25A with along the part combination of the tangential direction of impeller 25A and the shape that obtains.The air that cyclical breathing blower-casting 27A rectification blows out to the centrifugal direction of impeller 25A produces the Air Flow that blows out along the tangential direction of impeller 25A.

According to an example of embodiment, dry heat supplier 1A is arranged at arranging under the state that the place is the top, bathroom of regulation at bathroom aerating, and cyclical breathing fan 2A consists of towards the configuration of above-below direction with the direction of the rotating shaft of impeller 25A.

Thus, in cyclical breathing fan 2A, the air that utilizes cyclical breathing blower-casting 27A to form will to suck from the below along the rotating shaft of impeller 25A blows out wind path 28A to what the tangential direction of impeller 25A blew out.

Cyclical breathing fan 2A possesses the cyclical breathing suction inlet 20A of air amount at the lower surface of cyclical breathing blower-casting 27A.In addition, cyclical breathing fan 2A possesses at the lower surface of cyclical breathing blower-casting 27A and blows out by driving heater 5 heated air or the first blow-off outlet 21A of the air corresponding with the temperature in bathroom 100 by heater 5 is made as non-driving.

In addition, cyclical breathing fan 2A possesses at the lower surface of cyclical breathing blower-casting 27A and blows out the second blow-off outlet 22A that stirs the air in bathroom 100.In addition, cyclical breathing fan 2A possesses the ventilation blow-off outlet 23A to outdoor blow out air in the side of cyclical breathing blower-casting 27A.

Cyclical breathing suction inlet 20A is made of the bell-mouthed circular open that is called as of being located at along the below of the rotating shaft of impeller 25A.The first blow-off outlet 21A by be located at the lower surface that blows out wind path 28A, so that the oblong openings as minor face consists of along the limit of the Air blowing direction of cyclical breathing blower-casting 27A.

The second blow-off outlet 22A is by so that the oblong openings as minor face consists of along the limit of the Air blowing direction of cyclical breathing blower-casting 27A.Consist of the opening of this second blow-off outlet 22A at the lower surface that blows out wind path 28A, be located at the opposition side of cyclical breathing suction inlet 20A with respect to the first blow-off outlet 21A.

The wind path 28A that blows out that is made of cyclical breathing blower-casting 27A enlarges at the position that the first blow-off outlet 21A and the second blow-off outlet 22A are set, in the position constriction that ventilation blow-off outlet 23A is set.For the first blow-off outlet 21A and the second blow-off outlet 22A, the length of the long limit that intersects with limit along the Air blowing direction of cyclical breathing blower-casting 27A and the width of main part 3A is consistent.

The first blow-off outlet 21A and the second blow-off outlet 22A form framework 50A by the wind path of being located at cyclical breathing blower-casting 27A lower surface and consist of.The first blow-off outlet 21A and the second blow-off outlet 22A are located at the partition component 51A that wind path forms framework 50A inboard and separate.Utilize partition component 51A, the stirring Air blowing wind path that the heating Air blowing wind path that the air that formation blows out from the first blow-off outlet 21A passes through and the air that blows out from the second blow-off outlet 22A pass through.

For the air air quantity change air wind speed many, that blow out from the second blow-off outlet 22A that blows out from the first blow-off outlet 21A is accelerated, with respect to the opening of the first blow-off outlet 21A, the opening of the second blow-off outlet 22A is less.

According to an example of embodiment, with respect to the minor face along the Air blowing direction of cyclical breathing blower-casting 27A of the first blow-off outlet 21A, the minor face along the Air blowing direction of cyclical breathing blower-casting 27A of the second blow-off outlet 22A is shorter.In addition, according to an example of embodiment, with respect to the long limit of the first blow-off outlet 21A, the long limit of the second blow-off outlet 22A consists of shortlyer.At this, the long limit of the long limit of the first blow-off outlet 21A and the second blow-off outlet 22A can be also identical length.

It is an example of wind path opening/closing portion that wind path switches baffle plate 6A.At the first blow-off outlet 21A that is located at cyclical breathing blower-casting 27A lower surface and the second blow-off outlet 22A and be located between the ventilation blow-off outlet 23A of cyclical breathing blower-casting 27A side, the axle 60A that produces on-off action by rotation is set.

Wind path switches the driving force that baffle plate 6A transmits not shown flap motor, is rotated take axle 60A as fulcrum, carries out the on-off action of the first blow-off outlet 21A and the second blow-off outlet 22A and ventilation blow-off outlet 23A.

An example according to embodiment, when wind path switches baffle plate 6A and is arranged in the circulation position that Fig. 1 solid line represents, ventilation blow-off outlet 23A closes, on the other hand, the first blow-off outlet 21A and the second blow-off outlet 22A open, and form from cyclical breathing suction inlet 20A to the first blow-off outlet 21A and circulation wind path that the second blow-off outlet 22A has been communicated with.

In addition, when the ventilation position that wind path switches that baffle plate 6A is arranged in that Fig. 1 chain-dotted line represents, the first blow-off outlet 21A and the second blow-off outlet 22A close, on the other hand, ventilation blow-off outlet 23A opens, and forms the ventilation wind path that has been communicated with from cyclical breathing suction inlet 20A to ventilation blow-off outlet 23A.

In addition, when wind path switches cyclical breathing position between the baffle plate 6A circulation position that dotted line represents in Fig. 1 and ventilation position, the first blow-off outlet 21A and the second blow-off outlet 22A and ventilation blow-off outlet 23A open, form circulation wind path and ventilation wind path the two.

Thus, the dry heat supplier 1A of bathroom aerating utilizes 1 cyclical breathing fan 2A to carry out: suck the air in bathroom 100 and the action that the air that sucks is blown out in the bathroom 100, the air that sucks blown out in the bathroom 100 to the action of outdoor exhaust, with the part of the air that sucks and with the action of remainder to outdoor exhaust.

The wind path that is in the cyclical breathing position switches baffle plate 6A will be by air guide the first blow-off outlet 21A and the second blow-off outlet 22A that blows out wind path 28A, and therefore, the position of facing with the first blow-off outlet 21A and the second blow-off outlet 22A has the shape that bends to concavity.

On the other hand, be provided with heater 5 at the first blow-off outlet 21A, flowing resistance is higher.In addition, the second blow-off outlet 22A is located at wind speed position faster in blowing out wind path 28A, and air is easy to flow.

Therefore, switch the shape of baffle plate 6A by wind path, reduce the air quantity that flows through the second blow-off outlet 22A.In addition, with respect to the Air blowing direction that blows out in wind path 28A, at the downstream of the first blow-off outlet 21A configuration the second blow-off outlet 22A, the second blow-off outlet 22A is arranged on wind speed position faster.In addition, make the opening of aperture efficiency the first blow-off outlet 21A of the second blow-off outlet 22A little, the wind speed of the air that blows out from the second blow-off outlet 22A is accelerated.

Thus, the dry heat supplier 1A of bathroom aerating is to make the air air quantity that blows out from the first blow-off outlet 21A become many due to the configuration of the first blow-off outlet 21A and the second blow-off outlet 22A and the relation of size and the shape that wind path switches baffle plate 6A, and the mode that the air wind speed that blows out from the second blow-off outlet 22A accelerates consists of.

Heater 5 is examples of heating part.According to an example of embodiment, heater 5 is made of ptc heater, and is located at the heating Air blowing wind path that the air that blows out from the first blow-off outlet 21A passes through.According to an example of embodiment, the first blow-off outlet 21A and the second blow-off outlet 22A are separated by partition component 51A, and the air that blows out from the second blow-off outlet 22A does not pass through heater 5.In addition, even be not provided with the formation of partition component between the first blow-off outlet 21A and the second blow-off outlet 22A in, the position of heater 5 also can enoughly be set and heater 5 positions differentiation wind paths are not set.

When the driven energising of heater 5, by adding hot heater 5, heating blows out warm braw by the air of the first blow-off outlet 21A from the first blow-off outlet 21A.According to an example of embodiment, in heater 5, a plurality of fin are installed along the longitudinal on bar-shaped heater block.The direction of arranging take fin is installed on the first blow-off outlet 21A as the direction longitudinally along the first blow-off outlet 21A with heater 5.

In addition, according to an example of embodiment, the transverse width of the first blow-off outlet 21A has the length that two heaters 5 are installed side by side, and two heaters 5 are installed on the first blow-off outlet 21A transversely side by side.In addition, the number of heater 5 basis is such as settings such as supply voltages.It can be also the formation that 1 heater 5 is installed.In addition, in this example, as the heating part, in order to electrically driven (operated) heater 5 for example is illustrated, but can be also the heaters such as heat exchanger that utilize warm water.

Main part 3A possesses the main stand 30A of formation cyclical breathing blower-casting 27A and the metal shell 31A of main body covered frame 30A.Main stand 30A is made of resin material.In main stand 30A, the cyclical breathing blower-casting 27A that is covered by metal shell 31A and from the periphery of main part 3A lower end laterally outstanding flange part 32A one consist of.

At the lower surface that the metal shell 31A from main stand 30A exposes, bottom 33A is installed.Cyclical breathing suction inlet 20A and the first blow-off outlet 21A and the second blow-off outlet 22A are located at bottom 33A.Wind path forms framework 50A and is installed on bottom 33A.

Ventilation blow-off outlet 23A with cyclical breathing fan 2A on metal shell 31A arranges opening in opposite directions.The discharge duct joint 34A that is communicated with ventilation blow-off outlet 23A is installed on the side of metal shell 31A.

Lower surface at main part 3A is installed front panel 4A.In plate 4A, by carrying out opening with the cyclical breathing suction inlet 20A lower surface in opposite directions of cyclical breathing fan 2A, form suction inlet grid 40A in front.

In addition, in front in plate 4A, by carrying out opening with the first blow-off outlet 21A lower surface in opposite directions of cyclical breathing fan 2A, form the first blow-off outlet grid 41A, and, by carrying out opening with the second blow-off outlet 22A lower surface in opposite directions, form the second blow-off outlet grid 42A.

The first blow-off outlet grid 41A is made of the long oblong openings of length along the direction on the limit of main part 3A.In addition, the same with the first blow-off outlet grid 41A, the second blow-off outlet grid 42A is made of the long oblong openings of length along the direction on the limit of main part 3A.

In the mode of blow out air along the longitudinal, cowling panel is set at the first blow-off outlet grid 41A.At the second blow-off outlet grid 42A with along with the first blow-off outlet grid 41A mode that is laterally the outside blow out air of main part 3A to the first blow-off outlet grid 41A opposition side arranged side by side, cowling panel 43A being set.

＜setting example of the dry heat supplier of the bathroom aerating of the first embodiment 〉

Then, with reference to each figure, the setting example of the dry heat supplier 1A of bathroom aerating of the first embodiment is described.

As shown in Figure 4, the dry heat supplier 1A of bathroom aerating is arranged on the ceiling 101 in bathroom 100.Form the peristome of the main part 3A that the dry heat supplier 1A of bathroom aerating is installed on the ceiling 101 in bathroom 100, the dry heat supplier 1A of bathroom aerating for example utilizes the mode that not shown screw is fixed in strengthening part to be installed on ceiling 101 with flange part 32A.

And, at the lower surface of main part 3A, front panel 4A being installed, and the suction inlet grid 40A of front panel 4A and the first blow-off outlet grid 41A and the second blow-off outlet grid 42A towards the bathroom mode in 100, the dry heat supplier 1A of configuration bathroom aerating.

On the dry heat supplier 1A of the bathroom aerating of the ceiling 101 that is arranged at bathroom 100, at the discharge duct joint 34A of main part 3A, discharge duct 102 is installed.Outside the room of installing on discharge duct 102 and the not shown external wall of house that is provided with bathroom 100, grid 102a is connected.Thus, the dry heat supplier 1A of bathroom aerating is connected via outside discharge duct 102 and room.

According to an example of embodiment, bathroom 100 possesses bathtub 103 and washs field 104.Bathtub 103 is generally rectangle, and bathtub 103 and washing 104 is transversely arranged along bathtub 103.

According to an example of embodiment, bathroom 100 possesses the clothes airing-tube 105 as the airing parts on the top of bathtub 103.Clothes airing-tube 105 is along the longitudinal extension of bathtub 103, and is installed between in opposite directions metope 106a, the 106b in bathroom 100.

In addition, according to an example of embodiment, the radical that is arranged at the clothes airing-tube 105 in bathroom 100 is 1 or two degree.Fig. 4 represents to configure the example of 1 clothes airing-tube 105.In addition, the thing as long as the airing parts can dry washed grade be dried is not limited to the parts of tubulose, also can be the cord shape, also can be other shape.

The dry heat supplier 1A of bathroom aerating is direction with vertical quadrature of clothes airing-tube 105 according to the direction longitudinally of the first blow-off outlet grid 41A and the second blow-off outlet grid 42A, is arranged at the top of bathtub 103.

Thus, the air that blows out from the first blow-off outlet grid 41A mainly spreads to the direction with clothes airing-tube 105 quadratures.On the other hand, the air that blows out from the second blow-off outlet grid 42A is towards the metope 106a in the bathroom 100 of the side that the second blow-off outlet grid 42A is set.

＜action case of the dry heat supplier of the bathroom aerating of the first embodiment 〉

Fig. 5 means the action specification figure of the Air Flow in the bathroom of the dry heat supplier of the bathroom aerating of the first embodiment.With reference to each figure, the action case of the dry heat supplier 1A of bathroom aerating of the first embodiment is described.

Under the dry operating pattern, wind path switches baffle plate 6A and is arranged in the cyclical breathing position that Fig. 1 dotted line represents, by driving cyclical breathing fan motor 26A, impeller 25A rotation, heater 5 energisings.

When impeller 25A rotated, the air in bathroom 100 was drawn into cyclical breathing suction inlet 20A from the suction inlet grid 40A of front panel 4A.

Under the dry operating pattern, wind path switches baffle plate 6A and is in the cyclical breathing position, therefore, be formed with from cyclical breathing suction inlet 20A to the first blow-off outlet 21A in blowing out wind path 28A and circulation wind path that the second blow-off outlet 22A is communicated with and ventilation wind path from cyclical breathing suction inlet 20A to ventilation blow-off outlet 23A that be communicated with from the two.

Thus, by impeller 25A rotation, flow to the first blow-off outlet 21A and the second blow-off outlet 22A from the part of the air RA in the bathroom 100 that cyclical breathing suction inlet 20A sucks.In addition, flow to ventilation blow-off outlet 23A from the remainder of the air in the bathroom 100 that cyclical breathing suction inlet 20A sucks, by discharge duct 102, grid 102a is as exhaust EA exhaust outside the room outside the room.

Under the dry operating pattern, the air that flows through the first blow-off outlet 21A is heated by heater 5, thus, blows out warm braw HA from the first blow-off outlet grid 41A of front panel 4A.The air that flows through the second blow-off outlet 22A is by heater 5, therefore, blows out the air A corresponding with room temperature from the second blow-off outlet grid 42A of front panel 4A.

The air that blows out from the first blow-off outlet grid 41A to clothes airing-tube 105 vertically and with the direction diffusion of clothes airing-tube 105 quadratures.

