CN201740198U

CN201740198U - Vertical indoor unit and air conditioner with the same

Info

Publication number: CN201740198U
Application number: CN201020220804XU
Authority: CN
Inventors: 大石康弘
Original assignee: Daikin Industries Ltd
Current assignee: Daikin Industries Ltd
Priority date: 2009-07-30
Filing date: 2010-06-03
Publication date: 2011-02-09
Anticipated expiration: 2020-06-03
Also published as: JP2011033218A

Abstract

The utility model provides a vertical indoor unit capable of supplying sufficient humidified air containing moisture when in refrigeration operation. The vertical indoor unit (2) is internally provided with a shell (22), an air supply device (21), a heat exchanger (20) and a humidifying pipeline (50), wherein a suction inlet hole and a blow-out hole are respectively formed at the lower side and the upper side of the front surface of the shell; the air supply device (21) is contained at the lower part in the shell (22); the heat exchanger (20) is arranged in the shell (22) and above the air supply device (21); and the humidifying pipeline (50) is used for supplying humidified air which is introduced into the shell (22) from the outside for the preset part. The humidifying pipeline (50) is positioned between the heat exchanger (20) and the blow-out hole, so that the humidified air is supplied to the downstream side of the heat exchanger.

Description

Vertical indoor set and air conditioner with this vertical indoor set

Technical field

The utility model relates to vertical indoor set and air conditioner, particularly can supply with the vertical indoor set of humidifying air and the air conditioner with this vertical indoor set.

Background technology

As indoor set to indoor supply humidifying air, the indoor set various indoor sets such as (for example with reference to patent documentations 2 and 3) of the humidifying air of proposed to be built-in with the indoor set (for example with reference to patent documentation 1) of humidifying unit, supplying with via pipeline to indoor importing from the humidifying unit of being located at off-premises station.

[patent documentation 1] Japanese kokai publication hei 7-4699 communique

[patent documentation 2] TOHKEMY 2002-98364 communique

[patent documentation 3] TOHKEMY 2008-256275 communique

In above-mentioned patent documentation 1 disclosed indoor set, in indoor set, be built-in with humidifying unit, so, there are the unfavorable conditions such as complex structure of indoor set.Therefore, in the air conditioner of above-mentioned

patent documentation

2 and 3, use pipeline to import humidifying air to indoor set from off-premises station, but, in this structure, the humidifying air that has passed through pipeline blows out from blow-off outlet after by heat exchanger, so, under the situation of indoor supply humidifying air, the moisture in this humidifying air is dewfall by heat exchanger the time when cooling operation.Therefore, when cooling operation, be difficult to fully contain the humidifying air of moisture to indoor supply.

Therefore, the utility model is finished in order to solve above-mentioned problem, and its purpose is, also can supply with the vertical indoor set of the humidifying air that fully contains moisture when being provided at cooling operation.

The utility model content

In order to solve above-mentioned problem, in the vertical chamber of the 1st aspect there be facility: shell, and its downside and upside at front surface is formed with suction inlet and blow-off outlet respectively; Pressure fan, it is accommodated in the bottom in the shell; Heat exchanger, it is located in the shell and is located at the top of pressure fan; And the humidification pipeline, it is disposed between heat exchanger and the blow-off outlet, will import the downstream that inner humidifying air supplies to heat exchanger from the outside of shell.

In this vertical indoor set, humidifying air is supplied with in the downstream of heat exchanger, so, can suppress attachment of moisture in the humidifying air in heat exchanger.Therefore,, also can suppress to seize the situation of the moisture in the humidifying air by heat exchanger even when cooling operation, so, even when cooling operation, also can fully contain the humidifying air of moisture to indoor supply.

And, in this vertical indoor set, can supply with humidifying air in the dead ahead of blow-off outlet, so, compare with the humidifying air situation of circulation everywhere in the enclosure, can suppress moisture dewfall in the enclosure.

