CN105908462A - Blowing device - Google Patents

Abstract

The present invention provides a blowing device, and provides a bathroom ventilation drying warmer capable of opening and closing outlets in a simple structure and blowing out enough air from each outlet. The bathroom ventilation drying warmer comprises: a circulation ventilation fan with intaking air from a circulation ventilation inlet to blow out air; a first blowing output to blow air into the bathroom; a second blowing outlet arranged at the opposite side of the circulation ventilation inlet relative to the first blowing outlet and configured to pass the air through; a ventilation blowing outlet configured to pass through the air blowing externally; and a wind path switching shield for opening and closing the first blowing outlet, the second blowing outlet and the ventilation blowing outlet by means of the rotation motion taking a shaft as a fulcrum, wherein the wind path switching shield is separated for a distance at upper stream closer to the air flow direction than the branches of the first blowing outlet and the second blowing outlet.

Description

Air-supply arrangement

Technical field

The present invention relates to be arranged at bathroom etc. and air-supply or hot blast are filled to the air-supply of indoor blowout Put.

Background technology

In the past, it is proposed that be arranged at the ceiling in bathroom etc. and by hot blast or the air corresponding with room temperature Produce by boasting to indoor realize indoor heating, be in indoor dried object the function such as be dried Air-supply arrangement.Such air-supply arrangement has indoor air ventilation of aerofluxus outside room more Function, is referred to as bathroom aerating and is dried heat supplier.

Bathroom aerating is dried heat supplier and possesses the blow-off outlet of air at the lower surface of header board, and so that Blow-off outlet is arranged at the ceiling in bathroom towards the mode in bathroom.It is dried heat supplier at bathroom aerating In, it is proposed that possess the operation mode that dried object such as making the medicated clothing being in bathroom is dried, and And the bathroom aerating blowing out hot blast from blow-off outlet the most unevenly be dried heat supplier (for example, referring to Patent documentation 1).

The bathroom aerating recorded at patent documentation 1 is dried in heat supplier, it is proposed that following technology: At blow-off outlet, possess the wind path by heater at the position that wind speed is slow, and fast at wind speed Position possess not by the wind path of heater, do not had by the blow-off outlet of the wind path of heater Standby wind direction guide, make the air quantity of the fast wind path of wind speed in blow-off outlet uniformly.

[citation]

[patent documentation]

No. 4052216 publication of [patent documentation 1] Japan's patent

[inventing problem to be solved]

It is dried in heat supplier at conventional bathroom aerating, possesses owing to switching with the presence or absence of ventilation Wind path and be referred to as the wind path switching member of windscreen, to the opening and closing of indoor blow-off outlet with to outside The opening and closing of blow-off outlet carried out by wind path switching member.

In patent documentation 1, carried out the opening and closing of blow-off outlet by windscreen, but pass through heater Wind path cannot opening and closing independently by the wind path of heater with.Although also contemplating for making wind direction Guide movable and to not carrying out the structure of opening and closing by the wind path of heater, but can cause and Parts count increase cost increase together, the decline of assembleability, also become work bad Will be because of.

Summary of the invention

The present invention is to solve that such problem is made, its object is to provide the one can be with Simple structure carries out the opening and closing of multiple blow-off outlet and from the sky of each blow-off outlet blowout sufficiently amount The air-supply arrangement of gas.

[for solving the scheme of problem]

In order to solve above-mentioned problem, the present invention relates to a kind of air-supply arrangement, it is characterised in that Possess: suck the air supplying part of blow out air；For passed through to the air of indoor blowout by air supplying part First blow-off outlet；For the second blow-off outlet passed through to the air of this indoor blowout by air supplying part；Supply The ventilation blow-off outlet that the air blown out to outside by air supplying part passes through；And by with axle as fulcrum Spinning movement and the first blow-off outlet and the second blow-off outlet and ventilation blow-off outlet are carried out the wind path of opening and closing Opening/closing portion, wind path opening/closing portion is leaning on air than the branch of the first blow-off outlet and the second blow-off outlet Axle is possessed at the upstream side of flow direction.

In the present invention, when opening the second blow-off outlet, from first blow-off outlet blowout air and From the air of the second blow-off outlet blowout, the surface current along the same side of wind path opening/closing portion moves.Thus, Become relative to the air capacity from the first blow-off outlet blowout from the air capacity of the second blow-off outlet blowout Sufficiently amount.

[invention effect]

In the present invention, it is possible to from second blow-off outlet blow out an adequate amount of air, hence with from Indoor air is stirred by the air of the second blow-off outlet blowout, from the first blow-off outlet blowout The position the most directly flowed of air can make the flowing of air.

Accompanying drawing explanation

Fig. 1 is the structure chart of the example representing that the bathroom aerating of present embodiment is dried heat supplier.

Fig. 2 is the structure chart of the example representing that the bathroom aerating of present embodiment is dried heat supplier.

Fig. 3 is the structure chart of the example representing that the bathroom aerating of present embodiment is dried heat supplier.

Fig. 4 is to represent the structure arranging example that the bathroom aerating of present embodiment is dried heat supplier Figure.

Fig. 5 is to represent the wind path switching windscreen that the bathroom aerating of present embodiment is dried heat supplier The explanatory diagram of action.

Fig. 6 is to represent the wind path switching windscreen that the bathroom aerating of present embodiment is dried heat supplier The explanatory diagram of action.

Fig. 7 is to represent the wind path switching windscreen that the bathroom aerating of present embodiment is dried heat supplier The explanatory diagram of action.

Fig. 8 is to represent the air that the bathroom aerating of present embodiment is dried in the bathroom of heat supplier The explanatory diagram of flowing.

Fig. 9 is the structure chart of the variation of the wind path switching windscreen representing present embodiment.