But the first blow-off outlet grid 41A vertically is disposed on direction with clothes airing-tube 105 quadratures, therefore, the air that blows out from the first blow-off outlet grid 41A mainly to the direction diffusion of clothes airing-tube 105 quadratures.

Therefore, the things that are dried such as clothing hung near the clothes airing-tube 105 under the first blow-off outlet grid 41A in whole width blowing up of warm braw.On the other hand, with respect to the thing that is dried of hanging on the clothes airing-tube 105 away from the position under the first blow-off outlet grid 41A, the warm braw that blows out from the first blow-off outlet grid 41A is difficult to directly blow.

The air A that blows out from the second blow-off outlet grid 42A is with respect to the metope 106a of the first blow-off outlet grid 41A towards the bathroom 100 of the side that the second blow-off outlet grid 42A is set.

As above-mentioned, due to the relation of the configuration of the first blow-off outlet 21A and the second blow-off outlet 22A and size, the air ratio that blows out from the second blow-off outlet grid 42A is fast from the wind speed of the air that the first blow-off outlet grid 41A blows out.In addition, the air that blows out from the second blow-off outlet grid 42A does not pass through heater 5, and is therefore, low than the temperature of the air that blows out from the first blow-off outlet grid 41A.

Thus, as shown in Fig. 5 (a), bathroom 100 1 sides' metope 106a the air A that blows out from the second blow-off outlet grid 42A under drying mode blows as shown in arrow A 1, flows downwards along metope 106a.Near the bottom in the air that flows downwards along metope 106a such as arrow A 2 bathroom that is shown in 100, Main Current is to the opposing party's metope 106b.

In the dry heat supplier 1A of bathroom aerating, by the air RA that sucks from suction inlet grid 40A, 100 interior generations make flowing of air circulation in the bathroom, therefore, as shown in arrow A 3, near the air that flows to the opposing party's metope 106b bathroom 100 bottoms flows upward along metope 106b, and sucks from suction inlet grid 40A.

Like this, in the dry heat supplier 1A of bathroom aerating, by the fast air of wind speed that blows out from the second blow-off outlet grid 42A, can produce along bathroom 100 1 sides' metope 106a towards the below, near bathroom 100 bottoms towards the opposing party's metope 106b, along the opposing party's metope 106b towards above Air Flow.

Under the dry operating pattern, from the warm braw of air for being heated by heater 5 that the first blow-off outlet grid 41A of the dry heat supplier 1A of bathroom aerating blows out, relative humidity reduces, and is therefore, light than the air that blows out from the second blow-off outlet grid 42A.

Therefore, the air that from second blow-off outlet grid 42A blow out heavier than the air that blows out from the first blow-off outlet grid 41A flows to the bottom in bathroom 100, in whole bathroom 100, can produce flowing of the wind that stirs air.

Thus, near being hung on away from the thing that is dried on the clothes airing-tube 105 of the position under the first blow-off outlet grid 41A the warm braw that blows out from the first blow-off outlet grid 41A is difficult to directly blow also can produce Air Flow.

The shape of switching baffle plate 6A due to relation and the wind path of the configuration of the first blow-off outlet 21A and the second blow-off outlet 22A and size, the air quantity of the warm braw that blows out from the first blow-off outlet grid 41A is more than the air that blows out from the second blow-off outlet grid 42A.Therefore, utilize by the Air Flow in the bathroom 100 of the air stirring that blows out from the second blow-off outlet grid 42A, can make warm braw HA 100 interior circulations in the bathroom of the sufficient quantity that blows out from the first blow-off outlet grid 41A.

Therefore, the moisture of the thing that is dried is easy to evaporation, even the output of heater 5 also can be shortened drying time with in the past identical, can reduce the dry needed energy of the thing that is dried.In addition, if will be made as drying time with in the past identical, can reduce the output of heater 5, still can reduce the dry needed energy of the thing that is dried.In addition, part exhaust to the room outside of the air in bathroom 100 is taken a breath, and therefore, can discharge moisture etc., the be dried drying of thing of promotion.

In this example, illustrated that clothes airing-tube 105 is the example of 1, even but in two clothes airing-tubes 105 such bathrooms is set, also can produce Air Flow at the periphery of the thing that is dried of the optional position that is hung on each clothes airing-tube.Therefore, can reduce the dry needed energy of the thing that is dried.In addition, in above-mentioned, illustrated under the dry operating pattern, driven heater 5 when the driving of cyclical breathing fan 2A begins, blown out at first the example of warm braw from turning round.But, also can at first heater 5 be made as non-driving in running under the dry operating pattern, blow out the air-supply corresponding with room temperature, through after the stipulated time, drive heater 5, blow out warm braw.Even postpone the running of the driving of heater 5, the moisture of the thing that is dried also is easy to evaporation, can reduce the dry needed energy of the thing that is dried.

Under the cyclical breathing operation mode, wind path switches baffle plate 6A and is arranged in the cyclical breathing position that Fig. 1 dotted line represents, heater 5 is made as non-driving, by the driving of cyclical breathing fan motor 26A, and impeller 25A rotation.At this, in the situation that compared above-mentioned dry operating pattern and cyclical breathing operation mode, in the cyclical breathing operation mode, also can change aperture that wind path switches baffle plate 6A and make the air quantity of exhaust outside the room air quantity of namely taking a breath more.

When impeller 25A rotated, the air in bathroom 100 sucked cyclical breathing suction inlet 20A from the suction inlet grid 40A of front panel 4A.

Under the cyclical breathing operation mode, wind path switches baffle plate 6A and is in the cyclical breathing position, therefore, flows to the first blow-off outlet 21A and the second blow-off outlet 22A from the part of the air in the bathroom 100 that cyclical breathing suction inlet 20A sucks.In addition, flow to ventilation blow-off outlet 23A from the remainder of the air in the bathroom 100 that cyclical breathing suction inlet 20A sucks, and exhaust outside the room.

Under the cyclical breathing operation mode, because heater 5 is non-driving, therefore, the air that flows to the first blow-off outlet 21A blows out the air CA corresponding with room temperature from the first blow-off outlet grid 41A of front panel 4A.The air that flows to the second blow-off outlet 22A is by heater 5, therefore, blows out the air A corresponding with room temperature from the second blow-off outlet grid 42A of front panel 4A.

As shown in Fig. 5 (b), even under the cyclical breathing operation mode, by the fast air of wind speed that blows out from the second blow-off outlet grid 42A, also produce along bathroom 100 1 sides' metope 106a towards the below, near the bottom in bathroom 100 towards the opposing party's metope 106b, along the opposing party's metope 106b towards above Air Flow.

Thus, even under the cyclical breathing operation mode, also can be in whole bathroom 100 interior generation the flowing of wind of stirring air.Therefore, in bathroom 100, even the air that blows out from the first blow-off outlet grid 41A is difficult to directly blow such position, also can produce Air Flow.

Therefore, can shorten the drying time of each metope, ground etc. in bathroom 100.

In addition, part exhaust to the room outside of the air in bathroom 100 is taken a breath, and therefore, can discharge moisture etc., the dryings such as each metope in promotion bathroom 100, ground.

In other operation mode that the dry heat supplier 1A of bathroom aerating carries out, under the warming operation pattern, wind path switches baffle plate 6A and is arranged in the circulation position that Fig. 1 solid line represents, heater 5 energisings, and, by the driving of cyclical breathing fan motor 26A, impeller 25A rotation.

By impeller 25A rotation, the air in bathroom 100 sucks cyclical breathing suction inlet 20A from the suction inlet grid 40A of front panel 4A.

Under the warming operation pattern, wind path switches baffle plate 6A and is in circulation position, therefore, flows to the first blow-off outlet 21A and the second blow-off outlet 22A from the roughly whole amount of the air in the bathroom 100 that cyclical breathing suction inlet 20A sucks.

Under the warming operation pattern, the air that flows to the first blow-off outlet 21A is heated by heater 5, thus, blows out warm braw from the first blow-off outlet grid 41A of front panel 4A.The air that flows to the second blow-off outlet 22A is by heater 5, therefore, blows out the air corresponding with room temperature from the second blow-off outlet grid 42A of front panel 4A.

Even under the warming operation pattern, by the fast air of wind speed that blows out from the second blow-off outlet grid 42A, also produce along bathroom 100 1 sides' metope 106a towards the below, near the bottom in bathroom 100 towards the opposing party's metope 106b, along the opposing party's metope 106b towards above Air Flow.

Thus, even under the warming operation pattern, also can be in whole bathroom 100 interior generation the flowing of wind of stirring air.Under the warming operation pattern, wind path switches baffle plate 6A and is in circulation position, and therefore, the air in bathroom 100 is taken a breath.Therefore, by utilizing warm braw bathroom 100 interior heating that blow out from the first blow-off outlet grid 41A, the air themperature that sucks from suction inlet grid 40A in the dry heat supplier 1A of bathroom aerating thus rises, and the air themperature that blows out from the second blow-off outlet grid 42A also rises.

Therefore, under the warming operation pattern, utilization is by the Air Flow in the bathroom 100 of the air stirring corresponding with room temperature that blows out from the second blow-off outlet grid 42A, warm braw 100 interior circulations in the bathroom of the sufficient quantity that blows out from the first blow-off outlet grid 41A, the temperature in bathroom 100 rise to the temperature that is suitable for balneation.

Under the ventilation operation mode, wind path switches baffle plate 6A and is arranged in the ventilation position that Fig. 1 chain-dotted line represents, heater 5 is made as non-driving, by the driving of cyclical breathing fan motor 26A, and impeller 25A rotation.

In the dry heat supplier 1A of bathroom aerating, by the rotation of impeller 25A, the air in bathroom 100 sucks cyclical breathing suction inlet 20A from the suction inlet grid 40A of front panel 4A.

Under the ventilation operation mode, wind path switches baffle plate 6A and is in the ventilation position, therefore, flows to ventilation blow-off outlet 23A from the roughly whole amount of the air in the bathroom 100 that cyclical breathing suction inlet 20A sucks, and exhaust outside the room.Therefore, under the ventilation operation mode, can discharge hot gas and moisture in bathroom 100, suppress the also generations of Antifungi such as dewfall.

＜configuration example of the dry heat supplier of the bathroom aerating of the second embodiment 〉

Fig. 6 means the pie graph of an example of the dry heat supplier of the bathroom aerating of the second embodiment, and Fig. 6 means the side view that the inside of the dry heat supplier of bathroom aerating consists of.

The summary of the dry heat supplier 1B of bathroom aerating of the second embodiment is described.Dry heat supplier 1A is the same with the bathroom aerating of the first embodiment, and the dry heat supplier 1B of bathroom aerating is the device that produces the wind that stirs the air in bathroom 100.Switch to have or not according to operation mode and blow out the air that produces the wind that stirs the air in bathroom 100.

The same with set-up mode shown in Figure 4, have the top that mode that the main part 3B of cyclical breathing fan 2B exposes with front panel 4B is installed on bathroom 100.

The dry heat supplier 1B of bathroom aerating possesses cyclical breathing suction inlet 20B, the first blow-off outlet 21B and the second blow-off outlet 22B.By sucking the cyclical breathing fan 2B of blow out air, the air intake cyclical breathing suction inlet 20B in bathroom 100.At the first blow-off outlet 21B, heater 5 is set, blows out warm braw from the first blow-off outlet 21B.The second blow-off outlet 22B produces the wind that stirs the air in bathroom 100.

In addition, the dry heat supplier 1B of bathroom aerating possesses and utilizes air that cyclical breathing fan 2B will suck from cyclical breathing suction inlet 20B to the ventilation blow-off outlet 23B of outdoor exhaust.In addition, the dry heat supplier 1B of bathroom aerating possesses the wind path switching baffle plate 6B that switches wind path between the first blow-off outlet 21B and the second blow-off outlet 22B and ventilation blow-off outlet 23B.In addition, the dry heat supplier 1B of bathroom aerating possesses the stirring wind path switching baffle plate 7B that opens and closes the second blow-off outlet 22B.

The dry heat supplier 1B of bathroom aerating utilizes the Air Flow that blows out from the second blow-off outlet 22B by front panel 4B, produce the wind that stirs the air in bathroom 100, thus, even such position the warm braw that blows out from the first blow-off outlet 21B by front panel 4B in bathroom 100 does not directly blow also produces Air Flow.

Thus, the dry heat supplier 1B of bathroom aerating 100 is blowing out warm braw to the bathroom, and, to the interior ventilation in bathroom 100, carrying out under the dry dry operating pattern such as clothing, the moisture of clothing is easy to evaporation, reduces the dry needed energy such as clothing.

In addition, the dry heat supplier 1B of bathroom aerating stirs wind path switching baffle plate 7B by utilization and closes the second blow-off outlet 22B in blowing out the warming operation pattern of warm braw to bathroom 100, prevents that the bather from feeling cold in bathroom 100.

Below, the details of the dry heat supplier 1B of bathroom aerating are described.The dry heat supplier 1B of bathroom aerating except possessing the wind path of stirring switching baffle plate 7B and making wind path switch baffle plate 6B and stir wind path switching baffle plate 7B interlock, can be also the formation identical with the dry heat supplier 1A of the bathroom aerating of the first embodiment.

Cyclical breathing fan 2B possesses: the cyclical breathing blower-casting 27B of the cyclical breathing fan motor 26B of impeller 25B, the drives impeller 25B of multiple wing and formation wind path.The impeller 25B of cyclical breathing fan 2B is driven and is rotated by cyclical breathing fan motor 26B, and thus, the air by cyclical breathing blower-casting 27B rectification blows out to centrifugal direction produces the Air Flow that blows out along the tangential direction of impeller 25B.

Cyclical breathing suction inlet 20B is made of the bell-mouthed circular open that is called as of being located at along the below of the rotating shaft of impeller 25B.The same with the first blow-off outlet 21A shown in Figure 2, the first blow-off outlet 21B is located at the lower surface that blows out wind path 28B, by so that the oblong openings as minor face consists of along the limit of the Air blowing direction of cyclical breathing blower-casting 27B.

The same with the second blow-off outlet 22A shown in Figure 2, the second blow-off outlet 22B is by so that the oblong openings as minor face consists of along the limit of the Air blowing direction of cyclical breathing blower-casting 27B.The second blow-off outlet 22B is located at the opposition side of cyclical breathing suction inlet 20B with respect to the first blow-off outlet 21B at the lower surface that blows out wind path 28B.

The wind path 28B that blows out that is made of cyclical breathing blower-casting 27B enlarges at the position that the first blow-off outlet 21B and the second blow-off outlet 22B are set, in the position constriction that ventilation blow-off outlet 23B is set.

The first blow-off outlet 21B and the second blow-off outlet 22B form framework 50B by the wind path of being located at cyclical breathing blower-casting 27B lower surface and consist of.The first blow-off outlet 21B and the second blow-off outlet 22B are located at the partition component 51B that wind path forms framework 50B inboard and separate, and form the stirring Air blowing wind path that the heating Air blowing wind path that the air that blows out from the first blow-off outlet 21B passes through and the air that blows out from the second blow-off outlet 22B are passed through.