In the vertical indoor set of the vertical indoor set of the 2nd aspect aspect the 1st, this vertical indoor set also has front panel, this front panel opens and closes the front surface that is installed on shell freely, the position that the peristome of opening exposed when the humidification pipeline was located at from panel opening in front with respect to shell.

In this vertical indoor set, the maintainability of humidification pipeline improves.

In the vertical indoor set of the vertical indoor set of the 3rd aspect aspect the 2nd, being provided with on the stream of humidification pipeline can be with respect to the filter of humidification pipeline loading and unloading, and filter loads and unloads from peristome.

In this vertical indoor set, the maintainability of the filter of humidification pipeline improves.

In the vertical indoor set of the either side of vertical indoor set aspect the 1st～the 3rd of the 4th aspect, the humidification pipeline is located near the bottom of heat exchanger.

In this vertical indoor set, can the humidification pipeline be set in the position that does not hinder the ventilating path by the air behind the heat exchanger.

In the vertical indoor set of the either side of vertical indoor set aspect the 1st～the 4th of the 5th aspect, below heat exchanger and humidification pipeline, be provided with drain pan.

In this vertical indoor set, can the moisture guiding drain pan of heat exchanger and humidification pipeline will be attached to.

In the vertical indoor set of the vertical indoor set of the 6th aspect aspect the 5th, in the outer peripheral face of humidification pipeline, be provided with jut with the opposed face of heat exchanger.

In this vertical indoor set, the moisture of outer peripheral face that is attached to the humidification pipeline is along this jut drain pan that leads reliably.

In the vertical indoor set of the either side of vertical indoor set aspect the 1st～the 6th of the 7th aspect, this vertical indoor set also has the humidifying air pipe arrangement, this humidifying air will import inner humidifying air with pipe arrangement and be directed to the humidification pipeline from the outside of shell, humidifying air imports with the bottom of pipe arrangement from shell, and, be connected with the humidification pipeline with the top by the side of pressure fan.

In this vertical indoor set, can not hinder the position configuration humidifying air pipe arrangement of air stream in the enclosure.

In the vertical indoor set of the either side of vertical indoor set aspect the 1st～the 7th of the 8th aspect, blow-off outlet separates on the width of shell and is provided with 2.

In this vertical indoor set, can supply with humidifying air to indoor broad range.

In the vertical indoor set of the vertical indoor set of the 9th aspect aspect the 8th, the substantial middle of humidification duct arrangement between 2 blow-off outlets.

In this vertical indoor set,, can send humidifying air equably about width.

In the vertical indoor set of the vertical indoor set of the 10th aspect aspect the 8th or the 9th, the humidification pipeline has the branched pipe of supplying with humidifying air respectively to 2 blow-off outlets.

In this vertical indoor set, can blow out humidifying air from each blow-off outlet.

In the vertical indoor set of the either side of vertical indoor set aspect the 1st～the 10th of the 11st aspect, observe from the side, heat exchanger is with following state configuration: be positioned at the front face side of shell and the mode of the rear side that the upper end is positioned at shell tilts with the lower end, the humidification pipeline forms, and the stream of being located at the inside of this humidification pipeline extends along the incline direction of heat exchanger.

In this vertical indoor set, blow out humidifying air from the humidification pipeline along the incline direction of heat exchanger.

The air conditioner of the 12nd aspect has: above-mentioned each described vertical indoor set; And off-premises station, this off-premises station has humidifying unit from humidifying air to vertical indoor set that supply with.

If constitute like this, then can access the air conditioner that when cooling operation, also can fully contain the humidifying air of moisture to indoor supply.

The utility model effect

As described above, according to the utility model, can access following effect.

In aspect the 1st, humidifying air is supplied with in the downstream of heat exchanger, so, can suppress attachment of moisture in the humidifying air in heat exchanger.Therefore,, also can suppress to seize the situation of the moisture in the humidifying air by heat exchanger even when cooling operation, so, even when cooling operation, also can fully contain the humidifying air of moisture to indoor supply.