[label declaration]

1A bathroom aerating is dried heat supplier, 2A cyclical breathing fan, 20A circulating picture-changing Aspiration entrance, 21A the first blow-off outlet, 22A the second blow-off outlet, 23A takes a breath blowout Mouthful, 24 wind paths switching windscreens, 4A header board, 40A suction inlet grid, 41A the One blow-off outlet grid, 42A the second blow-off outlet grid, 5 heaters, 52A branch, 6A wind path switching windscreen, 60A axle, 61A main air road switching part, 62A pair wind path Switching part, 63A adverse current preventing portion, 100 bathrooms, 101 ceiling floors, 103 baths, At 104 showers, 105 clothes airing-tubes, 106a, 106b wall

Detailed description of the invention

Hereinafter, referring to the drawings, illustrate that the bathroom aerating of the air-supply arrangement as the present invention is dried confession The embodiment of warming-up.

The structure example of heat supplier<bathroom aerating of present embodiment be dried>

Fig. 1～Fig. 3 is the structure of the example representing that the bathroom aerating of present embodiment is dried heat supplier Figure, Fig. 1 is the side view of the internal structure representing that bathroom aerating is dried heat supplier, Fig. 2 be from The top view that following side is observed.And, Fig. 3 is the top view of the state being provided with header board. Additionally, Fig. 4 is to represent the structure arranging example that the bathroom aerating of present embodiment is dried heat supplier Figure.

The bathroom aerating of present embodiment is dried if the summary of heat supplier 1A illustrates, bath Room ventilation is dried the main part 3A with cyclical breathing fan 2A of heat supplier 1A so that header board The mode that 4A exposes is installed on the ceiling in bathroom 100.

Bathroom aerating is dried heat supplier 1A to be possessed: utilize suction, the cyclical breathing wind of blow out air Fan 2A sucks the cyclical breathing suction inlet 20A of the air in bathroom 100；There is heater 5, By drive heater 5 and by hot blast blow out and will be with bath by the non-driven of heater 5 First blow-off outlet 21A of the air-supply blowout that room temperature in room 100 is corresponding；And blowout is to bathroom 100 Second blow-off outlet 22A of the air-supply that interior air is stirred.

And, bathroom aerating is dried heat supplier 1A to be possessed and cyclical breathing fan 2A will be utilized from following The air that ring ventilation suction inlet 20A sucks is to the ventilation blow-off outlet 23A of outdoor discharge.Additionally, Bathroom aerating be dried heat supplier 1A possess the first blow-off outlet 21A and the second blow-off outlet 22A with The wind path switching windscreen 6A of wind path is switched between ventilation blow-off outlet 23A.

Bathroom aerating is dried heat supplier 1A and the action of wind path switching windscreen 6A ought be utilized to blow first When outlet 21A and the second blow-off outlet 22A opens, at the wind path switching windscreen 6A of the shape of bending Place, utilizes the face becoming concave inner side to be formed and the first blow-off outlet 21A and the second blow-off outlet The wind path of 22A connection.

Thus, the air in bathroom 100 is stirred required from the second blow-off outlet 22A blowout An adequate amount of air-supply, even if the most directly contacting at the hot blast from the first blow-off outlet 21A blowout Position, it is also possible to produce the flowing of air.

Therefore, in bathroom aerating is dried heat supplier 1A, utilize moving of wind path switching windscreen 6A Make to open the first blow-off outlet 21A and the second blow-off outlet 22A, blow out hot blast to bathroom 100, And take a breath in bathroom 100 and carry out under the operation mode being dried of medicated clothing etc., clothing The moisture of thing easily evaporates, and that can reduce medicated clothing etc. is dried required energy.

Hereinafter, when the details that bathroom aerating is dried heat supplier 1A are described, cyclical breathing fan 2A For an example of air supplying part, possess mutliblade impeller 25A, the cyclical breathing of driving impeller 25A Fan motor 26A, the cyclical breathing blower-casting 27A of formation wind path.Impeller 25A is by circulating Scavenger fan motor 26A drives and rotates, and thus produces to outer peripheral side to centrifugal direction from inner side The flowing of the air of blowout.

Cyclical breathing blower-casting 27A with by the circular position of the periphery along impeller 25A with Along the shape of part combination of the tangential direction of impeller 25A, to the centrifugal side of impeller 25A Air to blowout carries out rectification, produces the air of the tangential direction blowout along impeller 25A Flowing.

Cyclical breathing fan 2A is dried heat supplier 1A at bathroom aerating and is arranged at setting as regulation Under the state of the ceiling putting the bathroom at position, with the rotary shaft of impeller 25A towards along up and down The configuration in direction is constituted.

Thus, cyclical breathing fan 2A forms blowout wind by cyclical breathing blower-casting 27A Road 28A, described blowout wind path 28A suck from below by the rotary shaft along impeller 25A Air blows out to the tangential direction of impeller 25A.

Cyclical breathing fan 2A possesses suction sky at the lower surface of cyclical breathing blower-casting 27A The cyclical breathing suction inlet 20A of gas.And, cyclical breathing fan 2A is at cyclical breathing fan hub The lower surface of body 27A possess the driving due to heater 5 heated Air blowing or The of the Air blowing that non-driven due to heater 5 is corresponding with the temperature in bathroom 100 One blow-off outlet 21A.

Additionally, cyclical breathing fan 2A possesses at the lower surface of cyclical breathing blower-casting 27A The blowout the second blow-off outlet 22A to the air being stirred in bathroom 100.And, circulating picture-changing Gas fan 2A possesses the ventilation to outdoor blow out air in the side of cyclical breathing blower-casting 27A Blow-off outlet 23A.

Cyclical breathing suction inlet 20A arranges in the lower section of the rotary shaft along impeller 25A and is referred to as The opening of belled circle and constitute.First blow-off outlet 21A is in the following table of blowout wind path 28A Face is arranged with the limit of the blow-off direction of the air along cyclical breathing blower-casting 27A as minor face Rectangular opening and constitute.

Second blow-off outlet 22A is at the lower surface of blowout wind path 28A, relative to the first blow-off outlet 21A and the opposition side of cyclical breathing suction inlet 20A arrange with along cyclical breathing blower-casting The limit of the blow-off direction of the air of 27A is that the rectangular opening of minor face is constituted.