With regard to the first blow-off outlet 21B and the second blow-off outlet 22B, the air air quantity that blows out from the first blow-off outlet 21B is many, air wind speed that blow out from the second blow-off outlet 22B is fast in order to make, and the opening of the second blow-off outlet 22B consists of with respect to the opening of the first blow-off outlet 21B littlely.

The first blow-off outlet 21B and the second blow-off outlet 22B have respectively along the minor face of the Air blowing direction of cyclical breathing blower-casting 27B.According to an example of embodiment, the minor face of the second blow-off outlet 22B consists of with respect to the minor face of the first blow-off outlet 21B shortlyer.In addition, according to an example of embodiment, the long limit of the second blow-off outlet 22B consists of with respect to the long limit of the first blow-off outlet 21B shortlyer.At this, the long limit of the first blow-off outlet 21B and the second blow-off outlet 22B can be also identical length.

It is an example of wind path opening/closing portion that wind path switches baffle plate 6B.At the first blow-off outlet 21B that is located at cyclical breathing blower-casting 27B lower surface and the second blow-off outlet 22B and be located between the ventilation blow-off outlet 23B of cyclical breathing blower-casting 27B side, the axle 60B that switches the rotation generation on-off action of baffle plate 6B by wind path is set.

Stirring wind path switching baffle plate 7B is an example of opening/closing portion.Stir wind path switching baffle plate 7B and open and close the second blow-off outlet 22B by spinning movement.In this example, stir wind path open and close the axle of spinning movement of baffle plate 7B and axle 60B that wind path switches baffle plate 6B be disposed at coaxial on.

Fig. 7 means that wind path opens and closes the side view of an example of the driving mechanism of baffle plate, and Fig. 8 means that wind path opens and closes the exploded perspective view of an example of the driving mechanism of baffle plate.With reference to each figure, to single drive source, the formation that wind path switches baffle plate 6B and stirring wind path switching baffle plate 7B interlock is described.

Wind path switches baffle plate 6B and stirring wind path switching baffle plate 7B is driven by flap motor 61B.Jut 62B and restriction cam part 63B are installed on flap motor 61B.The displacement that jut 62B produces by spinning movement is in this example by the rotation take motor reel as fulcrum, opens and closes wind path and switches baffle plate 6B and stir wind path and open and close baffle plate 7B.The rotation that wind path opens and closes baffle plate 7B is stirred in restriction cam part 63B restriction.In addition, the magnet 64B that uses with the not shown sensor detection anglec of rotation is installed on flap motor 61B.

Wind path switches baffle plate 6B to be possessed the axle 60B of spinning movement and transmits switching guiding groove section 65B from the driving force of flap motor 61B for jut 62B inserts.Axle 60B is outstanding laterally from the both sides of the width of wind path switching baffle plate 6B.Switching guiding groove section 65B is made of the linearity opening that inserts for jut 62B of the sidepiece of being located at wind path switching baffle plate 6B one side.

Stirring wind path opens and closes baffle plate 7B and possesses: by wind path switch the axle 60B supporting of baffle plate 6B bearing portion 70B, transmit switching guide cam slot part 71B from the driving force of flap motor 61B for jut 62B inserts, the restriction jut 72B of restricting rotation with restriction cam part 63B butt.

Bearing portion 70B is located at and stirs the both sides that wind path opens and closes the width of baffle plate 7B, is rotatably switched the axle 60B supporting of baffle plate 6B by wind path.Switching guide cam slot part 71B is by being located at the sidepiece that stirs wind path switching baffle plate 7B one side and supplying the opening of the regulation shape of jut 62B insertion to consist of.Restriction jut 72B is outstanding laterally from opening and closing guide cam slot part 71B.

As shown in Fig. 8 (b), open and close guide cam slot part 71B and consisted of by continuous cam surface.Open and close guide cam slot part 71B and possess opening/closing portion 73B, this opening/closing portion 73B is extruded because of the displacement of the jut 62B of the rotation generation of flap motor 61B, and the stirring wind path of closing under the state that the second blow-off outlet 22B is opened opens and closes baffle plate 7B.Open and close guide cam slot part 71B and also possess the contract fully 74B of section that keeps stirring wind path switching baffle plate 7B with full closing state.The 74B of contract fully section opens and closes baffle plate 7B and closes under the state of the second blow-off outlet 22B stirring wind path, has the shape of the track of the jut 62B that produces along the rotation of flap motor 61B.

Open and close guide cam slot part 71B and also possess the opening/closing portion 75B that the stirring wind path of opening under the state that the second blow-off outlet 22B is closed opens and closes baffle plate 7B.Open and close guide cam slot part 71B and also possess the standard-sized sheet 76B of section that keeps stirring wind path switching baffle plate 7B with full-gear.The 76B of standard-sized sheet section opens and closes baffle plate 7B and opens under the state of the second blow-off outlet 22B stirring wind path, has the shape of the track of the jut 62B that produces along the rotation of flap motor 61B.

Restriction jut 72B and the outer peripheral face butt that limits cam part 63B.As above-mentioned, be located at the shape that the contract fully 74B of section that opens and closes guide cam slot part 71B and the standard-sized sheet 76B of section have the jut 62B track that produces along the rotation of flap motor 61B.Therefore, in the scope of jut 62B and the contract fully 74B of section and the standard-sized sheet 76B of section butt, stirring wind path switching baffle plate 7B can be rotated take axle 60B as fulcrum.

Therefore, restriction cam part 63B consists of as follows, namely, be in full-gear or full closing state in the situation that stir wind path switching baffle plate 7B, by being made as and the shape that limits jut 72B butt, the stirring wind path that is in full-gear or full closing state opens and closes baffle plate 7B and can not open and close because of air pressure etc.

In the dry heat supplier 1B of bathroom aerating, when driving flap motor 61B, utilize the rotation of flap motor 61B, jut 62B carries out displacement.Jut 62B inserts to the switching guiding groove section 65B that wind path switches baffle plate 6B, and jut 62B carries out displacement along opening and closing guiding groove section 65B, thus, opens and closes guiding groove section 65B and is extruded.Thus, wind path switches baffle plate 6B and rotates take axle 60B as fulcrum, opens and closes the first blow-off outlet 21B and the second blow-off outlet 22B and ventilation blow-off outlet 23B.

Jut 62B inserts and stirs the switching guide cam slot part 71B that wind path opens and closes baffle plate 7B.When jut 62B carries out displacement along switching guide cam slot part 71B, open and close guide cam slot part 71B and pushed by jut 62B.Thus, stir wind path switching baffle plate 7B and be rotated take axle 60B as fulcrum, open and close the second blow-off outlet 22B.

Flap motor 61B rotate to that assigned position, wind path switch that baffle plate 6B is arranged in that Fig. 6 solid line represents close the circulation position of ventilation blow-off outlet 23B the time, stir wind path and open and close baffle plate 7B and close the second blow-off outlet 22B.Thus, the first blow-off outlet 21B opens, and forms the circulation wind path that is communicated with to the first blow-off outlet 21B from cyclical breathing suction inlet 20B.

Flap motor 61B rotate to that assigned position, wind path switch that baffle plate 6B is arranged in that Fig. 6 chain-dotted line represents close the ventilation position of the first blow-off outlet 21B and the second blow-off outlet 22B the time, ventilation blow-off outlet 23B opens, and forms the ventilation wind path that is communicated with to ventilation blow-off outlet 23B from cyclical breathing suction inlet 20B.

In addition, when wind path switching baffle plate 6B is positioned at the ventilation position, stirs wind path switching baffle plate 7B and open the second blow-off outlet 22B.But, because being switched baffle plate 6B by wind path, the first blow-off outlet 21B and the second blow-off outlet 22B close, therefore, and can be from the second blow-off outlet 22B blow out air.

When flap motor 61B rotates to assigned position, wind path and switches cyclical breathing position between the baffle plate 6B circulation position that dotted line represents in Fig. 6 and ventilation position, the first blow-off outlet 21B and the second blow-off outlet 22B and ventilation blow-off outlet 23B both sides open, form circulation wind path and ventilation wind path the two.

In addition, when wind path switching baffle plate 6B is positioned at the cyclical breathing position, stirs wind path switching baffle plate 7B and open the second blow-off outlet 22B.At this, opening under the state of the second blow-off outlet 22B by stirring wind path switching baffle plate 7B, switch the aperture of baffle plate 6B can switch wind path, change consists of from the mode of the air quantity that ventilation blow-off outlet 23B blows out.

Thus, the dry heat supplier 1B of bathroom aerating utilizes 1 cyclical breathing fan 2B to carry out, the action that sucks the air in bathroom 100 and the air that sucks is blown out in the bathroom 100; With the action to outdoor exhaust of the air that sucks; The part of the air that sucks is blown out in the bathroom 100 and with the action of remainder to outdoor exhaust.In addition, in the dry heat supplier 1B of bathroom aerating, utilize 1 flap motor 61B interlock carry out the switching of wind path switching baffle plate 6B and stir the switching that wind path opens and closes baffle plate 7B.

Dry heat supplier 1A is the same with the bathroom aerating of the first embodiment, in the dry heat supplier 1B of the bathroom aerating of the second embodiment, the wind path that is in the cyclical breathing position switches baffle plate 6B will be by air guide the first blow-off outlet 21B and the second blow-off outlet 22B that blows out wind path 28B, therefore, the position towards the first blow-off outlet 21B and the second blow-off outlet 22B has the shape that bends to concavity.

On the other hand, be provided with heater 5 at the first blow-off outlet 21B, flowing resistance is higher.In addition, the second blow-off outlet 22B is located at wind speed position faster in blowing out wind path 28B, and air is easy to flow.

Therefore, utilize wind path to switch the shape of baffle plate 6B, reduce the air quantity that flows through the second blow-off outlet 22B.In addition, with respect to the Air blowing direction that blows out in wind path 28B, the second blow-off outlet 22B is disposed at the downstream of the first blow-off outlet 21B, the second blow-off outlet 22B is located at wind speed position faster.In addition, make the opening of aperture efficiency the first blow-off outlet 21B of the second blow-off outlet 22B little, make the wind speed of the air that blows out from the second blow-off outlet 22B fast.

Thus, the dry heat supplier 1B of bathroom aerating also consists of as follows, namely, configuration and the relation of size and the shape that wind path switches baffle plate 6B due to the first blow-off outlet 21B and the second blow-off outlet 22B, more from the air air quantity that the first blow-off outlet 21B blows out, the wind speed of the air that blows out from the second blow-off outlet 22B is very fast.

Be communicated with the first blow-off outlet 21B and the heating Air blowing wind path of heater 5 be set and the stirring Air blowing wind path that is communicated with the second blow-off outlet 22B is separated by partition component 51B.

When the driven energising of heater 5, by adding hot heater 5, heating blows out warm braw by the air of the first blow-off outlet 21B from the first blow-off outlet 21B.On the other hand, the air that blows out from the second blow-off outlet 22B does not pass through heater 5, heats.

In main part 3B, the main stand 30B that consists of cyclical breathing blower-casting 27B is covered by metal shell 31B.Main stand 30B is made of resin material.Flange part 32B is outstanding laterally from the periphery of main stand 30B lower end.

Lower surface in the metal shell 31B of main stand 30B exposed portions serve is installed bottom 33B.Cyclical breathing suction inlet 20B and the first blow-off outlet 21B and the second blow-off outlet 22B are located at bottom 33B.At bottom 33B, wind path is installed and is formed framework 50B.

Ventilation blow-off outlet 23B opening in opposite directions with cyclical breathing fan 2B is set in metal shell 31B.The discharge duct joint 34B that is communicated with ventilation blow-off outlet 23B is installed on the side of metal shell 31B.

Lower surface at main part 3B is installed front panel 4B.The lower surface of plate 4B, with cyclical breathing suction inlet 20B part opening in opposite directions, thus, form suction inlet grid 40B in front.

In addition, the lower surface of plate 4B in front is with the first blow-off outlet 21B part opening in opposite directions of cyclical breathing fan 2B, thus, form the first blow-off outlet grid 41B, and, with the second blow-off outlet 22B part opening in opposite directions, thus, form the second blow-off outlet grid 42B.

The first blow-off outlet grid 41B is made of the long oblong openings of length along the direction on one side of main part 3B.In addition, the same with the first blow-off outlet grid 41B, the second blow-off outlet grid 42B is made of the long oblong openings of length along the direction on one side of main part 3B.

In the first blow-off outlet grid 41B, in the mode of blow out air along the longitudinal, cowling panel is set.In the second blow-off outlet grid 42B, with along with the first blow-off outlet grid 41B arranged side by side laterally, to the first blow-off outlet grid 41B opposition side be the mode of the outside blow out air of main part 3B, cowling panel 43B is set.

＜action case of the dry heat supplier of the bathroom aerating of the second embodiment 〉

Fig. 9 means the action specification figure of the Air Flow in the bathroom of the dry heat supplier of the bathroom aerating of the second embodiment, and Figure 10～Figure 13 means the action specification figure of the switching of the wind path in each operation mode.With reference to each figure, the action case of the second case being executed the dry heat supplier 1B of bathroom aerating of mode describes.

Under the dry operating pattern, as the cyclical breathing position, wind path switches baffle plate 6B and is positioned at the first cyclical breathing position shown in Figure 10.When flap motor 61B rotated to assigned position and wind path and switches baffle plate 6B and be positioned at the first cyclical breathing position, the first blow-off outlet 21B and the second blow-off outlet 22B and the both sides of ventilation blow-off outlet 23B opened, form circulation wind path and ventilation wind path the two.

In addition, when wind path switches baffle plate 6B and is positioned at the first cyclical breathing position, because pushing the opening/closing portion 75B that opens and closes guide cam slot part 71B, the jut 62B of the driving displacement of flap motor 61B is positioned at the standard-sized sheet 76B of section.Thus, stir wind path switching baffle plate 7B and open the second blow-off outlet 22B.

Open and close baffle plate 7B at the stirring wind path and open under the state of the second blow-off outlet 22B, stir wind path and open and close the restriction jut 72B of baffle plate 7B and limit cam part 63B butt.Thus, the stirring wind path that is in full-gear opens and closes the mode limit movement of baffle plate 7B can not open and close because of air pressure etc.

Under the dry operating pattern, be in the first cyclical breathing position and stir wind path when opening and closing baffle plate 7B and opening the second blow-off outlet 22B when wind path switches baffle plate 6B, cyclical breathing fan motor 26B drives, impeller 25B rotation, and heater 5 energisings.

When impeller 25B rotated, the air in bathroom 100 sucked cyclical breathing suction inlet 20B from the suction inlet grid 40B of front panel 4B.

Under the dry operating pattern, wind path switches baffle plate 6B and is in the first cyclical breathing position, therefore, by impeller 25B rotation, flows to the first blow-off outlet 21B and the second blow-off outlet 22B from the part of the air in the bathroom 100 that cyclical breathing suction inlet 20B sucks.In addition, the remainder from the air in the bathroom 100 that cyclical breathing suction inlet 20B sucks flows to ventilation blow-off outlet 23B and exhaust outside the room.

Under the dry operating pattern, the air that flows to the first blow-off outlet 21B is heated by heater 5, thus, blows out warm braw HA from the first blow-off outlet grid 41B of front panel 4B.