And, aspect the 1st in, can supply with humidifying air in the dead ahead of blow-off outlet, so, compare with the humidifying air situation of circulation everywhere in the enclosure, can suppress moisture dewfall in the enclosure.

And, aspect the 2nd in, the maintainability of humidification pipeline improves.

And, aspect the 3rd in, the maintainability of the filter of humidification pipeline improves.

And, aspect the 4th in, can the humidification pipeline be set in the position that does not hinder the ventilating path by the air behind the heat exchanger.

And, aspect the 5th in, can will be attached to the moisture guiding drain pan of heat exchanger and humidification pipeline.

And, aspect the 6th in, the moisture of outer peripheral face that is attached to the humidification pipeline is along this jut drain pan that leads reliably.

And, aspect the 7th in, can not hinder the position configuration humidifying air pipe arrangement of air stream in the enclosure.

And, aspect the 8th in, can supply with humidifying air to indoor broad range.

And, aspect the 9th in, about width, can send humidifying air equably.

And, aspect the 10th in, can blow out humidifying air from each blow-off outlet.

And, aspect the 11st in, blow out humidifying air along the incline direction of heat exchanger from the humidification pipeline.

And, aspect the 12nd in, can access the air conditioner that when cooling operation, also can fully contain the humidifying air of moisture to indoor supply.

Description of drawings

Fig. 1 is the refrigerant piping figure of air conditioner with vertical indoor set of an embodiment of the present utility model.

Fig. 2 is the integrally-built stereogram that the vertical indoor set of air conditioner is shown.

Fig. 3 is the in-built side view that vertical indoor set is shown.

Fig. 4 illustrates the in-built side view that the downside panel is in the vertical indoor set of open mode.

Fig. 5 is the stereogram that the humidification pipeline is shown.

Fig. 6 is the stereogram that the humidification pipeline is shown.

Fig. 7 is near the enlarged drawing of peristome of downside panel.

Fig. 8 is the front view that is used to illustrate that the pipe arrangement of the humidification flexible pipe of vertical indoor set is arranged.

Fig. 9 is a stereogram of observing upper panel from the inside side.

Figure 10 illustrates the horizontal profile schematic diagram that soft-touch control is installed on the state of upper panel.

Figure 11 is the stereogram of soft-touch control.

Figure 12 is a stereogram of observing soft-touch control from rear side.

Label declaration

1: air conditioner; 2: vertical indoor set; 3: off-premises station; 5: humidification flexible pipe (humidifying air pipe arrangement); 20: indoor heat converter (heat exchanger); 21: indoor fan (pressure fan); 22: shell; 25: downside panel (front panel); 28: drain pan; 50: the humidification pipeline; 52: humidification filter (filter); 54A, 54B: branched pipe; 56: jut; A: suction inlet; B: blow-off outlet; C: peristome.

The specific embodiment

Below, explanation has the embodiment of the air conditioner of vertical indoor set of the present utility model with reference to the accompanying drawings.

The overall structure of＜air conditioner 〉

As shown in Figure 1, the air conditioner 1 of present embodiment has: the connecting pipings 4 that is arranged at indoor indoor set 2, is arranged at outdoor off-premises station 3 and connects indoor set 2 and off-premises station 3.And then, be accommodated in the indoor set 2 and off-premises station 3 interior equipment, valve class and connecting pipings 4 are connected and constitute refrigerant loop.Refrigerant loop mainly is made of indoor heat converter 20, outdoor heat converter 30, compressor 31 and electric expansion valve 32.When cooling operation, from the high-temperature high-pressure refrigerant inflow outdoor heat exchanger 30 of compressor 31 discharges.Then, after condensed refrigerant is depressurized in electric expansion valve 32 in outdoor heat converter (condenser) 30, inflow indoor heat exchanger 20.Then, the cold-producing medium that evaporates in indoor heat converter (evaporimeter) 20 returns the suction side of compressor 31.Like this, indoor heat converter 20 ambient airs are cooled, to indoor supply cold wind.And, when heating running, from the high-temperature high-pressure refrigerant inflow indoor heat exchanger 20 of compressor 31 discharges.Then, after condensed refrigerant is depressurized in electric expansion valve 32 in indoor heat converter (condenser) 20, inflow outdoor heat exchanger 30.Then, the cold-producing medium that evaporates in outdoor heat converter (evaporimeter) 30 returns the suction side of compressor 31.Like this, indoor heat converter 20 ambient airs are heated, to indoor supply warm braw.