The blowout wind path 28A being made up of cyclical breathing blower-casting 27A is arranging the first blow-off outlet The position of 21A and the second blow-off outlet 22A broadens, at the position arranging ventilation blow-off outlet 23A Place narrows.First blow-off outlet 21A and the second blow-off outlet 22A with along cyclical breathing fan hub The long limit of the limit intersection of the blow-off direction of the air of body 27A and the length of the width of main part 3A Degree is consistent.

First blow-off outlet 21A and the second blow-off outlet 22A is by cyclical breathing blower-casting 27A's The wind path that lower surface is arranged forms framework 50A and constitutes.First blow-off outlet 21A and the second blow-off outlet The partition member 51A that 22A is arranged by the inner side forming framework 50A at wind path separates, thus shape Become from the heating Air blowing wind path that passed through of air of the first blow-off outlet 21A blowout with from second The stirring Air blowing wind path that the air of blow-off outlet 22A blowout is passed through.

Wind path switching windscreen 6A is an example of wind path opening/closing portion, is passed not shown windscreen motor Driving force, with axle 60A for fulcrum rotate, carry out the first blow-off outlet 21A and the second blow-off outlet 22A, the on-off action of ventilation blow-off outlet 23A.

Wind path switching windscreen 6A than the first blow-off outlet 21A being made up of partition member 51A and The branch 52A of the second blow-off outlet 22A, by the upstream side of the flow direction of air, is provided with from dividing Branch 52A vacates the distance of regulation and carries out the axle 60A of on-off action based on rotation.

The position of the upstream side of the flow direction leaning on air than axle 60A of wind path switching windscreen 6A By the spinning movement with axle 60A as fulcrum, to the first blow-off outlet 21A and ventilation blow-off outlet 23A carries out the direction displacement of opening and closing.And, wind path switching windscreen 6A leans on air than axle 60A The position in downstream of flow direction by spinning movement with axle 60A as fulcrum, to the Two blow-off outlet 22A carry out the direction displacement of opening and closing.

Thus, wind path switching windscreen 6A from axle 60A to the upstream side of the flow direction of air The position extended, constitutes and mainly switches between the first blow-off outlet 21A and ventilation blow-off outlet 23A Wind path and exchange the main air road switching part 61A that switches over of aperture of air-blowing outlet 23A.And And, wind path switching windscreen 6A is extending relative to the flow direction downstream side of air from axle 60A Position constitute secondary wind path switching part 62A, this pair wind path switching part 62A and mainly blow out second Mouthful 22A carries out opening and closing, and the aperture according to wind path switching windscreen 6A and shape at the face of inner side Become to the wind path of the first blow-off outlet 21A, to the first blow-off outlet 21A's and the second blow-off outlet 22A Wind path, forms the wind path to ventilation blow-off outlet 23A at the face in outside.Additionally, wind path switching Windscreen 6A is provided with adverse current preventing portion 63A in the front of secondary wind path switching part 62A, and this adverse current is anti- Stop 63A extends along the direction of the spinning movement with axle 60A as fulcrum and blows relative to ventilation Outlet 23A and by inaccessible for the second blow-off outlet 22A.

In bathroom aerating is dried heat supplier 1A, it is set in the position that wind path is switched windscreen 6A During the circulation position shown in solid of the i.e. Fig. 1 of primary importance, than axle 60A by the flowing side of air To upstream side main air road switching part 61A in, become the end of a side of wind path switching windscreen 6A The front end of the main air road switching part 61A in portion and the interior table of the upside of cyclical breathing blower-casting 27A Face connects.

And, the secondary wind path switching part 62A in the downstream of the flow direction of air is depended on than axle 60A In, become the front end of the secondary wind path switching part 62A of the end of the opposing party of wind path switching windscreen 6A Connect with branch 52A.Additionally, adverse current preventing portion 63A is relative to ventilation blow-off outlet 23A Second blow-off outlet 22A is inaccessible.Thus, the first blow-off outlet 21A opens, the second blow-off outlet 22A Close with ventilation blow-off outlet 23A, thus formed from cyclical breathing suction inlet 20A to the first blowout The circulation wind path of mouth 21A connection.

When the position of wind path switching windscreen 6A becomes circulation position, main air road switching part 61A Front end near become the direction of inner surface along cyclical breathing blower-casting 27A.Thus, Even if wind path switching windscreen 6A becomes the state slightly opened from circulation position, air is also difficult to lead to Cross, can ensure that air-tightness.

It should be noted that wind path switches windscreen 6A and cyclical breathing blower-casting 27A or divides Branch 52A connects and is not only the state being close to, as long as guarantee what a certain amount of air can pass through Certain bubble-tight state.

When the position that wind path switches windscreen 6A is set to circulation position, by so existing Between end and the cyclical breathing blower-casting 27A of main air road switching part 61A and secondary wind path is cut Change the gap that regulation is set between portion 62A and cyclical breathing blower-casting 27A, wind path can be suppressed Windscreen 6A and cyclical breathing blower-casting 27A is due to the steam comprised in air or balneation in switching The composition that agent etc. comprise etc. and there is the situation of set.

In bathroom aerating is dried heat supplier 1A, make the position of wind path switching windscreen 6A from circulation Position becomes as following shown in the dotted line of Fig. 1 of the second position using axle 60A for fulcrum rotates During ring venti-lating position, in downward direction move by the main air road switching part 61A of upstream side than axle 60A, One end of wind path switching windscreen 6A is positioned near the centre of blowout wind path 28A.

And, divide to from branch 52A than the secondary wind path switching part 62A of axle 60A downstream From upper direction move.Thus, the first blow-off outlet 21A and the second blow-off outlet 22A and ventilation are blown Outlet these both sides of 23A open, and form circulation wind path and from cyclical breathing suction inlet 20A to ventilation These both sides of ventilation wind path of blow-off outlet 23A connection.