In addition, under the dry operating pattern, stir wind path switching baffle plate 7B and open the second blow-off outlet 22B, therefore, air also flows to the second blow-off outlet 22B.The air that flows to the second blow-off outlet 22B is by heater 5, therefore, blows out the air A corresponding with room temperature from the second blow-off outlet grid 42B of front panel 4B.

According to an example of embodiment, the warm braw that blows out from the first blow-off outlet grid 41B to clothes airing-tube 105 vertically and with the direction diffusion of clothes airing-tube 105 quadratures.

But, an example according to embodiment, the first blow-off outlet grid 41B of the dry heat supplier 1B of bathroom aerating vertically is disposed on direction with clothes airing-tube 105 quadratures, therefore, the warm braw that blows out from the first blow-off outlet grid 41B mainly to the direction diffusion of clothes airing-tube 105 quadratures.

Therefore, the things that are dried such as clothing hung near the clothes airing-tube 105 under the first blow-off outlet grid 41B in whole width blowing up of warm braw.On the other hand, for the thing that is dried of hanging on the clothes airing-tube 105 away from the position under the first blow-off outlet grid 41B, the warm braw that blows out from the first blow-off outlet grid 41 is difficult to directly blow.

In the dry heat supplier 1B of bathroom aerating, the air that blows out from the second blow-off outlet grid 42B is with respect to the metope 106a of the first blow-off outlet grid 41B towards the bathroom 100 of the side that the second blow-off outlet grid 42B is set.

As above-mentioned, due to the relation of the configuration of the first blow-off outlet 21B and the second blow-off outlet 22B and size, the wind speed of the air that blows out from the second blow-off outlet grid 42B is faster than the wind speed of the air that blows out from the first blow-off outlet grid 41B.In addition, the air that blows out from the second blow-off outlet grid 42B does not pass through heater 5, and is therefore, low than the temperature of the air that blows out from the first blow-off outlet grid 41B.

Thus, under drying mode, as shown in Fig. 9 (a), bathroom 100 1 sides' metope 106a the air A that blows out from the second blow-off outlet grid 42B blows as shown in arrow A 1, flows downwards along metope 106a.As shown in arrow A 2, the air that flows downwards along metope 106a near the bottom in bathroom 100 Main Current to the opposing party's metope 106b.

In the dry heat supplier 1B of bathroom aerating, by the air RA that sucks from suction inlet grid 40B, 100 interior generations make flowing of air circulation in the bathroom, therefore, as shown in arrow A 3, near towards the opposing party's metope 106b the bottom in bathroom 100 air flows upward along metope 106b, and sucks from suction inlet grid 40B.

Like this, the wind speed fast air of the dry heat supplier 1B of bathroom aerating by blowing out from the second blow-off outlet grid 42B, also can produce along bathroom 100 1 sides' metope 106a towards the below, near the bottom in bathroom 100 towards the opposing party's metope 106b, along the opposing party's metope 106b towards above Air Flow.

Under the dry operating pattern, the air that blows out from the first blow-off outlet grid 41B of the dry heat supplier 1B of bathroom aerating is heated by heater 5, and temperature rises, and relative humidity descends, and is therefore, light than the air that blows out from the second blow-off outlet grid 42B.

Therefore, the air that from second blow-off outlet grid 42B blow out heavier than the air that blows out from the first blow-off outlet grid 41B flows to the bottom in bathroom 100, in whole bathroom 100, can produce flowing of the wind that stirs air.

Thus, near being hung on away from the thing that is dried on the clothes airing-tube 105 of the position under the first blow-off outlet grid 41B the warm braw that blows out from the first blow-off outlet grid 41B is difficult to directly blow also produces Air Flow.

The shape of switching baffle plate 6B due to relation and the wind path of the configuration of the first blow-off outlet 21B and the second blow-off outlet 22B and size, the air quantity of the warm braw that blows out from the first blow-off outlet grid 41B is more than the air that blows out from the second blow-off outlet grid 42B.Therefore, utilize by the Air Flow in the bathroom 100 of the air stirring that blows out from the second blow-off outlet grid 42B, can make warm braw HA 100 interior circulations in the bathroom of the sufficient quantity that blows out from the first blow-off outlet grid 41B.

Therefore, even in the dry heat supplier 1B of the bathroom aerating of the second embodiment, the moisture of the thing that is dried is easy to evaporation, if the output of heater 5 is made as with in the past identical, also can shorten drying time, can reduce the dry needed energy of the thing that is dried.

In addition, if will be made as drying time with in the past identical, can reduce the output of heater 5, still can reduce the dry needed energy of the thing that is dried.In addition, part exhaust to the room outside of the air in bathroom 100 is taken a breath, and therefore, can discharge moisture etc., the be dried drying of thing of promotion.In addition, in above-mentioned, illustrated to drive heater 5 in the dry operating pattern when the driving of cyclical breathing fan 2B begins, just blown out the example of warm braw from turning round at first.But, also can at first heater 5 be made as non-driving in running, blow out the air-supply corresponding with room temperature, through after the stipulated time, drive heater 5 and blow out warm braw.Even postpone the running that heater 5 drives, the moisture of the thing that is dried also is easy to evaporation, can reduce the dry needed energy of the thing that is dried.

Under the cyclical breathing operation mode, as the cyclical breathing position, wind path switches baffle plate 6B and is positioned at the second cyclical breathing position shown in Figure 11.When flap motor 61B rotated to assigned position, wind path and switches baffle plate 6B and be positioned at the second cyclical breathing position, the both sides of the first blow-off outlet 21B and the second blow-off outlet 22B and ventilation blow-off outlet 23B opened.The second cyclical breathing position is with respect to the first cyclical breathing position, and the aperture of ventilation blow-off outlet 23B is set significantly, increases the ventilation air quantity.

In addition, when wind path switches baffle plate 6B and is positioned at the second cyclical breathing position, it is the same when wind path switches baffle plate 6B and is positioned at the first cyclical breathing position, be positioned at the standard-sized sheet 76B of section because the jut 62B of the driving displacement of flap motor 61B pushes the opening/closing portion 75B that opens and closes guide cam slot part 71B, stir wind path and open and close baffle plate 7B and open the second blow-off outlet 22B.

Under the cyclical breathing operation mode, be positioned at the second cyclical breathing position and stir wind path when opening and closing baffle plate 7B and opening the second blow-off outlet 22B when wind path switches baffle plate 6B, heater 5 is made as non-driving, cyclical breathing fan motor 26B rotary blade 25B.

Under the cyclical breathing operation mode, wind path switches baffle plate 6B and is positioned at the second cyclical breathing position, therefore, flows to the first blow-off outlet 21B and the second blow-off outlet 22B from the part of the air in the bathroom 100 that cyclical breathing suction inlet 20B sucks.In addition, the remainder from the air in the bathroom 100 that cyclical breathing suction inlet 20B sucks flows to ventilation blow-off outlet 23B and exhaust outside the room.

Under the cyclical breathing operation mode, the air that flows to the first blow-off outlet 21B is because heater 5 is non-driving, therefore, blows out the air corresponding with room temperature from the first blow-off outlet grid 41B of front panel 4B.

In addition, even under the cyclical breathing operation mode, stir wind path switching baffle plate 7B and also open the second blow-off outlet 22B, therefore, air also flows to the second blow-off outlet 22B.The air that flows to the second blow-off outlet 22B is by heater 5, therefore, blows out the air corresponding with room temperature from the second blow-off outlet grid 42B of front panel 4B.

Even under the cyclical breathing operation mode, by the fast air of wind speed that blows out from the second blow-off outlet grid 42B, also produce along bathroom 100 1 sides' metope 106a towards the below, near the bottom in bathroom 100 towards the opposing party's metope 106b, along the opposing party's metope 106b towards above Air Flow.

Thus, even under the cyclical breathing operation mode, also produce to stir the wind of air in whole bathroom 100, though the air that blows out from the first blow-off outlet grid 41B in bathroom 100 be difficult to directly blow such position, also produce Air Flow.

Therefore, can shorten the drying time of each metope, ground etc. in bathroom 100.In addition, part exhaust to the room outside of the air in bathroom 100 is taken a breath, and therefore, can discharge moisture etc., the dryings such as each metope in promotion bathroom 100, ground.

Under the warming operation pattern, wind path switches baffle plate 6B and is positioned at circulation position shown in Figure 12.When flap motor 61B rotated to assigned position, wind path and switches baffle plate 6B and be positioned at circulation position, ventilation blow-off outlet 23B closed.

In addition, in the dry heat supplier 1B of bathroom aerating, when wind path switches baffle plate 6B and is positioned at circulation position, because the jut 62B of the driving displacement of flap motor 61B pushes the opening/closing portion 73B that opens and closes guide cam slot part 71B and is positioned at the contract fully 74B of section.Its result stirs wind path switching baffle plate 7B and closes the second blow-off outlet 22B.Thus, the first blow-off outlet 21B opens, and forms the circulation wind path that is communicated with to the first blow-off outlet 21B from cyclical breathing suction inlet 20B.

Under the warming operation pattern, be positioned at circulation position and stir wind path when opening and closing baffle plate 7B and closing the second blow-off outlet 22B when wind path switches baffle plate 6B, heater 5 is switched on, in addition, by the driving of cyclical breathing fan motor 26B, impeller 25B is rotated.

Under the warming operation pattern, wind path switches baffle plate 6B and is in circulation position, and the second blow-off outlet 22B is stirred wind path and opens and closes baffle plate 7B and close, and flows to the first blow-off outlet 21B from the roughly whole amount of the air in the bathroom 100 that cyclical breathing suction inlet 20B sucks.

Under the warming operation pattern, as shown in Fig. 9 (b), the air that flows to the first blow-off outlet 21B is heated by heater 5, thus, blows out warm braw HA from the first blow-off outlet grid 41B of front panel 4B.The second blow-off outlet 22B is stirred wind path switching baffle plate 7B and closes, and therefore, under the warming operation pattern, can not blow out the air that does not pass through heater 5.

Under the warming operation pattern, when air that temperature is not improved by heater blows out in the bathroom, in the situation that the bather is arranged in the bathroom, when in wind during the bather, it is cold that the bather will feel.Therefore, the dry heat supplier 1B of bathroom aerating possesses at the second blow-off outlet 22B the wind path of stirring and opens and closes baffle plate 7B, under the warming operation pattern, can close the second blow-off outlet 22B.

Thus, under the warming operation pattern, can prevent from blowing out temperature and not blow middle bather by the air of heater 5 raisings, suppress the bather and feel cold.

Under the ventilation operation mode, wind path switches baffle plate 6B and is positioned at ventilation position shown in Figure 13.When flap motor 61B rotated to assigned position, wind path and switches baffle plate 6B and be positioned at the ventilation position, ventilation blow-off outlet 23B opened, and forms the ventilation wind path that is communicated with to ventilation blow-off outlet 23B from cyclical breathing suction inlet 20B.

In addition, when wind path switches baffle plate 6B and is positioned at the ventilation position, because the jut 62B of the driving displacement of flap motor 61B pushes opening/closing portion 75B and is positioned at the standard-sized sheet 76B of section, stir wind path and open and close baffle plate 7B and open the second blow-off outlet 22B.But under the ventilation operation mode, the wind path switching baffle plate 6B that the first blow-off outlet 21B and the second blow-off outlet 22B are in the position of taking a breath closes, therefore, and can be from the second blow-off outlet 22B blow out air.

Under the ventilation operation mode, when the dry heat supplier 1B of bathroom aerating switched wind path baffle plate 6B and is made as the ventilation position, heater 5 was made as non-driving, drives cyclical breathing fan motor 26B, makes impeller 25B rotation.

Under the ventilation operation mode, wind path switches baffle plate 6B and is in the ventilation position, therefore, flows to ventilation blow-off outlet 23B, exhaust outside the room from the roughly whole amount of the air in the bathroom 100 that cyclical breathing suction inlet 20B sucks.Therefore, under the ventilation operation mode, can discharge hot gas and moisture in bathroom 100, suppress dewfall etc., and the generation of Antifungi.

＜variation of the dry heat supplier of the bathroom aerating of each embodiment 〉

(1) be provided with the example of circulating fan and scavenger fan

In the dry heat supplier of the bathroom aerating of the first above-mentioned embodiment and the second embodiment, utilize 1 fan to realize making the action of the air circulation in the bathroom and the action of ventilation, but also can utilize different fans to realize making the action of the air circulation in the bathroom and the action of ventilation.

Figure 14 and Figure 15 mean the pie graph of the variation of the dry heat supplier of the bathroom aerating of each embodiment, and Figure 14 means the side view that the inside of the dry heat supplier of bathroom aerating consists of, and Figure 15 is the plane of observing from following side.In addition, in following example, describe as the example of the dry heat supplier 1B of the bathroom aerating that is applicable to the second embodiment, but also go for the dry heat supplier 1A of bathroom aerating of the first embodiment.

The dry heat supplier 1C of the bathroom aerating of variation possesses air and the circulating fan 2C that the air that sucks is blown out in the bathroom 100 in suction illustrated in fig. 4 bathroom 100 and sucks air in bathroom 100 and the scavenger fan 8C of exhaust outside the room.

The same with set-up mode shown in Figure 4, the main part 3C with circulating fan 2C and scavenger fan 8C is installed on the top in bathroom 100 in the mode of exposing front panel 4C.

Circulating fan 2C possesses the circulation suction inlet 20C that sucks the air in bathroom 100, have heater 5 and blow out warm braw the first blow-off outlet 21C, produce the second blow-off outlet 22C of the wind that stirs the air in bathroom 100.In addition, circulating fan 2C possesses the stirring wind path switching baffle plate 7C that opens and closes the second blow-off outlet 22C.

In addition, circulating fan 2C possesses: the circulating fan housing 27C of the circulating fan motor 26C of impeller 25C, the drives impeller 25C of multiple wing and formation wind path.Circulating fan 2C is driven by circulating fan motor 26C by impeller 25C and rotates, and the air by circulating fan housing 27C rectification blows out to centrifugal direction produces the Air Flow that blows out along the tangential direction of impeller 25C.

Circulation suction inlet 20C is made of the bell-mouthed circular open that is called as of being located at along the below of the rotating shaft of impeller 25C.The first blow-off outlet 21C consists of by being located at the opening that blows out wind path 28C lower surface.The opening that consists of the first blow-off outlet 21C is take along the limit of the Air blowing direction of circulating fan housing 27C as the oblong openings of minor face.

The second blow-off outlet 22C is by so that the oblong openings as minor face consists of along the limit of the Air blowing direction of circulating fan housing 27C.The opening that consists of the second blow-off outlet 22C is located at the opposition side of circulation suction inlet 20C blowing out wind path 28C lower surface with respect to the first blow-off outlet 21C.

When opening and closing the driving force of the not shown flap motor of baffle plate 7C transmission to the stirring wind path, stir wind path switching baffle plate 7C and be rotated take axle 70C as fulcrum, switching the second blow-off outlet 22C.