＜off-premises station 〉

Off-premises station 3 has: above-mentioned outdoor heat converter 30; The cold-producing medium that is sucked is carried out compressor for compressing 31; The electric expansion valve 32 that is connected with outdoor heat converter 30; Be attached to the outdoor fan (propeller type fan) 33 of outdoor heat converter 30; The gas receiver (accumulator) 34 that is connected with the suction side of compressor 31; And No. four transfer valves 35 that are connected with the discharge side of compressor 31.And, in off-premises station 3, be provided with the liquid draught excluder 36 and the gas draught excluder 37 that are connected with connecting pipings 4.And, in the off-premises station 3 of present embodiment, be equipped with humidifying unit 38.Humidification flexible pipe 5 and the described later humidification pipeline 50 of humidifying air by being connected with humidifying unit 38 of supplying with from this humidifying unit 38 blows out from the blow-off outlet B (with reference to Fig. 2) of indoor set 2.This humidifying unit 38 can adopt following various humidifying unit: adsorption moisture and generate the humidifying unit of humidifying air by the moisture of this sorbing material absorption from outdoor air such as the sorbing material that uses zeolite etc.; Use running water etc. are generated the humidifying unit of humidifying air etc. by the water of giving the water unit supply.

＜indoor set (vertical indoor set) 〉

As shown in Figures 2 and 3, the indoor set 2 of an embodiment of the present utility model is the vertical indoor set of mounting in ground, mainly has: above-mentioned indoor heat converter 20; Be attached to the indoor fan 21 of indoor heat converter 20; Take in the shell 22 of indoor heat converter 20 and indoor fan 21 etc.; Predetermined position in shell 22 blows out from the humidification pipeline 50 of the humidifying air of humidifying unit 38 supplies of above-mentioned off-premises station 3; And soft-touch control 60.

＜shell 〉

As shown in Figure 2, the face shaping of shell 22 is the box shape of short transverse (Z direction) lengthwise, the upper panel 26 that has the downside panel 25 of the front surface downside that is disposed at indoor set 2 and be disposed at the front surface upside.In addition, this downside panel 25 and upper panel 26 all are the transparent resin panels with photopermeability.

Downside panel 25 comprises front face 25a and the side surface part 25b that extends to rear side from the both ends of the width (directions X) of indoor set 2, is formed with cancellate suction inlet A in this side surface part 25b respectively.As shown in Figure 3 and Figure 4, downside panel 25 opens and closes freely and installs, and constitutes lower end with downside panel 25 as the axle center, and the upper end is rotated.When the running of air conditioner 1, (with reference to Fig. 3) uses downside panel 25 down in off position, when safeguarding etc., uses downside panel 25 down in open mode (with reference to Fig. 4).Here, when downside panel 25 was open mode, the gap that forms between the lower end of the upper end of downside panel 25 and upper panel was as peristome C (with reference to Fig. 4 and Fig. 7).

As shown in Figure 2, upper panel 26 comprises front face 26a and the side surface part 26b that extends to rear side from the both ends of the width (directions X) of front face 26a.The both ends of the width of the 26a of portion are formed with blow-off outlet B in front, and wind direction change baffle plate 27 is installed on this blow-off outlet B respectively in the mode that can open and close.