In bathroom aerating is dried heat supplier 1A, make the position of wind path switching windscreen 6A from circulation Venti-lating position rotates with axle 60A for fulcrum, when the single-point of the Fig. 1 become as the 3rd position is drawn During venti-lating position shown in line, than axle 60A by upstream side main air road switching part 61A downwards To movement, one end of wind path switching windscreen 6A is interior with the downside of cyclical breathing blower-casting 27A Surface connects.And, move than the secondary wind path switching part 62A upward direction of axle 60A downstream Dynamic, the other end of wind path switching windscreen 6A is at the downside of ventilation blow-off outlet 23A and cyclical breathing wind The inner surface of fan case body 27A connects.Thus, ventilation blow-off outlet 23A opens, the first blow-off outlet 21A and the second blow-off outlet 22A closes and forms ventilation wind path.

Even if when the position making wind path switch windscreen 6A is venti-lating position, by leading Between end and the cyclical breathing blower-casting 27A of wind path switching part 61A and the switching of secondary wind path Arrange between portion 62A and cyclical breathing blower-casting 27A and guarantee certain bubble-tight regulation Gap, also can suppress wind path switching windscreen 6A and cyclical breathing blower-casting 27A due in air The composition that the steam comprised or balneation agent etc. comprise etc. and there is the situation of set.

Thus, in bathroom aerating is dried heat supplier 1A, utilize 1 cyclical breathing fan 2A, Carry out the air sucking in bathroom 100, the action that the air sucked is blown out in bathroom 100, By the air sucked to the action of outdoor discharge, by the part of air that sucks to bathroom 100 Interior blowout and by remainder to the action of outdoor discharge.

And, in bathroom aerating is dried heat supplier 1A, utilize 1 wind path switching windscreen 6A Carry out the first blow-off outlet 21A and the second blow-off outlet 22A, the on-off action of ventilation blow-off outlet 23A.

Wind path switching windscreen 6A is than the first blow-off outlet 21A and the branch of the second blow-off outlet 22A Portion 52A, therefore follows being in by arranging axle 60A at upstream side relative to the flow direction of air Ring venti-lating position wind path switching windscreen 6A in, from first blow-off outlet 21A blowout air along Flow towards the first blow-off outlet 21A and the face of the inner side of the second blow-off outlet 22A.And, from The air of the second blow-off outlet 22A blowout is along towards the first blow-off outlet 21A and the second blow-off outlet The face of the inner side of 22A and flow.

Therefore, wind path switches windscreen 6A in cyclical breathing position towards the first blow-off outlet 21A And second the mask of blow-off outlet 22A bend to concave shape, with will be by blowout wind path 28A Air guide to the first blow-off outlet 21A and the second blow-off outlet 22A.

And, wind path switching windscreen 6A make from second blow-off outlet 22A blowout air along Not flowing in the face of side, therefore the face in outside need not for by the sky by blowing out wind path 28A The rectification element that gas guides to the second blow-off outlet 22A.

Thus, switch in windscreen 6A at the wind path being in cyclical breathing position or venti-lating position, There is not constriction on the face in outside and hinder air to the ventilation wind path of ventilation blow-off outlet 23A connection Flowing as component, it can be ensured that the ventilation air quantity of regulation.

Additionally, wind path switching windscreen 6A is leaning at upstream side than branch 52A and is blowing in ventilation It is provided with axle 60A near the height of the lower end of outlet 23A.Thus, windscreen 6A is switched at wind path When being in cyclical breathing position and venti-lating position, to the wind path connected with ventilation blow-off outlet 23A The overhang of wind path switching windscreen 6A reduces, it is possible to reduce the wind connected with ventilation blow-off outlet 23A Aeration resistance at road.

Heater 5 is an example of heating part, is made up of ptc heater in this example, be located at from The heating Air blowing wind path that the air of the first blow-off outlet 21A blowout is passed through.When heater 5 When being driven and be energized, owing to heater 5 is heated by the air of the first blow-off outlet 21A Heated, blow out hot blast from the first blow-off outlet 21A.

First blow-off outlet 21A and the second blow-off outlet 22A is separated by partition member 51A, from second The air of blow-off outlet 22A blowout is not by heater 5.It should be noted that in this example, As heating part, to be illustrated by as a example by electrically driven heater 5 but it also may be The heaters such as heat exchanger based on hot water.

Main part 3A possesses main body housing 30A constituting cyclical breathing blower-casting 27A and covers The metal shell 31A of lid main body housing 30A.Main body housing 30A is made up of resin material, by Metal shell 31A cover cyclical breathing blower-casting 27A with from the lower end of main part 3A The flange part 32A that periphery highlights laterally is integrally formed.

Main body housing 30A installs lower cover 33A at the lower surface exposed from metal shell 31A.Follow Ring scavenger fan 2A is provided with cyclical breathing suction inlet 20A and the first blow-off outlet 21A in lower cover 33A And the second blow-off outlet 22A, in lower cover 33A, wind path is installed and forms framework 50A.

The ventilation blow-off outlet 23A of metal shell 31A and cyclical breathing fan 2A is oppositely disposed Opening, is provided with the exhaust passage joint 34A connected with the blow-off outlet 23A that takes a breath in side.

Bathroom aerating is dried heat supplier 1A and installs header board 4A at the lower surface of main part 3A.Before Plate 4A makes the lower surface opening relative with the cyclical breathing suction inlet 20A of cyclical breathing fan 2A And form suction inlet grid 40A.

And, header board 4A make relative with the first blow-off outlet 21A of cyclical breathing fan 2A under Surface opening and form the first blow-off outlet grid 41A, and make relative with the second blow-off outlet 22A Lower surface opening and form the second blow-off outlet grid 42A.

First blow-off outlet grid 41A is by the direction i.e. width on the one side along main part 3A The longer rectangular opening of length constitute.And, the second blow-off outlet grid 42A and first Blow-off outlet grid 41A is same, by along main part 3A the direction i.e. length of width Spend longer rectangular opening to constitute.

First blow-off outlet grid 41A arranges rectification in the way of alongst blow out air Plate.Second blow-off outlet grid 42A with along with the first width side arranged side by side for blow-off outlet grid 41A To and the outside blow out air of main part 3A of opposition side towards the first blow-off outlet grid 41A Mode arranges cowling panel 43A.