With regard to the first blow-off outlet 21C and the second blow-off outlet 22C, wind speed many for the air quantity that makes the air that blows out from the first blow-off outlet 21C, the air that blows out from the second blow-off outlet 22C is fast, and the opening of the second blow-off outlet 22C consists of with respect to the opening of the first blow-off outlet 21C littlely.

The first blow-off outlet 21C and the second blow-off outlet 22C have respectively along the minor face of the Air blowing direction of circulating fan housing 27C.According to an example, the minor face of the second blow-off outlet 22C consists of with respect to the minor face of the first blow-off outlet 21C shortlyer.In addition, the long limit of the second blow-off outlet 22C constitutes equal length with respect to the long limit of the first blow-off outlet 21C.

Scavenger fan 8C possess the ventilation suction inlet 80C that sucks the air in bathroom 100 and the air that will suck from ventilation suction inlet 80C to the ventilation blow-off outlet 81C of outdoor exhaust.In addition, scavenger fan 8C possesses the not shown scavenger fan motor of impeller 82C, the drives impeller 25C of multiple wing, the scavenger fan housing 83C of formation wind path.

Scavenger fan 8C is by impeller 82C rotation, and the air by scavenger fan housing 83C rectification blows out to centrifugal direction produces the Air Flow that blows out along the tangential direction of impeller 82C.

Ventilation suction inlet 80C is made of the bell-mouthed circular open that is called as of being located at along the rotating shaft below of impeller 82C.Ventilation blow-off outlet 81C is located at the side of main part 3C, on ventilation blow-off outlet 81C, discharge duct joint 34C is installed.

The lower surface of plate 4C in front, by with the circulation suction inlet 20C of circulating fan 2C and the ventilation suction inlet 80C opening in opposite directions of scavenger fan 8C, form suction inlet grid 40C.

In addition, the lower surface of plate 4C in front utilizes the first blow-off outlet 21C opening in opposite directions with circulating fan 2C to form the first blow-off outlet grid 41C, and, utilize with the second blow-off outlet 22C opening in opposite directions and form the second blow-off outlet grid 42C.

At the second blow-off outlet grid 42C, with along with the first blow-off outlet grid 41C arranged side by side laterally, be the mode of the outside blow out air of main part 3C to the first blow-off outlet grid 41C opposition side, cowling panel 43C is set.

In addition, in above-mentioned, circulating fan 2C and scavenger fan 8C example arranged side by side have been described, but also can the overlapping circulating fan 2C in up and down and scavenger fan 8C.

Action to the dry heat supplier 1C of the bathroom aerating of variation describes.Under the dry operating pattern, stir wind path switching baffle plate 7C and open the second blow-off outlet 22C, utilize circulating fan 2C rotary blade 25C, and, heater 5 energisings.In addition, utilize scavenger fan 8C rotary blade 82C.In addition, the running under the dry operating pattern also can be made as non-driving with heater 5 at first, blows out the air-supply corresponding with room temperature, through after the stipulated time, drives heater 5 and blows out warm braw.

In the dry heat supplier 1C of bathroom aerating, when the impeller 25C of circulating fan 2C rotation, the air in the bathroom sucks circulation suction inlet 20C from the suction inlet grid 40C of front panel 4C.In addition, when the impeller 82C of scavenger fan 8C was rotated, the air in the bathroom was from the suction inlet grid 40C suction air exchange suction inlet 80C of front panel 4C.

Under the dry operating pattern, by driving the both sides of circulating fan 2C and scavenger fan 8C, by air flow first blow-off outlet 21C and the second blow-off outlet 22C of circulating fan 2C from the bathroom that circulation suction inlet 20C sucks.In addition, by air flow ventilation blow-off outlet 81C and to room outside the exhaust of scavenger fan 8C from the bathroom that ventilation suction inlet 80C sucks.

Under the dry operating pattern, the air that flows to the first blow-off outlet 21C is heated by heater 5, thus, blows out warm braw from the first blow-off outlet grid 41C of front panel 4C in the bathroom.

In addition, under the dry operating pattern, stir wind path switching baffle plate 7C and open the second blow-off outlet 22C, therefore, air also flows to the second blow-off outlet 22C.The air that flows to the second blow-off outlet 22C is by heater 5, therefore, blows out the air corresponding with room temperature from the second blow-off outlet grid 42C of front panel 4C in the bathroom.

In the dry heat supplier 1C of bathroom aerating, the air that blows out from the second blow-off outlet grid 42C is with respect to the metope of the first blow-off outlet grid 41C towards the bathroom of the side that the second blow-off outlet grid 42C is set one side.

Due to the relation of the configuration of the first blow-off outlet 21C and the second blow-off outlet 22C and size, the wind speed of the air that blows out from the second blow-off outlet grid 42C is faster than the wind speed of the air that blows out from the first blow-off outlet grid 41C.In addition, the air that blows out from the second blow-off outlet grid 42C does not pass through heater 5, and is therefore, low than the temperature of the air that blows out from the first blow-off outlet grid 41C.

Thus, in the dry heat supplier 1C of bathroom aerating, by the fast air of wind speed that blows out from the second blow-off outlet grid 42C, also can produce along bathroom one side's metope towards near below, bottom in the bathroom towards the opposing party's metope, along the opposing party's metope towards above Air Flow.

Under the dry operating pattern, the air that blows out from the first blow-off outlet grid 41C of the dry heat supplier 1C of bathroom aerating is heated by heater 5, and temperature rises, and relative humidity reduces, and is therefore, light than the air that blows out from the second blow-off outlet grid 42C.

Therefore, the air that from second blow-off outlet grid 42C blow out heavier than the air that blows out from the first blow-off outlet grid 41C flows to the bottom in bathroom, can produce flowing of the wind that stirs air in whole bathroom.

Thus, near the thing that is dried of the position the warm braw that blows out from the first blow-off outlet grid 41C is difficult to directly blow, also can produce Air Flow.Therefore, the dry heat supplier 1C of the bathroom aerating of variation also can make the moisture of the thing that is dried be easy to evaporation, reduces the dry needed energy of the thing that is dried.

In addition, the exhaust outside the room of the part of the air in the bathroom is taken a breath, and therefore, can discharge moisture etc., the drying of the thing that promotes to be dried.

Under the cyclical breathing operation mode, stir wind path switching baffle plate 7C and open the second blow-off outlet 22C, heater 5 is made as non-driving, utilizes circulating fan 2C rotary blade 25C.Impeller 82C also utilizes scavenger fan 8C to be rotated.

Even under the cyclical breathing operation mode, by driving the both sides of circulating fan 2C and scavenger fan 8C, utilize circulating fan 2C from air flow the first blow-off outlet 21C and the second blow-off outlet 22C in the bathroom that circulation suction inlet 20C sucks.In addition, by air flow ventilation blow-off outlet 81C and to room outside the exhaust of scavenger fan 8C from the bathroom that ventilation suction inlet 80C sucks.

Under the cyclical breathing operation mode, because heater 5 is non-driving, therefore, the air that flows to the first blow-off outlet 21C blows out the air corresponding with room temperature from the first blow-off outlet grid 41C of front panel 4C.

In addition, under the cyclical breathing operation mode, stir wind path switching baffle plate 7C and open the second blow-off outlet 22C, therefore, air also flows to the second blow-off outlet 22C.The air that flows to the second blow-off outlet 22C is by heater 5, therefore, blows out the air corresponding with room temperature from the second blow-off outlet grid 42C of front panel 4C.

In the dry heat supplier 1C of bathroom aerating, even under the cyclical breathing operation mode, by the fast air of wind speed that blows out from the second blow-off outlet grid 42C, also can produce along bathroom one side's metope towards near below, bottom in the bathroom towards the opposing party's metope, along the opposing party's metope towards above Air Flow.

Thus, even under the cyclical breathing operation mode, also can produce flowing of the wind that stirs air in whole bathroom, in the bathroom, even the air that blows out from the first blow-off outlet grid 41C is difficult to directly blow such position, also can produce Air Flow.

Therefore, can shorten the drying time of each metope, ground etc. in bathroom.In addition, the exhaust outside the room of the part of the air in the bathroom is taken a breath, and therefore, can discharge moisture etc., promotes the dryings such as each metope, ground in bathroom 100.

The dry heat supplier 1C of bathroom aerating stirs wind path switching baffle plate 7C and closes the second blow-off outlet 22C under the warming operation pattern, utilizes circulating fan 2C rotary blade 25C, and heater 5 energisings.Do not drive scavenger fan 8C.

Under the warming operation pattern, the second blow-off outlet 22C is stirred wind path and opens and closes baffle plate 7C and close, and therefore, drives circulating fan 2C, flows to the first blow-off outlet 21C from the roughly whole amount of the air in the bathroom that circulation suction inlet 20C sucks.

Under the warming operation pattern, the air that flows to the first blow-off outlet 21C is heated by heater 5, thus, blows out warm braw from the first blow-off outlet grid 41C of front panel 4C.The second blow-off outlet 22C is stirred wind path switching baffle plate 7C and closes, and therefore, under the warming operation pattern, can not blow out the air that does not pass through heater 5.

Thus, under the warming operation pattern, can prevent from blowing out the air that temperature reason heater 5 improves and blow middle bather, suppress the bather and feel cold.In addition, by not driving scavenger fan 8C, the air that warms in the bathroom is not taken a breath, and the temperature that can suppress in the bathroom reduces.

The dry heat supplier 1C of bathroom aerating drives scavenger fan 8C and makes impeller 82C rotation under the ventilation operation mode.Circulating fan 2C does not drive.Under the ventilation operation mode, by driving scavenger fan 8C, by air flow ventilation blow-off outlet 81C and to room outside the exhaust of scavenger fan 8C from the bathroom that ventilation suction inlet 80C sucks.Therefore, under the ventilation operation mode, can discharge hot gas and moisture in the bathroom, suppress dewfall etc., and the generation of Antifungi.

(2) wind path switches baffle plate and the different example of drive source that stirs wind path switching baffle plate

Then, the variation of the bathroom of the second embodiment heating ventilation drier described.In the dry heat supplier of the bathroom aerating of the second above-mentioned embodiment, be made as and utilize 1 drive source interlock to drive the formation that wind path switches baffle plate and stirs wind path switching baffle plate, switch baffle plate and stir wind path switching baffle plate but also can utilize different drive sources to drive wind path.

Figure 16 means the pie graph of the variation of the dry heat supplier of the bathroom aerating of the second embodiment.In the dry heat supplier 1D of the bathroom aerating of the variation of the second embodiment, the main part 3D with the cyclical breathing fan 2D that sucks blow out air is the same with set-up mode shown in Figure 4, is installed on the top in bathroom in the mode of exposing front panel 4D.

The dry heat supplier 1D of bathroom aerating possesses: suck air in the bathroom cyclical breathing suction inlet 20D, have heater 5 and blow out warm braw the first blow-off outlet 21D, produce the second blow-off outlet 22D of the wind of the air in the stirring bathroom.In addition, the dry heat supplier 1D of bathroom aerating possesses the air that will suck from cyclical breathing suction inlet 20D to the ventilation blow-off outlet 23D of outdoor exhaust.

In addition, the dry heat supplier 1D of bathroom aerating possesses the wind path switching baffle plate 6D that switches wind path between the first blow-off outlet 21D and the second blow-off outlet 22D and ventilation blow-off outlet 23D.In addition, the dry heat supplier 1D of bathroom aerating possesses the stirring wind path switching baffle plate 7D that opens and closes the second blow-off outlet 22D.

Cyclical breathing fan 2D possesses: the cyclical breathing blower-casting 27D of the cyclical breathing fan motor 26D of impeller 25D, the drives impeller 25D of multiple wing, formation wind path.

Cyclical breathing suction inlet 20D is made of the bell-mouthed circular open that is called as of being located at along the below of the rotating shaft of impeller 25D.The first blow-off outlet 21D will consist of to be located at as the oblong openings of minor face the lower surface that blows out wind path 28D along the limit of the Air blowing direction of cyclical breathing blower-casting 27D.

The second blow-off outlet 22D will be take along the limit of the Air blowing direction of cyclical breathing blower-casting 27D as the oblong openings of minor face, is located at the opposition side of cyclical breathing suction inlet 20D with respect to the first blow-off outlet 21D and consists of blowing out wind path 28D lower surface.Ventilation blow-off outlet 23D is located at the side of main part 3D, and discharge duct joint 34D is installed.

With regard to the first blow-off outlet 21D and the second blow-off outlet 22D, wind speed many for the air quantity that makes the air that blows out from the first blow-off outlet 21D, the air that blows out from the second blow-off outlet 22D is fast, and the opening of the second blow-off outlet 22D consists of with respect to the 1st blow-off outlet 21D littlely.

It is an example of wind path opening/closing portion that wind path switches baffle plate 6D, and the axle 60D that produces on-off action by rotation is set, and transmits the driving force of the first flap motor 61D, carries out the on-off action of the first blow-off outlet 21D and the second blow-off outlet 22D and ventilation blow-off outlet 23D.

Stirring wind path switching baffle plate 7D is an example of opening/closing portion, and the axle 70D that produces on-off action by rotation is set, and transmits the driving force of second baffle motor 71D, carries out the on-off action of the second blow-off outlet 22D.

Front panel 4D will with the cyclical breathing suction inlet 20D of cyclical breathing fan 2D in opposite directions the lower surface opening and form suction inlet grid 40D.In addition, front panel 4D will with the first blow-off outlet 21D of cyclical breathing fan 2D in opposite directions the lower surface opening and form the first blow-off outlet grid 41D, and will with the second blow-off outlet 22D in opposite directions the lower surface opening and form the second blow-off outlet grid 42D.

The second blow-off outlet grid 42D with along with the first blow-off outlet grid 41D arranged side by side laterally, be the mode of main part 3D outside blow out air to the first blow-off outlet grid 41D opposition side, cowling panel 43D is set.

Action to the dry heat supplier 1D of the bathroom aerating of variation is described as follows, and under the dry operating pattern, drives the first flap motor 61D, makes wind path switch baffle plate 6D and is in the cyclical breathing position that in Figure 16, dotted line represents.In addition, drive second baffle motor 71D, make the stirring wind path open and close baffle plate 7D and be in the open position that in Figure 16, dotted line represents.

The dry heat supplier 1D of bathroom aerating is under the dry operating pattern, be in the cyclical breathing position when making wind path switch baffle plate 6D, and when utilizing stirring wind path switching baffle plate 7D to open the second blow-off outlet 22D, drive cyclical breathing fan motor 26D, make impeller 25D rotation, and heater 5 is switched on.In addition, in this example, the running in also can the dry operating pattern is initial, and heater 5 is made as non-driving, blows out the air-supply corresponding with room temperature, through after the stipulated time, drives heater 5 and blows out warm braw.

Under the dry operating pattern, wind path switches baffle plate 6D and is in the cyclical breathing position, therefore, by impeller 25D rotation, the suction inlet grid 40D by front panel 4D flows to the first blow-off outlet 21D and the second blow-off outlet 22D from the part of the air in the bathroom that cyclical breathing suction inlet 20D sucks.In addition, the air remainder from the bathroom that cyclical breathing suction inlet 20D sucks flows to ventilation blow-off outlet 23D and exhaust outside the room.