＜indoor fan 〉

As shown in Figure 3, indoor fan 21 is centrifugal fans, and (indoor heat converter 20 sides) send the room air that sucks from the suction inlet A of the lower side of being located at shell 22 upward.This indoor fan 21 is disposed at the bottom in the shell 22.

＜indoor heat converter 〉

As shown in Figure 3 and Figure 4, indoor heat converter 20 is located in the shell 22 and is located at the top of above-mentioned indoor fan 21.Observe from the side, this indoor heat converter 20 is with following state configuration: be positioned at the front face side of shell 22 and mode that the upper end is positioned at the rear side of shell 22 tilt (D direction) with the lower end.Like this, configuration indoor heat converter 20 under the state that tilts, thus, the flow path width of sending upward from indoor fan 21 that air passed through is along with narrowing down gradually towards the top.In the lower end of indoor heat converter 20,, be provided with the drain pan 28 that is undertaken on the draining of dewfall in the indoor heat converter 20 along width (directions X).

＜humidification pipeline 〉

Here, in the present embodiment, be provided with humidification pipeline 50 between indoor heat converter 20 and blow-off outlet B, this humidification pipeline 50 will import the downstream that inner humidifying air supplies to indoor heat converter 20 from the outside of shell 22.As shown in Figure 7, from the viewpoint of maintainability, the humidification pipeline 50 of present embodiment is installed on the position of exposing from the peristome C of opening when downside panel 25 is open mode.In the vertical indoor set 2 of this lengthwise,, be difficult at the inside of indoor heat converter 20 side (upstream side) configuration humidification pipeline 50 according to the viewpoint of maintainability etc.As patent documentation 1, under the situation of the inside side (upstream side) that humidification pipeline (humidifier) is disposed at indoor heat converter 20, the maintainability variation of this humidification pipeline not only, and the moisture in the humidifying air is in the back side of shell 22 dewfall, so, the anti-stop elements of dewfall such as heat-insulating material must be set at the back side of shell 22.So, be disadvantageous at aspects such as the densification of vertical indoor set and cost degradations.

And in the present embodiment, humidification pipeline 50 is located near the bottom of indoor heat converter 20, so that humidification pipeline 50 can not become the barrier of the air from indoor heat converter 20 to blow-off outlet B.And humidification pipeline 50 is disposed at 2 substantial middle (with reference to Fig. 8) between the blow-off outlet B on width (directions X).As shown in Figure 5 and Figure 6, this humidification pipeline 50 has: the connector 51 that is connected with humidification flexible pipe 5; The dust that capture is comprised from the humidifying air that connector 51 imports and the humidification filter 52 of dust; Main part 53, humidification filter 52 is located at this main part 53 in the mode that can load and unload; And from the branched pipe 54A and the 54B of main part 53 branches.

Connector 51 is connected with humidification flexible pipe 5 to width (directions X) opening of indoor set 2 in the mode of extending at width (directions X).

Main part 53 is located at the downstream of connector 51, by the internal flow path of the humidifying air behind the connector 51 by main part 53.The humidifying air that broad ways in connector 51 (directions X) is advanced short transverse (Z direction) along indoor set 2 in this main part 53 is advanced.Outer peripheral face in forward faceplate panels 25,26 sides of this main part 53 is equipped with humidification filter 52 in the mode that can load and unload.This humidification filter 52 is disposed on the internal flow path of main part 53, captures dust and the dust that is comprised in the humidifying air in the inside of this main part 53.As shown in Figure 7, above-mentioned peristome C is positioned on the extended line of loading and unloading direction (P direction) of humidification filter 52, and the operator is from this peristome C loading and unloading humidification filter 52.And, as shown in Figure 5 and Figure 6, spread all over complete cycle at the outer peripheral face of main part 53 and be provided with rib 55.And, in the present embodiment, in the outer peripheral face of main part 53, be provided with jut 56 with indoor heat converter 20 opposed faces.Be located at the drain pan 28 of indoor heat converter 20 and humidification pipeline 50 belows for the water droplet that makes the outer peripheral face that is attached to humidification pipeline 50 drips, and this jut 56 is set.