<bathroom aerating of present embodiment be dried heat supplier example is set>

It follows that with reference to each figure, illustrate that the bathroom aerating of present embodiment is dried heat supplier 1A's Example is set.

As shown in Figure 4, bathroom aerating is dried heat supplier 1A and is arranged at the ceiling floor in bathroom 100 101.Ceiling floor 101 in bathroom 100 is formed with the master that bathroom aerating is dried heat supplier 1A Body 3A carries out the peristome installed, and bathroom aerating is dried heat supplier 1A such as with flange part 32A The mode being fixed in ceiling the stiffener arranged by not shown screw is installed on ceiling Plate 101.

Further, bathroom aerating is dried heat supplier 1A and installs header board at the lower surface of main part 3A The suction inlet grid 40A of 4A, header board 4A and the first blow-off outlet grid 41A and the second blow-off outlet Grid 42A is interior towards bathroom 100 and configures.

The bathroom aerating that ceiling floor 101 in bathroom 100 is arranged is dried heat supplier 1A at main part The exhaust passage joint 34A of 3A installs exhaust passage 102.Exhaust passage 102 with bath is being set Outside the room installed on the outer wall of the not shown building of room 100, grid 102a connects, and bathroom changes Air dry dry heat supplier 1A is connected with outside room via exhaust passage 102.

Bathroom 100 possesses at bath 103 and shower 104.Bath 103 usually rectangle, At bath 103 and shower, 104 arrange along the width of bath 103.

Bathroom 100 possesses the clothes airing-tube 105 as dry in the sun component on the top of bath 103.Dry in the air Clothing pipe 105 extends along the length direction of bath 103, is arranged on the relative wall in bathroom 100 Between face 106a, 106b.

It should be noted that the radical being arranged at the clothes airing-tube 105 in bathroom 100 is 1 or 2 About root, in this example, it is shown that be configured with the example of 1 clothes airing-tube 105.And, dry in the sun As long as component can make the dried object such as washings be dried, it is not limited to the component of tubulose, Can also be banding, it is also possible to be other component.

Bathroom aerating is dried heat supplier 1A with the first blow-off outlet grid 41A and the second blow-off outlet lattice The length direction of grid 42A be oriented orthogonal with the length direction of clothes airing-tube 105 towards side Formula is arranged on the top of bath 103.

Thus, in bathroom aerating is dried heat supplier 1A, blow from the first blow-off outlet grid 41A The air gone out mainly extends up in the side orthogonal with clothes airing-tube 105.In contrast, from second The air of blow-off outlet grid 42A blowout is towards the bath of the side arranging the second blow-off outlet grid 42A The wall 106a of room 100.

The action example of heat supplier<bathroom aerating of present embodiment be dried>

Fig. 5～Fig. 7 is to represent the wind path switching wind that the bathroom aerating of present embodiment is dried heat supplier The explanatory diagram of the action of gear, Fig. 8 is that the bathroom aerating representing present embodiment is dried heat supplier The explanatory diagram of the flowing of the air in bathroom, it follows that with reference to each figure, illustrate present embodiment Bathroom aerating be dried the action example of heat supplier 1A.

Bathroom aerating is dried heat supplier 1A under dry operating pattern, and wind path switches windscreen 6A Be formed as the cyclical breathing position shown in Fig. 6, cyclical breathing fan motor 26A is driven And make impeller 25A rotate, and it is energized to heater 5.

In bathroom aerating is dried heat supplier 1A, when impeller 25A rotates, from header board 4A's Air in bathroom 100 is sucked by suction inlet grid 40A to cyclical breathing suction inlet 20A.

Under dry operating pattern, wind path switching windscreen 6A is in cyclical breathing position, therefore exists In blowout wind path 28A, formed from cyclical breathing suction inlet 20A to the first blow-off outlet 21A and the Two blow-off outlet 22A connection circulation wind path and from cyclical breathing suction inlet 20A to ventilation blowout These both sides of ventilation wind path of mouth 23A connection.

Thus, the bathroom 100 sucked from cyclical breathing suction inlet 20A owing to impeller 25A rotates A part of air RA flow to the first blow-off outlet 21A and the second blow-off outlet 22A.And, The remainder of the air from the bathroom 100 that cyclical breathing suction inlet 20A sucks is to ventilation blowout Mouthful 23A flowing, by exhaust passage 102 as aerofluxus EA from room grid 102a to room Outer aerofluxus.

Under dry operating pattern, the air flowing to the first blow-off outlet 21A is heated by heater 5, Thus blow out hot blast HA from the first blow-off outlet grid 41A of header board 4A.Flow to the second blow-off outlet The air of 22A by heater 5, does not therefore blow from the second blow-off outlet grid 42A of header board 4A Go out the air A corresponding with room temperature.

In bathroom aerating is dried heat supplier 1A, from the sky of the first blow-off outlet grid 41A blowout Gas extends up in length direction and the side orthogonal with clothes airing-tube 105 of clothes airing-tube 105.

But, bathroom aerating is dried the heat supplier 1A length side by the first blow-off outlet grid 41A To being configured to the direction orthogonal with clothes airing-tube 105, therefore from the first blow-off outlet grid 41A blowout Air mainly extend up in the side orthogonal with clothes airing-tube 105.

Therefore, hot blast width on the whole be hung on the first blow-off outlet grid 41A's The dried object contacts such as the medicated clothing on clothes airing-tube 105 near immediately below.In contrast, from The hot blast of one blow-off outlet grid 41A blowout is difficult to directly and is hung on from the first blow-off outlet grid Dried object contact on the clothes airing-tube 105 of the position of the separation immediately below of 41A.

In bathroom aerating is dried heat supplier 1A, from the sky of the second blow-off outlet grid 42A blowout Gas A utilizes cowling panel 43A, blows towards arranging second relative to the first blow-off outlet grid 41A The wall 106a in the bathroom 100 of the side of outlet grid 42A.