Under the dry operating pattern, the air that flows to the first blow-off outlet 21D is heated by heater 5, thus, blows out warm braw from the first blow-off outlet grid 41D of front panel 4D.

In addition, under the dry operating pattern, stir wind path switching baffle plate 7D and open the second blow-off outlet 22D, therefore, air also flows to the second blow-off outlet 22D.The air that flows to the second blow-off outlet 22D is by heater 5, therefore, blows out the air corresponding with room temperature from the second blow-off outlet grid 42D of front panel 4D.

Due to the relation of the configuration of the first blow-off outlet 21D and the second blow-off outlet 22D and size, the wind speed of the air that blows out from the second blow-off outlet grid 42D is faster than the wind speed of the air that blows out from the first blow-off outlet grid 41D.In addition, the air that blows out from the second blow-off outlet grid 42D does not pass through heater 5, and is therefore, low than the temperature of the air that blows out from the first blow-off outlet grid 41D.

Thus, in the dry heat supplier 1D of bathroom aerating, by the fast air of wind speed that blows out from the second blow-off outlet grid 42D, also can produce along bathroom one side's metope towards near below, bottom in the bathroom towards the opposing party's metope, along the opposing party's metope towards above Air Flow.

Under the dry operating pattern, the air that blows out from the first blow-off outlet grid 41D of the dry heat supplier 1D of bathroom aerating is heated by heater 5, and temperature rises, and relative humidity reduces, and is therefore, light than the air that blows out from the second blow-off outlet grid 42D.

Therefore, the air that from second blow-off outlet grid 42D blow out heavier than the air that blows out from the first blow-off outlet grid 41D flows to the bathroom bottom, can produce flowing of the wind that stirs air in whole bathroom.

Thus, near the thing that is dried of the position the warm braw that blows out from the first blow-off outlet grid 41D is difficult to directly blow, also can produce Air Flow.Therefore, in the dry heat supplier 1D of the bathroom aerating of variation, the moisture of the thing that is dried also is easy to evaporation, can reduce the dry needed energy of the thing that is dried.

In addition, the exhaust outside the room of the part of the air in the bathroom is taken a breath, and therefore, can discharge moisture etc., the drying of the thing that promotes to be dried.In addition, switch baffle plate 6D and stir wind path and open and close baffle plate 7D by utilizing different drive source to open and close wind path, can change from the first blow-off outlet 21D and blow out the moment of warm braw and blow out moment for the air-supply of stirring room air from the second blow-off outlet 22D.

The dry heat supplier 1D of bathroom aerating drives the first flap motor 61D under the cyclical breathing operation mode, make wind path switch baffle plate 6D and be in the cyclical breathing position that in Figure 16, dotted line represents.In addition, drive second baffle motor 71D, make the stirring wind path open and close baffle plate 7D and be in the open position that in Figure 18, dotted line represents.

The dry heat supplier 1D of bathroom aerating is under the cyclical breathing operation mode, be in the cyclical breathing position when making wind path switch baffle plate 6D, and when utilizing stirring wind path switching baffle plate 7D to open the second blow-off outlet 22D, heater 5 is made as non-driving, drive cyclical breathing fan motor 26D, make impeller 25D rotation.

Under the cyclical breathing operation mode, wind path switches baffle plate 6D and is in the cyclical breathing position, therefore, flows to the first blow-off outlet 21D and the second blow-off outlet 22D from the part of the air in the bathroom that cyclical breathing suction inlet 20D sucks.In addition, the air remainder from the bathroom that cyclical breathing suction inlet 20D sucks flows to ventilation blow-off outlet 23D and exhaust outside the room.

Under the cyclical breathing operation mode, because heater 5 is non-driving, therefore, the air that flows to the first blow-off outlet 21D blows out the air corresponding with room temperature from the first blow-off outlet grid 41D of front panel 4D.

In addition, even under the cyclical breathing operation mode, open the second blow-off outlet 22D owing to stirring wind path switching baffle plate 7D, therefore, air also flows to the second blow-off outlet 22D.The air that flows to the second blow-off outlet 22D is by heater 5, therefore, blows out the air corresponding with room temperature from the second blow-off outlet grid 42D of front panel 4D.

In the dry heat supplier 1D of bathroom aerating, even under the cyclical breathing operation mode, by the fast air of wind speed that blows out from the second blow-off outlet grid 42D, also can produce along bathroom one side's metope towards near below, bottom in the bathroom towards the opposing party's metope, along the opposing party's metope towards above Air Flow.

Thus, even under the cyclical breathing operation mode, also can produce flowing of the wind that stirs air in whole bathroom, in the bathroom, even the air that blows out from the first blow-off outlet grid 41D is difficult to directly blow such position, also can produce Air Flow.

Therefore, can shorten the drying time such as each metope, ground in bathroom.In addition, the exhaust outside the room of the part of the air in the bathroom is taken a breath, and therefore, can discharge moisture etc., promotes the dryings such as each metope, ground in bathroom.

The dry heat supplier 1D of bathroom aerating drives the first flap motor 61D under the warming operation pattern, make wind path switch baffle plate 6D and be in the circulation position that in Figure 16, solid line represents.In addition, drive second baffle motor 71D, make the stirring wind path open and close baffle plate 7D and be in the closed position that in Figure 16, solid line represents.

The dry heat supplier 1D of bathroom aerating is under the warming operation pattern, be in circulation position when making wind path switch baffle plate 6D, and utilize when stirring wind path and opening and closing baffle plate 7D and close the second blow-off outlet 22D, heater 5 is switched on, and drive cyclical breathing fan motor 26D, make impeller 25D rotation.

Under the warming operation pattern, wind path switches baffle plate 6D and is in circulation position, and the second blow-off outlet 22D is stirred wind path and opens and closes baffle plate 7D and close, and therefore, flows to the first blow-off outlet 21D from the roughly whole amount of the air in the bathroom that cyclical breathing suction inlet 20D sucks.

Under the warming operation pattern, the air that flows to the first blow-off outlet 21D is heated by heater 5, thus, blows out warm braw from the first blow-off outlet grid 41D of front panel 4D.The second blow-off outlet 22D is stirred wind path switching baffle plate 7D and closes, and therefore, under the warming operation pattern, can not blow out the air that does not pass through heater 5.

Thus, under the warming operation pattern, can prevent from blowing out the air that temperature reason heater 5 improves and blow middle bather, suppress the bather and feel cold.

The dry heat supplier 1D of bathroom aerating drives the first flap motor 61D under the ventilation operation mode, make wind path switch baffle plate 6D and be in the ventilation position that in Figure 16, chain-dotted line represents.In addition, drive second baffle motor 71D, make the stirring wind path open and close baffle plate 7D and be in the closed position that in Figure 16, solid line represents.

The dry heat supplier 1D of bathroom aerating is under the ventilation operation mode, be in the ventilation position when making wind path switch baffle plate 6D, and utilize when stirring wind path and opening and closing baffle plate 7D and close the second blow-off outlet 22D, heater 5 is made as non-driving, drive cyclical breathing fan motor 26D, make impeller 25D rotation.

Under the ventilation operation mode, wind path switches baffle plate 6D and is in the ventilation position, therefore, flows to ventilation blow-off outlet 23D from the roughly whole amount of the air in the bathroom that cyclical breathing suction inlet 20D sucks, and exhaust outside the room.Therefore, under the ventilation operation mode, can discharge hot gas and moisture in the bathroom, suppress dewfall etc., and the generation of Antifungi.

(3) wind path is switched baffle plate and stir example that function that wind path opens and closes baffle plate is made as one then, other variation of the bathroom heating ventilation drier of the second embodiment is described.

In the dry heat supplier of the bathroom aerating of the second above-mentioned embodiment, form to make wind path switch baffle plate and stir wind path and open and close baffle plate and independently consist of, open and close baffle plate and constitute one but also wind path can be switched baffle plate and stir wind path.

Figure 17 means the pie graph of dry other variation of heat supplier of bathroom aerating of the second embodiment.In the dry heat supplier 1E of the bathroom aerating of other variation of the second embodiment, the main part 3E with the cyclical breathing fan 2E that sucks blow out air is the same with set-up mode shown in Figure 4, is installed on the top in bathroom in the mode of exposing front panel 4E.

The dry heat supplier 1E of bathroom aerating possesses the cyclical breathing suction inlet 20E that sucks the air in the bathroom, have heater 5 and blow out warm braw the first blow-off outlet 21E, produce the second blow-off outlet 22E of the wind of the air in the stirring bathroom.In addition, the dry heat supplier 1E of bathroom aerating possesses the air that will suck from cyclical breathing suction inlet 20E to the ventilation blow-off outlet 23E of outdoor exhaust.

In addition, the dry heat supplier 1E of bathroom aerating possesses between the first blow-off outlet 21E and the second blow-off outlet 22E and ventilation blow-off outlet 23E and switches wind path, and opens and closes the wind path switching baffle plate 6E of the second blow-off outlet 22E.

Cyclical breathing fan 2E possesses: the cyclical breathing blower-casting 27E of the cyclical breathing fan motor 26E of impeller 25E, the drives impeller 25E of multiple wing and formation wind path.

Be called as bell-mouthed circular open and consist of cyclical breathing suction inlet 20E arranging below the rotating shaft of impeller 25E.The first blow-off outlet 21E will consist of to be located at as the oblong openings of minor face the lower surface that blows out wind path 28E along the limit of the Air blowing direction of cyclical breathing blower-casting 27E.

The second blow-off outlet 22E will take along the limit of the Air blowing direction of cyclical breathing blower-casting 27E as the oblong openings of minor face at the lower surface that blows out wind path 28E, be located at the opposition side of cyclical breathing suction inlet 20E and consist of with respect to the first blow-off outlet 21E.Ventilation blow-off outlet 23E is located at the side of main part 3E, and discharge duct joint 34E is installed.

With regard to the first blow-off outlet 21E and the second blow-off outlet 22E, wind speed many for the air quantity that makes the air that blows out from the first blow-off outlet 21E, the air that blows out from the second blow-off outlet 22E is fast, and the opening of the second blow-off outlet 22E consists of with respect to the opening of the first blow-off outlet 21E littlely.

Wind path opens and closes baffle plate 6E to be possessed to be provided with by rotation and produces the axle 60E of on-off action and at the wind path switching part 61E of the first blow-off outlet 21E and the second blow-off outlet 22E and the switching wind path between blow-off outlet 23E of taking a breath with air is sent to the stirring wind path forming portion 62E of the second blow-off outlet 22E.

Wind path opens and closes the driving force that baffle plate 6E transmits not shown flap motor, wind path switching part 61E and the rotation of stirring wind path forming portion 62E one utilize wind path switching part 61E to carry out the on-off action of the first blow-off outlet 21E and the second blow-off outlet 22E and ventilation blow-off outlet 23E.In addition, utilize stirring wind path forming portion 62E to carry out to the formation of the wind path of the second blow-off outlet 22E induced air.

Front panel 4E will with the cyclical breathing suction inlet 20E of cyclical breathing fan 2E in opposite directions the lower surface opening and form suction inlet grid 40E.In addition, front panel 4E will with the first blow-off outlet 21E of cyclical breathing fan 2E in opposite directions the lower surface opening and form the first blow-off outlet grid 41E, and, will with the second blow-off outlet 22E in opposite directions the lower surface opening and form the second blow-off outlet grid 42E.

The second blow-off outlet grid 42E with along with the first blow-off outlet grid 41E arranged side by side laterally, be the mode of the outside blow out air of main part 3E to the first blow-off outlet grid 41E opposition side, cowling panel 43E is set.

Action to the dry heat supplier 1E of the bathroom aerating of variation is described as follows, and under the dry operating pattern, makes wind path open and close baffle plate 6E and is in the cyclical breathing position that in Figure 17, solid line represents.When making wind path switching baffle plate 6E be in the cyclical breathing position, utilize wind path switching part 61E to open the first blow-off outlet 21E and the second blow-off outlet 22E and ventilation blow-off outlet 23E, and utilize and stir wind path forming portion 62E formation to the wind path of the second blow-off outlet 22E induced air.

The dry heat supplier 1E of bathroom aerating when making wind path switching baffle plate 6E be in the cyclical breathing position, drives cyclical breathing fan motor 26E under the dry operating pattern, make impeller 25E rotation, and, heater 5 is switched on.In addition, in this example, running that also can be in the dry operating pattern is initial, and heater 5 is made as non-driving, blows out the air-supply corresponding with room temperature, through after the stipulated time, drives heater 5, blows out warm braw.

Under the dry operating pattern, wind path opens and closes baffle plate 6E and is in the cyclical breathing position, therefore, by impeller 25E rotation, the suction inlet grid 40E by front panel 4E flows to the first blow-off outlet 21E and the second blow-off outlet 22E from the part of the air in the bathroom that cyclical breathing suction inlet 20E sucks.In addition, the air remainder from the bathroom that cyclical breathing suction inlet 20E sucks flows to ventilation blow-off outlet 23E and exhaust outside the room.

Under the dry operating pattern, the air that flows to the first blow-off outlet 21E is heated by heater 5, thus, blows out warm braw from the first blow-off outlet grid 41E of front panel 4E.

In addition, under the dry operating pattern, utilize wind path to open and close baffle plate 6E and open the second blow-off outlet 22E, utilize and stir wind path forming portion 62E formation wind path, therefore, air also flows to the second blow-off outlet 22E.The air that flows to the second blow-off outlet 22E is by heater 5, therefore, blows out the air corresponding with room temperature from the second blow-off outlet grid 42E of front panel 4E.

Due to the relation of the configuration of the first blow-off outlet 21E and the second blow-off outlet 22E and size, the wind speed of the air that blows out from the second blow-off outlet grid 42E is faster than the wind speed of the air that blows out from the first blow-off outlet grid 41E.In addition, the air that blows out from the second blow-off outlet grid 42E does not pass through heater 5, and is therefore, low than the temperature of the air that blows out from the first blow-off outlet grid 41E.

Thus, even in the dry heat supplier 1E of bathroom aerating, by the fast air of wind speed that blows out from the second blow-off outlet grid 42E, also can produce along bathroom one side's metope towards near below, bottom in the bathroom towards the opposing party's metope, along the opposing party's metope towards above Air Flow.

Under the dry operating pattern, the air that blows out from the first blow-off outlet grid 41E of the dry heat supplier 1E of bathroom aerating is heated by heater 5, and temperature rises, and relative humidity reduces, and is therefore, light than the air that blows out from the second blow-off outlet grid 42E.

Therefore, the air that from second blow-off outlet grid 42E blow out heavier than the air that blows out from the first blow-off outlet grid 41E flows to the bathroom bottom, can produce flowing of the wind that stirs air in whole bathroom.

Thus, near the thing that is dried of the position the warm braw that blows out from the first blow-off outlet grid 41E is difficult to directly blow, also can produce Air Flow.Therefore, even the dry heat supplier 1E of the bathroom aerating of variation, the moisture of the thing that is dried also is easy to evaporation, can reduce the dry needed energy of the thing that is dried.

In addition, the exhaust outside the room of the part of the air in the bathroom is taken a breath, and therefore, can discharge moisture etc., the drying of the thing that promotes to be dried.