Branched pipe

54A and 54B are located at the downstream of main part 53, by the internal flow path R (with reference to Fig. 7) of the humidifying air behind main part 53 inside by branched pipe 54A and 54B.This branched

pipe

54A and 54B tilt with respect to aforementioned body portion 53 respectively, and to the direction extension roughly the same with the incline direction (D direction) of indoor heat converter 20.That is, form the stream R that is located at

branched pipe

54A and 54B inside and extend, advance along indoor heat converter 20 respectively from the humidifying air that this branched

pipe

54A and 54B blow out along the incline direction (D direction) of indoor heat converter 20.

Branched pipe

54A and 54B and at the blow-off outlet B of width (directions X) configured separate accordingly are in width (directions X) configuration side by side.Thus, supply with humidifying air to 2 blow-off outlet B respectively from

branched pipe

54A and 54B.

＜humidification flexible pipe 〉

In order to import to humidification pipeline 50, and humidification flexible pipe 5 is set from the humidifying air that off-premises station 3 (humidifying unit 38) is supplied with.As shown in Figure 8, this humidification flexible pipe 5 imports from the bottom of shell 22, vertically extend in the side of indoor fan 21, and along continuous straight runs extends above indoor fan 21, and is connected with the connector 51 of humidification pipeline 50.That is, from top view, humidification flexible pipe 5 is arranged to avoid indoor fan 21, is configured to can not hinder the air stream that forms by indoor fan 21.In addition, here, from the bottom importing humidification flexible pipe 5 of shell 22, still, the detailed importing position of humidification flexible pipe 5 can be the refrigerant piping opening E (with reference to Fig. 2) that is formed at the side of shell 22, also can be the back side of shell 22.

＜soft-touch control 〉

For the operation of switching of displaying contents such as the switching of the switching of the operation mode that carries out air conditioner 1, air quantity, temperature demonstration etc., and soft-touch control 60 is set.As shown in Figure 9, this soft-touch control 60 is installed on the inside that the transparent resin panel is a upper panel 26, can't see soft-touch control 60 from the outside, has guaranteed the appearance design of indoor set 2.In addition, the operator can carry out above-mentioned various switching by the surface of contact upper panel 26.This soft-touch control 60 mainly has (the 7 セグ portion) 62 of 7 sections portions of resin enclosure 61, displays temperature etc. and the touch sensor 63 of electrostatic capacity type.

As shown in figure 11, taken in 7 sections portions 62 in the substantial middle of resin enclosure 61, and, touch sensor 63 below these 7 sections portions, taken in.As shown in figure 10, this resin enclosure 61 is fixed in the inside of upper panel 26 by Screw 64.And touch sensor 63 presses on the inside of upper panel 26 by the leaf spring 65 (with reference to Figure 10 and Figure 12) that is disposed at its back side.7 sections portions 62 have monochromatic led light source (not shown), can show 2 bit digital (with reference to Figure 11).Touch sensor 63 is by FPC (Flexible Printed Circuits: flexible printed circuit board) constitute, the material of its base material is PET transparent resins such as (PETs), tin indium oxide) and the electrode that is formed at base material is ITO (Indium Tin Oxide: transparency electrode such as.Like this, the FPC that utilization can bend constitutes touch sensor 63, thus, can reduce to have the upper panel 26 of two-dimentional curved surface and the gap between the touch sensor 63.And then, utilize above-mentioned leaf spring 65 that touch sensor 63 is pressed on upper panel 26, thus, can further reduce this gap.Thus, can suppress to damage the situation of the detection sensitivity of touch sensor 63.