Thus, as shown in Fig. 8 (a), blow from the second blow-off outlet grid 42A under drying mode The air A gone out touches with the wall 106a of a side in bathroom 100, as indicated by arrow a 1 along Wall 106a flows downwards.The air such as arrow A2 institute flowed downwards along wall 106a Showing, near the lower floor in bathroom 100, the wall 106b mainly towards the opposing party flows.

In bathroom aerating is dried heat supplier 1A, utilize the sky sucked from suction inlet grid 40A Gas RA and produce in bathroom 100 and make the flowing that air circulates, therefore in the lower floor in bathroom 100 The air that the neighbouring wall 106b towards the opposing party flows is as shown with arrow a 3 along wall 106b Flow upward, suck from suction inlet grid 40A.

So, in bathroom aerating is dried heat supplier 1A, utilize from the second blow-off outlet grid 42A The air of blowout, it is possible to produce the wall 106a of the side along bathroom 100 downward, Towards the wall 106b of the opposing party near the lower floor in bathroom 100, along the wall 106b of the opposing party The flowing of air upward.

It is dried the first blow-off outlet grid of heat supplier 1A from bathroom aerating under dry operating pattern Due to the hot blast that heated by heater 5, relative humidity declines the air of 41A blowout, therefore than Light from the air of the second blow-off outlet grid 42A blowout.

Therefore, than from first blow-off outlet grid 41A blowout air weight from the second blow-off outlet lattice The air of grid 42A blowout flows to the lower floor in bathroom 100, and the entirety in bathroom 100 can Produce the flowing of the wind that air is stirred.

Thus, even if being difficult to directly to touch at the hot blast from the first blow-off outlet grid 41A blowout The clothes airing-tube 105 of the position being hung on separation immediately below from the first blow-off outlet grid 41A Near dried object, it is also possible to produce the flowing of air.

Being located in branch 52A and possessing the knot of the second blow-off outlet 22A at wind path switching windscreen In structure, from the air of the first blow-off outlet 21A blowout along the surface current of the inner side of wind path switching windscreen Dynamic, from the air of the second blow-off outlet 22A blowout, the surface current along the outside of wind path switching windscreen moves. In such a configuration, an adequate amount of air is blown out from the first blow-off outlet 21A.On the other hand, Owing to the flowing of the air from the second blow-off outlet 22A blowout is carried out rectification, therefore cut at wind path Need possess rectification element on the face in the outside changing windscreen.

But, even if possessing rectification element, also cannot blow out sufficiently from the second blow-off outlet 22A The air of amount.And, when wind path switching windscreen is in cyclical breathing position, aerofluxus wind path contracts Narrow, it is impossible to guarantee air quantity of taking a breath.

And, at the first blow-off outlet 21A and the second blow-off outlet 22A wind by independent part Road switching windscreen carries out in the structure of opening and closing, it is possible to configure windscreen in the position that can ensure that air quantity, But can cause with parts count increase cost increase together, the decline of assembleability, also become For work is bad will be because of.

In contrast, wind path switching windscreen 6A is at the flow direction leaning on air than branch 52A The position of upstream side vacate the distance of regulation from branch 52A and be provided with axle 60A.Thus, Switch in windscreen 6A at the wind path being in cyclical breathing position, by the first blow-off outlet 21A from The air of the first blow-off outlet grid 41A blowout is along the surface current of the inner side of wind path switching windscreen 6A Dynamic.

And, switch in windscreen 6A at the wind path being in cyclical breathing position, from axle 60A to The end of the secondary wind path switching part 62A that branch 52A side extends is in and separates from branch 52A Position, therefore the second blow-off outlet 22A opens.Thus, by the second blow-off outlet 22A from The air of the second blow-off outlet grid 42A blowout is also along the surface current of the inner side of wind path switching windscreen 6A Dynamic.

Therefore, the air in bathroom 100 is stirred required an adequate amount of air from second Blow-off outlet grid 42A blows out, and is utilizing the air stirring from the second blow-off outlet grid 42A blowout Bathroom 100 in air flowing in, it is possible to make from first blow-off outlet grid 41A blowout An adequate amount of hot blast HA circulates in bathroom 100.

Thus, the moisture of dried object easily evaporates, if the output of heater 5 is as in the past, Then can shorten drying time, it is possible to that reduces dried object is dried required energy.And, If drying time is as in the past, then the output of heater 5 can be made to decline, remain able to fall The dry required energy of low dried object.And, a part for the air in bathroom 100 to Aerofluxus outside room and take a breath, therefore, it is possible to dampness etc. is discharged and promotes being dried of dried object.

Additionally, switch in windscreen 6A at the wind path being in cyclical breathing position, if in the face in outside On do not exist constriction to ventilation blow-off outlet 23A connection ventilation wind path and hinder air flowing that The component of sample, does not the most utilize cyclical breathing fan 2A to make the rotating speed of cyclical breathing fan motor 26A Increase and be able to ensure that the ventilation air quantity of regulation.

Thereby, it is possible to prevent the sound that the rotating speed increase making cyclical breathing fan motor 26A causes Increase and consume electric power increase.

In this example, illustrate the example that clothes airing-tube 105 is 1, but even if arranging 2 In the bathroom of root clothes airing-tube 105, the dried object hung on the arbitrary position of each clothes airing-tube Periphery also be able to produce the flowing of air, therefore, it is possible to it is required to reduce being dried of dried object Energy.

Additionally, under dry operating pattern, illustrate the driving along with cyclical breathing fan 2A Start and drive heater 5 and initially blow out the example of hot blast from operating, but can also be in fortune Turn and initially make heater 5 blow out the air-supply corresponding with room temperature for non-driven, through regulation After time, heater 5 is driven to blow out hot blast.Even if the fortune driving delay at heater 5 In Zhuaning, the moisture of dried object the most easily evaporates, it is possible to reduce being dried of dried object required Energy.

Bathroom aerating is dried heat supplier 1A under cyclical breathing operation mode, and wind path is switched windscreen 6A is formed as the cyclical breathing position shown in Fig. 6, and making heater 5 is non-driven, to circulating picture-changing Gas fan motor 26A is driven and makes impeller 25A rotate.Here, in above-mentioned dry fortune Under rotary-die type and cyclical breathing operation mode, in order to make arranging outside room of cyclical breathing operation mode The air quantity of gas air quantity of i.e. taking a breath increases, it is also possible to the aperture that wind path switches windscreen 6A is changed to change The position that the aperture of air-blowing outlet 23A broadens.