The dry heat supplier 1E of bathroom aerating makes wind path open and close baffle plate 6E and is in the cyclical breathing position that in Figure 17, solid line represents under the cyclical breathing operation mode, and heater 5 is made as non-driving, drives cyclical breathing fan motor 26E, makes impeller 25E rotation.

Under the cyclical breathing operation mode, wind path opens and closes baffle plate 6E and is in the cyclical breathing position, therefore, flows to the first blow-off outlet 21E and the second blow-off outlet 22E from the part of the air in the bathroom that cyclical breathing suction inlet 20E sucks.In addition, the air remainder from the bathroom that cyclical breathing suction inlet 20E sucks flows to ventilation blow-off outlet 23E and exhaust outside the room.

Under the cyclical breathing operation mode, because heater 5 is non-driving, therefore, the air that flows to the first blow-off outlet 21E blows out the air corresponding with room temperature from the first blow-off outlet grid 41E of front panel 4E.

In addition, even under the cyclical breathing operation mode, wind path opens and closes baffle plate 6E and opens the second blow-off outlet 22E, and therefore, air also flows to the second blow-off outlet 22E.The air that flows to the second blow-off outlet 22E is by heater 5, therefore, blows out the air corresponding with room temperature from the second blow-off outlet grid 42E of front panel 4E.

In the dry heat supplier 1E of bathroom aerating, even under the cyclical breathing operation mode, by the fast air of wind speed that blows out from the second blow-off outlet grid 42E, also can produce along bathroom one side's metope towards near below, bottom in the bathroom towards the opposing party's metope, along the opposing party's metope towards above Air Flow.

Thus, even under the cyclical breathing operation mode, also can produce flowing of the wind that stirs air in whole bathroom, in the bathroom, even the air that blows out from the first blow-off outlet grid 41E is difficult to directly blow such position, also can produce Air Flow.

Therefore, can shorten the drying time such as each metope, ground in bathroom.In addition, the exhaust outside the room of the part of the air in the bathroom is taken a breath, and therefore, can discharge moisture etc., promotes the dryings such as each metope, ground in bathroom.

The dry heat supplier 1E of bathroom aerating makes wind path open and close baffle plate 6E and is in the circulation position that in Figure 17, dotted line represents under the warming operation pattern.When making wind path switching baffle plate 6E be in circulation position, utilize wind path switching part 61E to close ventilation blow-off outlet 23E.In addition, the second blow-off outlet 22E is also closed by wind path switching part 61E.

The dry heat supplier 1E of bathroom aerating when making wind path switching baffle plate 6E be in circulation position, switches on to heater 5 under the warming operation pattern, and, drive cyclical breathing fan motor 26E, make impeller 25E rotation.

Under the warming operation pattern, wind path opens and closes baffle plate 6E and is in circulation position, closes ventilation blow-off outlet 23E and the second blow-off outlet 22E, therefore, flows to the first blow-off outlet 21E from the roughly whole amount of the air in the bathroom that cyclical breathing suction inlet 20E sucks.

Under the warming operation pattern, the air that flows to the first blow-off outlet 21E is heated by heater 5, thus, blows out warm braw from the first blow-off outlet grid 41E of front panel 4E.The second blow-off outlet 22E is opened and closed baffle plate 7E by wind path and closes, and therefore, under the warming operation pattern, can not blow out the air that does not pass through heater 5.

Thus, under the warming operation pattern, can prevent from blowing out the air that temperature reason heater 5 improves and blow middle bather, suppress the bather and feel cold.

The dry heat supplier 1E of bathroom aerating makes wind path open and close baffle plate 6E and is in the ventilation position that in Figure 17, chain-dotted line represents under the ventilation operation mode.When making wind path switching baffle plate 6E be in the ventilation position, utilize wind path switching part 61E to open ventilation blow-off outlet 23E, and close the first blow-off outlet 21E and the second blow-off outlet 22E.

The dry heat supplier 1E of bathroom aerating is under the ventilation operation mode, and when making wind path switching baffle plate 6E be in the ventilation position, heater 5 is made as non-driving, drives cyclical breathing fan motor 26E, makes impeller 25E rotation.

Under the ventilation operation mode, wind path opens and closes baffle plate 6E and is in the ventilation position, therefore, flows to ventilation blow-off outlet 23E from the roughly whole amount of the air in the bathroom that cyclical breathing suction inlet 20E sucks, and exhaust outside the room.Therefore, under the ventilation operation mode, can discharge hot gas and moisture in the bathroom, suppress dewfall etc., and the generation of Antifungi.

(4) utilize the example that stirs wind path switching baffle plate switching wind direction

Then, other variation of the bathroom of the second embodiment heating ventilation drier described.In the dry heat supplier of the bathroom aerating of the second above-mentioned embodiment, be made as and utilize the formation that stirs wind path switching baffle plate switching the second blow-off outlet, stir but also can be made as to utilize the formation that wind path opens and closes baffle plate switching wind direction.

Figure 18 means the pie graph of other variation of the dry heat supplier of the bathroom aerating of the second embodiment.In the dry heat supplier 1F of the bathroom aerating of other variation of the second embodiment, the main part 3F with the cyclical breathing fan 2F that sucks blow out air is the same with set-up mode shown in Figure 4, to expose the mode of front panel 4F, is installed on the top in bathroom.

The dry heat supplier 1F of bathroom aerating possesses: suck the air in the bathroom cyclical breathing suction inlet 20F, have heater 5 and blow out warm braw the first blow-off outlet 21F, produce the second blow-off outlet 22F of the wind of the air in the stirring bathroom.In addition, the dry heat supplier 1F of bathroom aerating possesses the air that will suck from cyclical breathing suction inlet 20F to the ventilation blow-off outlet 23F of outdoor exhaust.

In addition, the dry heat supplier 1F of bathroom aerating possesses the wind path switching baffle plate 6F that switches wind path between the first blow-off outlet 21F and the second blow-off outlet 22F and ventilation blow-off outlet 23F.In addition, the dry heat supplier 1F of bathroom aerating possesses the stirring wind path switching baffle plate 7F that opens and closes the second blow-off outlet 22F and switch wind direction.

Cyclical breathing fan 2F possesses the cyclical breathing fan motor 26F of impeller 25F, the drives impeller 25F of multiple wing, the cyclical breathing blower-casting 27F of formation wind path.

Be called as bell-mouthed circular open and consist of cyclical breathing suction inlet 20F arranging below the rotating shaft of impeller 25F.To consist of the first blow-off outlet 21F to be located at as the oblong openings of minor face the lower surface that blows out wind path 28F along the limit of the Air blowing direction of cyclical breathing blower-casting 27F.

Will be so that the oblong openings as minor face consists of the second blow-off outlet 22F at the lower surface that blows out wind path 28F with respect to the opposition side that the first blow-off outlet 21F is located at cyclical breathing suction inlet 20F along the limit of the Air blowing direction of cyclical breathing blower-casting 27F.Ventilation blow-off outlet 23F is located at the side of main part 3F, and discharge duct joint 34F is installed.

With regard to the first blow-off outlet 21F and the second blow-off outlet 22F, wind speed many for the air quantity that makes the air that blows out from the first blow-off outlet 21F, the air that blows out from the second blow-off outlet 22F is fast, and the opening of the second blow-off outlet 22F consists of with respect to the opening of the first blow-off outlet 21F littlely.

It is an example of wind path opening/closing portion that wind path switches baffle plate 6F, and the axle 60F that produces on-off action by rotation is set, and transmits the driving force of not shown flap motor, carries out the on-off action of the first blow-off outlet 21F and the second blow-off outlet 22F and ventilation blow-off outlet 23F.

Stirring wind path switching baffle plate 7F is an example of opening/closing portion, and the axle 70F that produces on-off action by rotation is set, and transmits the driving force of not shown flap motor, and the on-off action and the wind direction that carry out the second blow-off outlet 22F switch action.

Front panel 4F will with the cyclical breathing suction inlet 20F of cyclical breathing fan 2F in opposite directions the lower surface opening and form suction inlet grid 40F.In addition, front panel 4F will with the first blow-off outlet 21F of cyclical breathing fan 2F in opposite directions the lower surface opening and form the first blow-off outlet grid 41F, and, will with the second blow-off outlet 22F in opposite directions the lower surface opening and form the second blow-off outlet grid 42F.

Action to the dry heat supplier 1F of the bathroom aerating of variation is described as follows, and under the dry operating pattern, makes wind path switch baffle plate 6F and is in the cyclical breathing position that in Figure 18, solid line represents.In addition, make the stirring wind path open and close baffle plate 7F and be in the open position that in Figure 18, solid line represents.At this, the stirring wind path that is shown in an open position opens and closes baffle plate 7F for example can regulate aperture in the scope that arrow F represents, according to conditions such as the position of the size in bathroom, clothes airing-tube, radicals, switches wind direction.

The dry heat supplier 1F of bathroom aerating is under the dry operating pattern, be in the cyclical breathing position when making wind path switch baffle plate 6F, and when utilizing stirring wind path switching baffle plate 7F to open the second blow-off outlet 22F, drive cyclical breathing fan motor 26F, make impeller 25F rotation, and heater 5 is switched on.In addition, even in this example, running that also can be in the dry operating pattern is initial, and heater 5 is made as non-driving, blows out the air-supply corresponding with room temperature, through after the stipulated time, drives heater 5 and blows out warm braw.

Under the dry operating pattern, wind path switches baffle plate 6F and is in the cyclical breathing position, therefore, by impeller 25F rotation, the suction inlet grid 40F by front panel 4F flows to the first blow-off outlet 21F and the second blow-off outlet 22F from the part of the air in the bathroom that cyclical breathing suction inlet 20F sucks.In addition, the air remainder from the bathroom that cyclical breathing suction inlet 20F sucks flows to ventilation blow-off outlet 23F and exhaust outside the room.

Under the dry operating pattern, the air that flows to the first blow-off outlet 21F is heated by heater 5, blows out warm braw from the first blow-off outlet grid 41F of front panel 4F.

In addition, under the dry operating pattern, stir wind path switching baffle plate 7F and open the second blow-off outlet 22F, therefore, air also flows to the second blow-off outlet 22F.The air that flows to the second blow-off outlet 22F is by heater 5, therefore, the air corresponding with room temperature from the second blow-off outlet grid 42F of front panel 4F to stir wind path and open and close direction corresponding to the aperture of baffle plate 7F and blow out.

Due to the relation of the configuration of the first blow-off outlet 21F and the second blow-off outlet 22F and size, the wind speed of the air that blows out from the second blow-off outlet grid 42F is faster than the wind speed of the air that blows out from the first blow-off outlet grid 41F.In addition, the air that blows out from the second blow-off outlet grid 42F does not pass through heater 5, and is therefore, low than the temperature of the air that blows out from the first blow-off outlet grid 41F.

Thus, even in the dry heat supplier 1F of bathroom aerating, by the fast air of wind speed that blows out from the second blow-off outlet grid 42F, also can produce along bathroom one side's metope towards near below, bottom in the bathroom towards the opposing party's metope, along the opposing party's metope towards above Air Flow.

Under the dry operating pattern, the air that blows out from the first blow-off outlet grid 41F of the dry heat supplier 1F of bathroom aerating is heated by heater 5, and temperature rises, and relative humidity reduces, and is therefore, light than the air that blows out from the second blow-off outlet grid 42F.

Therefore, the air that from second blow-off outlet grid 42F blow out heavier than the air that blows out from the first blow-off outlet grid 41F flows to the bathroom bottom, can produce flowing of the wind that stirs air in whole bathroom.In addition, by switching the wind direction of the air that blows out from the second blow-off outlet grid 42F, according to the size in bathroom etc., can produce the mobile of the wind that stirs air in whole bathroom.

Thus, even near the thing that is dried of the position the warm braw that blows out from the first blow-off outlet grid 41F is difficult to directly blow, also can produce Air Flow.Therefore, even the dry heat supplier 1F of the bathroom aerating of variation, the moisture of the thing that is dried also is easy to evaporation, can reduce the dry needed energy of the thing that is dried.

In addition, the exhaust outside the room of the part of the air in the bathroom is taken a breath, and therefore, can discharge moisture etc., the drying of the thing that promotes to be dried.

The dry heat supplier 1F of bathroom aerating makes wind path switch baffle plate 6F and is in the cyclical breathing position that in Figure 18, solid line represents under the cyclical breathing operation mode.In addition, make the stirring wind path open and close baffle plate 7F and be in the open position that in Figure 18, solid line represents.Even under the cyclical breathing operation mode, open and close the aperture of baffle plate 7F by stirring wind path, also changeable wind direction.

The dry heat supplier 1F of bathroom aerating is under the cyclical breathing operation mode, be in the cyclical breathing position when making wind path switch baffle plate 6F, and when utilizing stirring wind path switching baffle plate 7F to open the second blow-off outlet 22F, heater 5 is made as non-driving, drive cyclical breathing fan motor 26F, make impeller 25F rotation.

Under the cyclical breathing operation mode, wind path switches baffle plate 6F and is in the cyclical breathing position, therefore, flows to the first blow-off outlet 21F and the second blow-off outlet 22F from the part of the air in the bathroom that cyclical breathing suction inlet 20F sucks.In addition, the air remainder from the bathroom that cyclical breathing suction inlet 20F sucks flows to ventilation blow-off outlet 23F and exhaust outside the room.

Under the cyclical breathing operation mode, because heater 5 is non-driving, therefore, the air that flows to the first blow-off outlet 21F blows out the air corresponding with room temperature from the first blow-off outlet grid 41F of front panel 4F.

In addition, even under the cyclical breathing operation mode, stir wind path switching baffle plate 7F and open the second blow-off outlet 22F, therefore, air also flows to the second blow-off outlet 22F.The air that flows to the second blow-off outlet 22F is by heater 5, therefore, blows out the air corresponding with room temperature from the second blow-off outlet grid 42F of front panel 4F.

In the dry heat supplier 1F of bathroom aerating, even under the cyclical breathing operation mode, by the fast air of wind speed that blows out from the second blow-off outlet grid 42F, also can produce along bathroom one side's metope towards near below, bottom in the bathroom towards the opposing party's metope, along the opposing party's metope towards above Air Flow.

Thus, even under the cyclical breathing operation mode, also can produce flowing of the wind that stirs air in whole bathroom, in the bathroom, even the air that blows out from the first blow-off outlet grid 41F is difficult to directly blow such position, also can produce Air Flow.

Therefore, can shorten the drying time such as each metope, ground in bathroom.In addition, the exhaust outside the room of the part of the air in the bathroom is taken a breath, and therefore, can discharge moisture etc., promotes the dryings such as each metope, ground in bathroom.

The dry heat supplier 1F of bathroom aerating makes wind path switch baffle plate 6F and is in the circulation position that in Figure 18, dotted line represents under the warming operation pattern.In addition, make the stirring wind path open and close baffle plate 7F and be in the closed position that in Figure 18, dotted line represents.

The dry heat supplier 1F of bathroom aerating is in circulation position when making wind path switch baffle plate 6F under the warming operation pattern, and utilizes when stirring wind path and opening and closing baffle plate 7F and close the second blow-off outlet 22F, heater 5 is switched on, and, drive cyclical breathing fan motor 26F, make impeller 25F rotation.