And, in the present embodiment, be provided with multi-colored led light source (not shown) at the back side of touch sensor 63.Thus, be that transparent resin and electrode are the touch sensor 63 of the photopermeability of transparency electrode via base material, can show versicolor light in upper panel 26.Particularly, the operating condition of air conditioner 1 shows " indigo plant " during for cooling operation, shows when heating running " red ", shows during the humidification running " orange ", shows during ventilation/air-supply running " in vain ", and demonstration " green " when turning round dehumidifies.

[air conditioner of present embodiment and the feature of vertical indoor set]

The air conditioner 1 and the vertical indoor set 2 of present embodiment have following feature.

In the vertical indoor set 2 of present embodiment, humidification pipeline 50 is set, this humidification pipeline 50 is supplied with from the outside of shell 22 to the downstream of indoor heat converter 20 and is imported inner humidifying air, thus, humidifying air is supplied with in downstream to indoor heat converter 20, so, can suppress attachment of moisture in the humidifying air in indoor heat converter 20.Therefore,, also can suppress to seize the situation of the moisture in the humidifying air by indoor heat converter 20 even when cooling operation, so, even when cooling operation, also can fully contain the humidifying air of moisture to indoor supply.And, can supply with humidifying air in the dead ahead of blow-off outlet B, so, compare with the situation of circulation everywhere of humidifying air in shell 22, can suppress the situation of moisture dewfall in shell 22.

And in the vertical indoor set 2 of present embodiment, humidification pipeline 50 is located at the position of exposing from the peristome C of opening when downside panel 25 is opened with respect to shell 22, so the maintainability of humidification pipeline 50 improves.

And in the vertical indoor set 2 of present embodiment, peristome C is positioned on the extended line of loading and unloading direction (P direction) of humidification filter 52, can be from this peristome C loading and unloading humidification filter 52, so the maintainability of humidification filter 52 improves.

And in the vertical indoor set 2 of present embodiment, humidification pipeline 50 is located near the bottom of indoor heat converter 20, so this humidification pipeline 50 can not hinder the ventilating path by the air behind the indoor heat converter 20.

And, in the vertical indoor set 2 of present embodiment, below indoor heat converter 20 and humidification pipeline 50, be provided with drain pan 28, so, can will be attached to the moisture guiding drain pan 28 of indoor heat converter 20 and humidification pipeline 50.

And, in the vertical indoor set 2 of present embodiment, with 20 opposed of indoor heat converters jut 56 is set in the outer peripheral face of humidification pipeline 50, thus, the moisture of outer peripheral face that is attached to humidification pipeline 50 is along this jut 56 drain pan 28 that leads reliably.

And in the vertical indoor set 2 of present embodiment, humidification flexible pipe 5 imports from the bottom of shell 22, and, side by indoor fan 21 is connected with humidification pipeline 50 with the top, thus, and the location arrangements humidification flexible pipe 5 that does not hinder air stream that can be in shell 22.

And, in the vertical indoor set 2 of present embodiment, be arranged on 2 blow-off outlet B of width (directions X) separation of shell 22, thus, can supply with humidifying air to indoor broad range.

And, in the vertical indoor set 2 of present embodiment, humidification pipeline 50 is disposed at 2 substantial middle between the blow-off outlet B, thus,, can send humidifying air equably about width (directions X).

And, in the vertical indoor set 2 of present embodiment, branched pipe 54A and the 54B that supplies with humidifying air respectively to 2 blow-off outlet B is set at humidification pipeline 50, thus, can blow out humidifying air from each blow-off outlet B.

And, in the vertical indoor set 2 of present embodiment, be positioned at the front face side of shell 22 and the mode that the upper end is positioned at the rear side of shell 22 with the lower end, configuration indoor heat converter 20 under heeling condition, the mode of extending along the incline direction (D direction) of indoor heat converter 20 with the stream R that is located at humidification pipeline 50 inside, form humidification pipeline 50 (branched

pipe

54A, 54B), thus, blow out humidifying air from humidification pipeline 50 along the incline direction (D direction) of indoor heat converter 20.