In bathroom aerating is dried heat supplier 1A, by the rotation of impeller 25A, from header board 4A Suction inlet grid 40A the air in bathroom 100 is drawn into cyclical breathing suction inlet 20A.

Under cyclical breathing operation mode, wind path switching windscreen 6A is in cyclical breathing position, because of A part for the air in this bathroom 100 sucked from cyclical breathing suction inlet 20A is to the first blowout Mouth 21A and the second blow-off outlet 22A flowing.And, suck from cyclical breathing suction inlet 20A The remainder of the air in bathroom 100 is to ventilation blow-off outlet 23A flowing, aerofluxus outside room.

Under cyclical breathing operation mode, flow to the air of the first blow-off outlet 21A due to heater 5 is non-driven, therefore corresponding with room temperature from the first blow-off outlet grid 41A blowout of header board 4A Air CA.The air flowing to the second blow-off outlet 22A does not passes through heater 5, therefore from header board 4A The second blow-off outlet grid 42A blowout air A corresponding with room temperature.

In bathroom aerating is dried heat supplier 1A, as shown in Fig. 8 (b), even if at circulating picture-changing Under fate rotary-die type, utilize the air from the second blow-off outlet grid 42A blowout, it is also possible to produce Along bathroom 100 a side wall 106a downward, court near the lower floor in bathroom 100 To the wall 106b of the opposing party, along the flowing of the wall 106b air upward of the opposing party.

Thus, even if under cyclical breathing operation mode, the entirety in bathroom 100 also is able to Produce the flowing of the wind that air is stirred, in bathroom 100, even if from the first blow-off outlet The air of grid 41A blowout is difficult to the position directly touched, it is also possible to produce the flowing of air.

Therefore, it is possible to shorten the drying time of each wall in bathroom 100, bottom surface etc..And, A part for air in bathroom 100 outside room aerofluxus and take a breath, therefore dampness etc. is arranged Go out, it is possible to promote being dried of each wall in bathroom 100, bottom surface etc..

As utilizing bathroom aerating to be dried other the operation mode that heat supplier 1A performs, in heating Under operation mode, wind path is switched windscreen 6A and is formed as the circulation position shown in Fig. 5, to heating Device 5 is energized, and drives cyclical breathing fan motor 26A to make impeller 25A rotate.

In bathroom aerating is dried heat supplier 1A, by the rotation of impeller 25A, from header board 4A Suction inlet grid 40A the air in bathroom 100 is drawn into cyclical breathing suction inlet 20A.

Under warming operation pattern, wind path switching windscreen 6A is in circulation position, therefore from circulation The substantially total amount of the air in the bathroom 100 that ventilation suction inlet 20A sucks is to the first blow-off outlet 21A Flowing.Under warming operation pattern, flow to the air of the first blow-off outlet 21A by by heater 5 heat, thus blow out hot blast from the first blow-off outlet grid 41A of header board 4A.

Under warming operation pattern, wind path switching windscreen 6A is in circulation position, therefore bathroom Air in 100 is not taken a breath.Thus, under warming operation pattern, from the first blow-off outlet grid 41A blows out the air circulation in hot blast, and bathroom 100, in thus enabling that bathroom 100 Temperature rise to be suitable for the temperature of balneation.

And, when wind path switching windscreen 6A is in circulation position, except ventilation blow-off outlet 23A Outside, the second blow-off outlet 22A is also blocked for, and will not blown by the air of heater 5 Go out.Thus, even the warming operation pattern performed in balneation, do not heated by heater 5 Air also will not blow out, and bather does not feels as cold.

Additionally, when wind path switching windscreen 6A is in circulation position, relative to ventilation blow-off outlet 23A and the second blow-off outlet 22A are inaccessible by adverse current preventing portion 63A, therefore, it is possible to prevent outside gas Body adverse current in bathroom 100.

Under ventilation operation mode, wind path is switched windscreen 6A and is formed as the ventilation position shown in Fig. 7 Put, make heater 5 for non-driven, drive cyclical breathing fan motor 26A to make impeller 25A Rotate.

In bathroom aerating is dried heat supplier 1A, owing to impeller 25A rotates from header board 4A's Air in bathroom 100 is drawn into cyclical breathing suction inlet 20A by suction inlet grid 40A.

Under ventilation operation mode, wind path switching windscreen 6A is in venti-lating position, and therefore first blows Outlet 21A and the second blow-off outlet 22A is blocked for, the bath sucked from cyclical breathing suction inlet 20A The substantially total amount of the air of room 100 is to ventilation blow-off outlet 23A flowing, aerofluxus outside room.Therefore, Under ventilation operation mode, the steam in bathroom 100 or dampness are discharged and are suppressed condensation etc., Mould generation can be suppressed.

In the present embodiment, wind path switching windscreen 6A is leaning on the stream of air than branch 52A The upstream side in dynamic direction separates the distance of regulation from branch 52A and arranges axle 60A, at axle 60A Upstream side main air road switching part 61A is set, secondary wind path switching part 62A is set in downstream.

Thus, in the wind path with axle 60a as fulcrum switches the spinning movement of windscreen 6A, according to Operation mode, it is possible to the first blow-off outlet 21A is opened and by the second blow-off outlet 22A with change by switching State that air-blowing outlet 23A closes, by the first blow-off outlet 21A and the second blow-off outlet 22A with change State that air-blowing outlet 23A opens, the first blow-off outlet 21A and the second blow-off outlet 22A are closed And by the ventilation state opened of blow-off outlet 23A.

It should be noted that in the present embodiment, main air road switching part 61A and secondary wind are used The structure that road switching part 62A is integrated is illustrated but it also may is not one but passes through The structure that each part is integrally forming and moves integratedly by multiple part combination.