Under the warming operation pattern, wind path switches baffle plate 6F and is in circulation position, and the second blow-off outlet 22F is stirred wind path and opens and closes baffle plate 7F and close, and therefore, flows to the first blow-off outlet 21F from the roughly whole amount of the air in the bathroom that cyclical breathing suction inlet 20F sucks.

Under the warming operation pattern, the air that flows to the first blow-off outlet 21F is heated by heater 5, thus, blows out warm braw from the first blow-off outlet grid 41F of front panel 4F.The second blow-off outlet 22F is stirred wind path switching baffle plate 7F and closes, and therefore, under the warming operation pattern, can not blow out the air that does not pass through heater 5.

Thus, under the warming operation pattern, can prevent from blowing out the air that temperature reason heater 5 improves and blow middle bather, suppress the bather and feel cold.

The dry heat supplier 1F of bathroom aerating makes wind path switch baffle plate 6F and is in the ventilation position that in Figure 18, chain-dotted line represents under the ventilation operation mode.In addition, make the stirring wind path open and close baffle plate 7F and be in the closed position that in Figure 18, dotted line represents.

The dry heat supplier 1F of bathroom aerating is under the ventilation operation mode, be in the ventilation position when making wind path switch baffle plate 6F, and utilize when stirring wind path and opening and closing baffle plate 7F and close the second blow-off outlet 22F, heater 5 is made as non-driving, drive cyclical breathing fan motor 26F, make impeller 25F rotation.

Under the ventilation operation mode, wind path switches baffle plate 6F and is in the ventilation position, therefore, flows to ventilation blow-off outlet 23F from the roughly whole amount of the air in the bathroom that cyclical breathing suction inlet 20F sucks, and exhaust outside the room.Therefore, under the ventilation operation mode, can discharge hot gas and moisture in the bathroom, suppress dewfall etc., and the generation of Antifungi.

(5) variation of the suction direction of air

Figure 19 means the stereogram of the variation of the dry heat supplier of the bathroom aerating of each embodiment.

In following example, describe as the example of the dry heat supplier 1B of the bathroom aerating that is applicable to the second embodiment, but also go for the dry heat supplier of bathroom aerating of other embodiment.

The dry heat supplier 1G of the bathroom aerating of variation is the formation of utilizing air that cyclical breathing fan 2B will suck from cyclical breathing suction inlet 20B to suck from the side of front panel 4G.At this, the formation of main part 3B is identical with the second embodiment, and therefore, description thereof is omitted.

Front panel 4G except 3 limits along the limit of the longitudinal edge of the second blow-off outlet 22B of cyclical breathing fan 2B arbitrarily or whole side, 3 limits, opening be set and form suction inlet grid 40G.

The same with the second embodiment, front panel 4G will with the first blow-off outlet 21B of cyclical breathing fan 2B in opposite directions the lower surface opening and form the first blow-off outlet grid 41G, and will with the second blow-off outlet 22B in opposite directions the lower surface opening and form the second blow-off outlet grid 42G.

Even the dry heat supplier 1G of the bathroom aerating of variation, by the air that sucks from suction inlet grid 40G and the fast air of wind speed that blows out from the second blow-off outlet grid 42G, also can produce along bathroom one side's metope towards near below, bottom in the bathroom towards the opposing party's metope, along the opposing party's metope towards above Air Flow.

Thus, can produce flowing of the wind that stirs air in whole bathroom, under the dry operating pattern, even near the thing that is dried that is in the position of the warm braw that blows out from the first blow-off outlet grid 41G being difficult to directly blow, also can produce Air Flow.Therefore, the moisture of the thing that is dried is easy to evaporation, can reduce the dry needed energy of the thing that is dried.

In the dry heat supplier 1G of the bathroom aerating of variation, possesses suction inlet grid 40G by the side of plate 4G in front, need not to arrange at the lower surface of the front panel 4G in the bathroom opening of air amount, occupying larger area suction inlet grid in the formation of the lower surface of being located at front panel can not expose to the lower surface of front panel, therefore, can improve aesthetic appearance.

(6) the suction direction of air and the variation of blow-off direction

Figure 20 means the stereogram of other variation of the dry heat supplier of the bathroom aerating of each embodiment.

The dry heat supplier 1H of the bathroom aerating of variation utilizes air that cyclical breathing fan 2B will suck from cyclical breathing suction inlet 20B to suck from the side of front panel 4H, and the formation that blows out from the side of front panel 4H of the air that will blow out from the second blow-off outlet 22B.

Front panel 4H except 3 limits along the limit of the longitudinal edge of the second blow-off outlet 22B of cyclical breathing fan 2B arbitrarily or whole side, 3 limits, opening be set and form suction inlet grid 40H.

The same with the second embodiment, front panel 4H will with the first blow-off outlet 21B of cyclical breathing fan 2B in opposite directions the lower surface opening and form the first blow-off outlet grid 41H.In addition, front panel 4H arranges opening and forms the second blow-off outlet grid 42H in the side along the limit of the longitudinal edge of the second blow-off outlet 22B.

The first blow-off outlet 21B of the second blow-off outlet grid 42H and cyclical breathing fan 2B is separated by partition component 24H, and is communicated with the second blow-off outlet 22B, from the side of front panel 4H, to the side blow out air.

Even the dry heat supplier 1H of the bathroom aerating of other variation, by the air that sucks from suction inlet grid 40H and the fast air of wind speed that blows out from the second blow-off outlet grid 42H, also can produce along bathroom one side's metope towards near below, bottom in the bathroom towards the opposing party's metope, along the opposing party's metope towards above Air Flow.

In the dry heat supplier 1H of the bathroom aerating of variation, from the second blow-off outlet grid 42H of the side of front panel 4H to the side blow out air, therefore, can be to the bathroom one side's metope blow out the air of more air quantity.

Thus, can produce flowing of the wind that stirs air in whole bathroom, under the dry operating pattern, even near the thing that is dried that is in the position of the warm braw that blows out from the first blow-off outlet grid 41H being difficult to directly blow, also can produce Air Flow.Therefore, the moisture of the thing that is dried is easy to evaporation, can reduce the dry needed energy of the thing that is dried.

In the dry heat supplier 1H of the bathroom aerating of variation, possess suction inlet grid 40H and the second blow-off outlet grid 42H by the side of plate 4H in front, the opening that can only will expose to the lower surface of the front panel 4H in the bathroom is made as the first blow-off outlet grid 41H, can further improve aesthetic appearance.

as above-mentioned, according to the embodiment of putting down in writing in each accompanying drawing and variation, air-supply arrangement (1A, 1B, 1C, 1D, 1E, 1F) can possess: suction inlet (20A, 20B, 20C, 20D, 20E, 20F), blow out wind path (28A, 28B, 28C, 28D, 28E, 28F), air is sucked and to the air supplying part (2A that blows out wind path and blow out from suction inlet, 2B, 2C, 2D, 2E, 2F), the heating part (5) of the air of heating by blowing out wind path, blow out the first blow-off outlet (21A by the air of heating part, 21B, 21C, 21D, 21E, 21F), blow out than the air wind speed that blows out from the first blow-off outlet fast and during blowing out wind path the second blow-off outlet (22A of the air by the heating part not, 22B, 22C, 22D, 22E, 22F).

According to this structure, by blow out the fast air of wind speed from the second blow-off outlet to indoor prescribed direction, can make the air that blows out from the second blow-off outlet by indoor larger scope, and suck from suction inlet.

as above-mentioned, according to the embodiment of putting down in writing in each accompanying drawing and variation, air-supply arrangement (1A, 1B, 1C, 1D, 1E, 1F) can possess: suction inlet (20A, 20B, 20C, 20D, 20E, 20F), blow out wind path (28A, 28B, 28C, 28D, 28E, 28F), air is sucked and to the air supplying part (2A that blows out wind path and blow out from suction inlet, 2B, 2C, 2D, 2E, 2F), the heating part (5) of the air of heating by blowing out wind path, blow out the first blow-off outlet (21A by the air of heating part, 21B, 21C, 21D, 21E, 21F), be located at the opposition side of suction inlet and blow out the second blow-off outlet (22A that does not pass through the air of heating part in blowing out wind path with respect to the first blow-off outlet, 22B, 22C, 22D, 22E, 22F).

According to this structure, by from the second blow-off outlet of the opposition side of being located at suction inlet with respect to the first blow-off outlet to indoor prescribed direction blow out air, can make the air that blows out from the second blow-off outlet by indoor larger scope, and suck from suction inlet.

as above-mentioned, according to the embodiment of putting down in writing in each accompanying drawing and variation, air-supply arrangement (1A, 1B, 1C, 1D, 1E, IF) can possess: suction inlet (20A, 20B, 20C, 20D, 20E, 20F), blow out wind path (28A, 28B, 28C, 28D, 28E, 28F), air is sucked and to the air supplying part (2A that blows out wind path and blow out from suction inlet, 2B, 2C, 2D, 2E, 2F), the heating part (5) of the air of heating by blowing out wind path, blow out the first blow-off outlet (21A by the air of heating part, 21B, 21C, 21D, 21E, 21F), blow out the second blow-off outlet (22A that does not pass through the air of heating part in blowing out wind path, 22B, 22C, 22D, 22E, 22F).The aperture area of the second blow-off outlet can be less than the aperture area of the first blow-off outlet.

According to this structure, by blowing out the fast air of wind speed from the second less blow-off outlet of aperture area to indoor prescribed direction, can make the air that blows out from the second blow-off outlet by indoor larger scope, and suck from suction inlet.

The embodiment of putting down in writing according to each accompanying drawing and the air-supply arrangement (1A, 1B, 1C, 1D, 1E, 1F) of variation, by blow out the fast air of wind speed from the second blow-off outlet to indoor prescribed direction, can produce flowing of the wind that stirs room air, therefore, even the thing periphery that is dried at the position the air-supply that is in the warm braw that blows out from the first blow-off outlet or air-supply and blow out from the second blow-off outlet is not directly blown, also can produce Air Flow, the moisture of thing of being dried is easy to evaporation, can reduce the dry needed energy of the thing that is dried.

Claims (10)

1. air-supply arrangement possesses:

Suction inlet (20A, 20B, 20C, 20D, 20E, 20F),

Blow out wind path (28A, 28B, 28C, 28D, 28E, 28F),

With air from described suction inlet suck and to described blow out air supplying part (2A, 2B, 2C, 2D, 2E, 2F) that wind path blows out,

Heating by the described heating part (5) that blows out the air of wind path,

Blow out by the air of described heating part the first blow-off outlet (21A, 21B, 21C, 21D, 21E, 21F) and

The second blow-off outlet (22A, 22B, 22C, 22D, 22E, 22F), blow out faster than the air wind speed that blows out from described the first blow-off outlet and described blow out wind path the air by described heating part.

2. air-supply arrangement possesses:

Suction inlet (20A, 20B, 20C, 20D, 20E, 20F),

Blow out wind path (28A, 28B, 28C, 28D, 28E, 28F),

With air from described suction inlet suck and to described blow out air supplying part (2A, 2B, 2C, 2D, 2E, 2F) that wind path blows out,

Heating by the described heating part (5) that blows out the air of wind path,

Blow out by the air of described heating part the first blow-off outlet (21A, 21B, 21C, 21D, 21E, 21F) and

The second blow-off outlet (22A, 22B, 22C, 22D, 22E, 22F) is located at the opposition side of described suction inlet with respect to described the first blow-off outlet, blow out described blow out wind path in the air by described heating part.

3. air-supply arrangement possesses:

Suction inlet (20A, 20B, 20C, 20D, 20E, 20F),

Blow out wind path (28A, 28B, 28C, 28D, 28E, 28F),

With air from described suction inlet suck and to described blow out air supplying part (2A, 2B, 2C, 2D, 2E, 2F) that wind path blows out,

Heating by the described heating part (5) that blows out the air of wind path,

Blow out by the air of described heating part the first blow-off outlet (21A, 21B, 21C, 21D, 21E, 21F) and

Blow out described blow out wind path in second blow-off outlet (22A, 22B, 22C, 22D, 22E, 22F) of the air by described heating part,

The aperture area of described the second blow-off outlet is less than the aperture area of described the first blow-off outlet.

4. air-supply arrangement as described in any one in claim 1～3, wherein,

The air that blows out from described the second blow-off outlet blows out to the opposition side with respect to described suction inlet.

5. air-supply arrangement as described in any one in claim 1～3, wherein,

Also possesses the opening/closing portion (7B, 7C, 7D, 7E, 7F) that opens and closes described the second blow-off outlet.

6. air-supply arrangement as claimed in claim 5, wherein,

Switch the switching of described opening/closing portion according to operation mode.

7. air-supply arrangement as claimed in claim 6, wherein,

Will by the air of described heating part heating as warm braw to indoor blow out or to indoor blow out the air-supply corresponding with room temperature and with indoor air under the operation mode of outdoor exhaust, open described opening/closing portion, from described the first blow-off outlet and described the second blow-off outlet to indoor blow out air

Under the indoor operation mode that blows out warm braw, close described opening/closing portion, from described the first blow-off outlet to indoor blow out air.

8. air-supply arrangement as claimed in claim 6, wherein,

Also possesses wind path opening/closing portion (6B, 6D, 6E, 6F), the air that this wind path opening/closing portion (6B, 6D, 6E, 6F) switching will suck is to the wind path (23B, 23D, 23E, 23F) of the indoor wind path that blows out (21B, 21D, 21E, 21F, 22B, 22D, 22E, 22F) and exhaust outside the room

Will by the air of described heating part heating as warm braw to indoor blow out or to indoor blow out the air-supply corresponding with room temperature and with indoor air under the operation mode of outdoor exhaust, the air that described wind path opening/closing portion (6B, 6D, 6E, 6F) is in will suck blows out and the cyclical breathing position of exhaust outside the room to indoor, (7B, 7D, 7E, 7F) opens described the second blow-off outlet by described opening/closing portion

Under the indoor operation mode that blows out warm braw, the air that described wind path opening/closing portion (6B, 6D, 6E, 6F) is in will suck is to the indoor circulation position that blows out, and (7B, 7D, 7E, 7F) closes described the second blow-off outlet by described opening/closing portion.

9. air-supply arrangement as claimed in claim 8 wherein, possesses:

Drive described wind path opening/closing portion and described opening/closing portion drive division (61B) and

Make the transmission mechanism (62B, 71B) of described wind path opening/closing portion and described opening/closing portion interlock.

10. air-supply arrangement as claimed in claim 6, wherein,

Possess the air that will suck to the indoor circulating fan that blows out (2C) with the scavenger fan (8C) of air exhaust outside the room of sucking,

Will by the air of described heating part heating as warm braw to indoor blow out or to indoor blow out the air-supply corresponding with room temperature and with indoor air under the operation mode of outdoor exhaust, drive described scavenger fan, and open described the second blow-off outlet by described opening/closing portion, drive circulating fan

Under the indoor operation mode that blows out warm braw, scavenger fan stops, and closes described the second blow-off outlet by described opening/closing portion, drives circulating fan.

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