More than, embodiment of the present utility model has been described with reference to the accompanying drawings, still, should think that concrete structure is not limited to these embodiments.Scope of the present utility model is not only illustrated by the explanation of above-mentioned embodiment, also illustrates by claims, and then, comprise and the meaning of claims equalization and all changes in the scope.

For example, in the above-described embodiment, illustrated humidification pipeline 50 has been located near the bottom of indoor heat converter 20 example, but, the allocation position of this humidification pipeline 50 so long as between indoor heat converter 20 and the blow-off outlet B, can supply with the position that imports inner humidifying air from the outside of shell 22 to the downstream of indoor heat converter 20, then be not limited near the bottom of above-mentioned indoor heat converter 20.For example, also humidification pipeline 50 can be disposed near the upper end of indoor heat converter 20.

[utilizability on the industry]

If utilize the utility model, then can access the vertical indoor set that when cooling operation, also can supply with the humidifying air that fully contains moisture.

Claims

1. a vertical indoor set is characterized in that, in this vertical chamber there is facility:

Shell, its downside and upside at front surface is formed with suction inlet and blow-off outlet respectively;

Pressure fan, it is accommodated in the bottom in the described shell;

Heat exchanger, it is located in the described shell and is located at the top of described pressure fan; And

The humidification pipeline, it is disposed between described heat exchanger and the described blow-off outlet, will import the downstream that inner humidifying air supplies to described heat exchanger from the outside of described shell.

2. vertical indoor set according to claim 1 is characterized in that,

This vertical indoor set also has front panel, and this front panel opens and closes the front surface that is installed on described shell freely,

Described humidification pipeline is located at the position of exposing from the peristome of opening when described front panel is opened with respect to described shell.

3. vertical indoor set according to claim 2 is characterized in that,

Being provided with on the stream of described humidification pipeline can be with respect to the filter of described humidification pipeline loading and unloading,

Described filter loads and unloads from described peristome.

4. vertical indoor set according to claim 1 is characterized in that,

Described humidification pipeline is located near the bottom of described heat exchanger.

5. vertical indoor set according to claim 1 is characterized in that,

Below described heat exchanger and described humidification pipeline, be provided with drain pan.

6. vertical indoor set according to claim 5 is characterized in that,

In the outer peripheral face of described humidification pipeline, be provided with jut with the opposed face of described heat exchanger.

7. according to each the described vertical indoor set in the claim 1～6, it is characterized in that,

This vertical indoor set also has the humidifying air pipe arrangement, and this humidifying air will import inner humidifying air with pipe arrangement and be directed to described humidification pipeline from the outside of described shell,

Described humidifying air imports from the bottom of described shell with pipe arrangement, and the side by described pressure fan is connected with described humidification pipeline with the top.

8. according to each the described vertical indoor set in the claim 1～6, it is characterized in that,

Described blow-off outlet separates on the width of described shell and is provided with 2.

9. vertical indoor set according to claim 8 is characterized in that,

The substantial middle of described humidification duct arrangement between described 2 blow-off outlets.

10. vertical indoor set according to claim 8 is characterized in that,

Described humidification pipeline has the branched pipe of supplying with described humidifying air respectively to described 2 blow-off outlets.

11. each the described vertical indoor set according in the claim 1～6 is characterized in that,

Observe from the side, described heat exchanger is with following state configuration: be positioned at the front face side of described shell and the mode of the rear side that the upper end is positioned at described shell tilts with the lower end,

Described humidification pipeline forms, and the stream of being located at the inside of this humidification pipeline extends along the incline direction of described heat exchanger.

12. an air conditioner is characterized in that, this air conditioner has:

The described vertical indoor set of in the claim 1～11 each; And

Off-premises station, this off-premises station have humidifying unit from described humidifying air to described vertical indoor set that supply with.