Therefore, there is no need to main air road switching part 61A and secondary wind path switching part 62A opening and closing independently Structure, it is achieved cost that the reduction of parts count causes reduces, the raising of assembleability, it is possible to Cut down work bad will be because of.

<bathroom aerating of present embodiment is dried the variation of heat supplier>

Fig. 9 is the structure chart of the variation of the wind path switching windscreen representing present embodiment.Fig. 9 A the wind path switching windscreen 6B shown in () possesses: become the axle 60B of the fulcrum of spinning movement； Extend to the upstream side from axle 60B, in the first shown blow-off outlet 21A such as Fig. 1 and ventilation blowout Wind path, and the main air road that the aperture exchanging air-blowing outlet 23A switches over is switched between mouth 23A Switching part 61B.

And, wind path switching windscreen 6B possesses from the extension of axle 60B downstream side and to blow-off outlet 22A carries out the secondary wind path switching part 62B of opening and closing.Secondary wind path switching part 62B double as into relative to Ventilation blow-off outlet 23A is by adverse current preventing portion inaccessible for the second blow-off outlet 22A.

Wind path switching windscreen 6C shown in Fig. 9 (b) possesses: become the fulcrum of spinning movement Axle 60C；Extend to the upstream side from axle 60C, the first blow-off outlet 21A shown in Fig. 1 etc. with Switch wind path between ventilation blow-off outlet 23A, and the aperture exchanging air-blowing outlet 23A is cut The main air road switching part 61C changed.

And, wind path switching windscreen 6C possesses from the extension of axle 60C downstream side and to blow-off outlet 22A carries out the secondary wind path switching part 62C of opening and closing.Additionally, wind path switching windscreen 6C cuts at wind path From secondary wind path switching part 62C branch at the face in the outside changing windscreen 6C, double as relative to ventilation Blow-off outlet 23A is by adverse current preventing portion 63C inaccessible for the second blow-off outlet 22A.Wind is switched at wind path In gear 6C, countercurrently preventing portion 63C is not prominent from the face in the outside of wind path switching windscreen 6C Mode, switches in windscreen 6C at the wind path being in cyclical breathing position or venti-lating position, it is possible to fall The resistance of the low air dynamic along the surface current in the outside of wind path switching windscreen 6C.

As the air-supply arrangement of the present invention, can be at the first blow-off outlet and the second blow-off outlet the most not Possesses the structure of heater.Furthermore, it is possible to the direction of ventilation blow-off outlet is not provided at along following The sidepiece in the direction of the blow-off direction of the air of ring scavenger fan housing 27A, and be provided at empty The sidepiece in the direction that the blow-off direction of gas is substantially orthogonal.In addition it is also possible to be to possess cyclical breathing The device of fan is connected via passage with the device possessed to each blow-off outlet of indoor blow out air Structure, will be provided with the structure that connects from the device of indoor suction inlet via passage.

[industrial applicibility]

The present invention be applied to bathroom etc. carry out dried object be dried space in arrange give Wind apparatus.

Claims (10)

1. an air-supply arrangement, it is characterised in that possess:

Suck the air supplying part of blow out air；

For the first blow-off outlet passed through to the air of indoor blowout by described air supplying part；

For the second blow-off outlet passed through to the air of this indoor blowout by described air supplying part；

The ventilation blow-off outlet passed through for the air blown out to outside by described air supplying part；And

By the spinning movement with axle as fulcrum to described first blow-off outlet and described second blowout Mouth and described ventilation blow-off outlet carry out the wind path opening/closing portion of opening and closing,

Described wind path opening/closing portion is at the branch than described first blow-off outlet Yu described second blow-off outlet By possessing described axle at the upstream side of the flow direction of air.

Air-supply arrangement the most according to claim 1, it is characterised in that

Described wind path opening/closing portion possesses the flow direction relative to air and from described axle towards upstream Main air road switching part that side extends and the secondary wind path switching part that extends towards downstream from described axle,

In described wind path opening/closing portion, by the spinning movement with described axle as fulcrum, described main air Road switching part carries out opening and closing to described ventilation blow-off outlet, and described secondary wind path switching part is to described second Blow-off outlet carries out opening and closing.

3. according to the air-supply arrangement described in claim 1 or claim 2, it is characterised in that

Described wind path opening/closing portion, by the spinning movement with described axle as fulcrum, moves to described First blow-off outlet open and described second blow-off outlet and described ventilation blow-off outlet are closed first Put, described first blow-off outlet and described second blow-off outlet and described ventilation blow-off outlet are opened Two positions, by described first blow-off outlet and described second blow-off outlet close and by described ventilation blowout The 3rd position that mouth is opened.

4. according to the air-supply arrangement described in claim 1 or claim 2, it is characterised in that

Become at described wind path opening/closing portion and described first blow-off outlet and described second blow-off outlet are opened Position time, from described first blow-off outlet blowout air and from described second blow-off outlet blowout Air moves along the surface current of the same side of described wind path opening/closing portion.

5. according to the air-supply arrangement described in claim 1 or claim 2, it is characterised in that

Described air-supply arrangement possesses the suction inlet of the air utilized in described air supplying part suction chamber,

Described second blow-off outlet is arranged at the phase of described suction inlet relative to described first blow-off outlet Toss about.

Air-supply arrangement the most according to claim 5, it is characterised in that

Become at described wind path opening/closing portion and described first blow-off outlet and described second blow-off outlet are opened Position time, from described second blow-off outlet blowout air relative to described first blow-off outlet to The opposition side blowout of described suction inlet.

Air-supply arrangement the most according to claim 6, it is characterised in that

The heating part that the air to blowout heats is possessed at described first blow-off outlet.

Air-supply arrangement the most according to claim 2, it is characterised in that

Described main air road switching part and described secondary wind path switching part form as one.

Air-supply arrangement the most according to claim 8, it is characterised in that

Described secondary wind path switching part possesses between described ventilation blow-off outlet and described second blow-off outlet Inaccessible adverse current preventing portion.

10. according to the air-supply arrangement described in claim 1 or claim 2, it is characterised in that

Described air-supply arrangement is arranged at bathroom.