CN1898503A

CN1898503A - Floor mounted air conditioner

Info

Publication number: CN1898503A
Application number: CNA2005800013320A
Authority: CN
Inventors: 今中俊行; 原口和哉; 长谷川隆
Original assignee: Daikin Industries Ltd
Current assignee: Daikin Industries Ltd
Priority date: 2004-08-25
Filing date: 2005-08-15
Publication date: 2007-01-17
Anticipated expiration: 2025-08-15
Also published as: CN100455941C; JP2006064219A; KR100825617B1; JP3812576B2; KR20060061384A; WO2006022159A1

Abstract

The invention provides a floor mounted air conditioner (1) capable of selecting a variety of air flows, comprising a casing (4), a plurality of first horizontal flaps (80), a first flap control mechanism (21), and a second flap control mechanism (22). A first outlet (12) blowing out a conditioned air is formed in the casing (4). The plurality of first horizontal flaps (80) are installed at the first outlet (12) parallel with each other in the vertical direction (D2) and guide the air blowing out from the first outlet (12). The first flap control mechanism (21) can control the direction of the plurality of first horizontal flaps (80) belonging to the first horizontal flap group (G1) among the plurality of first horizontal flaps (80). The second flap control mechanism (22) can control the direction of the plurality of first horizontal flaps (80) belonging to the second horizontal flap group (G2) among the plurality of first horizontal flaps (80) independently of the first horizontal flap group (G1).

Description

Floot type air conditioner

Technical field

The present invention relates to a kind of Floot type air conditioner.

Background technology

The air through overregulating to indoor discharge with the air conditioner of regulating room air in, a kind of so-called Floot type air conditioner is arranged.This Floot type air conditioner is a kind of air conditioner that is arranged on the type on the indoor floor, and it has the shell that is provided with exhaust outlet.In each exhaust outlet, be provided with a plurality of baffle plates that on vertical direction, are arranged side by side, the air that these baffle directs are discharged from exhaust outlet.This Floot type air conditioner, though can change by the direction that changes a plurality of baffle plates from the direction of the air of exhaust outlet discharge, yet, in Floot type air conditioner in the past, be arranged to make a plurality of baffle plates that are arranged side by side in the exhaust outlet mobile structure that all links together, changing under the situation of baffle plate direction with manual or automatic mode, the direction of all baffle plates all becomes same direction (referring to patent documentation 1) without exception.

Patent documentation 1: TOHKEMY 2003-343871 communique, Fig. 5

In Floot type air conditioner as described above, changing from the wind of the air of exhaust outlet discharge

To situation under, select the free degree of wind direction lower.Though, and wish to select multiple air-flow in order to produce comfortable air conditioner surroundings as the user,, difficultly under the low situation of the free degree of selecting wind direction realize multiple air-flow.

Summary of the invention

Problem of the present invention is to provide a kind of Floot type air conditioner that can select multiple air-flow.

The Floot type air conditioner of a first aspect of the present invention has shell, a plurality of first baffle plate, the first baffle plate governor motion and second baffle governor motion.On shell, be provided with first exhaust outlet that the air through overregulating is discharged.A plurality of first baffle plates are being arranged side by side on the vertical direction in first exhaust outlet, and guiding is from the air of first exhaust outlet discharge.The first baffle plate governor motion is the mechanism that can regulate the direction of a plurality of first baffle plates that belong to first baffle group in a plurality of first baffle plates.The second baffle governor motion is to be independent of the mechanism of the adjusting of first baffle group to the direction of a plurality of first baffle plates that belong to the second baffle group in a plurality of first baffle plates.

In this Floot type air conditioner, a plurality of first baffle plates are divided into first baffle group and these two baffle group of second baffle group at least, and can regulate the direction of each baffle group by the first baffle plate governor motion and second baffle governor motion.Therefore, for example, by making the baffle group that is positioned at upside, and make the baffle group that is positioned at downside, just can realize being included in upper and lower and flow to the air of encirclement towards the below towards the top.In addition, by making these two baffle group of first baffle group and second baffle group all towards equidirectional, the baffle group that perhaps makes upside is towards the below, and the baffle group that makes downside makes in the air adfluxion, just the place that air-flow is reach out to distances towards the top.Like this, just can select multiple air stream with this Floot type air conditioner.

A second aspect of the present invention, in the Floot type air conditioner of a first aspect of the present invention, first exhaust outlet is shape long on vertical direction.

In this Floot type air conditioner,, therefore on vertical direction, can produce the bigger air stream of width because first exhaust outlet is long shape on vertical direction.

A third aspect of the present invention, in the Floot type air conditioner of a first aspect of the present invention or a second aspect of the present invention, the first baffle plate governor motion has the first connecting rod parts.The first connecting rod parts are to be connected on a plurality of first baffle plates that belong to first baffle group, and the parts that can move in vertical direction.And second baffle is reconciled mechanism and is had the second connecting rod parts.The second connecting rod parts are to be connected on a plurality of first baffle plates that belong to the second baffle group, and can be independent of the parts that the first connecting rod parts move in vertical direction.

In this Floot type air conditioner, transmit the power of the direction of first baffle plate that changes first baffle group by the first connecting rod parts.In addition, transmit the power of the direction of the second baffle in the change second baffle group that is independent of the first connecting rod parts by the second connecting rod parts.Therefore, just can change the direction of first baffle plate of the direction of first baffle plate of first baffle group and second baffle group respectively.Like this, in this Floot type air conditioner, just can regulate the direction of first baffle plate in every group of first baffle group and the second baffle group respectively.

A fourth aspect of the present invention, in the Floot type air conditioner of a third aspect of the present invention, first connecting rod parts and second connecting rod parts are arranged to respectively and can be enoughly manually moved.

In this Floot type air conditioner, can be with the direction that manually changes a plurality of first baffle plates.Manually change in this usefulness under the situation of direction of first baffle plate,,, when moving first baffle plate, need bigger power owing to added the influence of gravity direction again if all first baffle plates all couple together., in this Floot type air conditioner,, therefore compare, uses less power just can change the direction of respectively organizing first baffle plate with the situation that all first baffle plate links together because first baffle plate is connected on each first baffle group and the second baffle group.Like this, just can rise to the operating characteristics of the direction that changes first baffle plate.

A fifth aspect of the present invention in any Floot type air conditioner of a fourth aspect of the present invention, also has the 3rd baffle plate governor motion in a first aspect of the present invention.The 3rd baffle plate governor motion is to be independent of the mechanism of the adjusting of first baffle group and second baffle group to the direction of a plurality of first baffle plates that belong to the 3rd baffle group in a plurality of first baffle plates.And first baffle group, second baffle group and the 3rd baffle group are arranged side by side on vertical direction.

In this Floot type air conditioner, can be adjusted in the direction of every group first baffle plate in each first baffle group, second baffle group and the 3rd baffle group that is arranged side by side on the vertical direction.Therefore, in this Floot type air conditioner, can select more various air stream.

A sixth aspect of the present invention,, in any Floot type air conditioner of a fifth aspect of the present invention, on shell, also be provided with and see second exhaust outlet that is arranged side by side in the horizontal with first exhaust outlet and the air through overregulating is discharged from the front in a first aspect of the present invention.And this Floot type air conditioner also has a plurality of second baffles, the 4th baffle plate governor motion and the 5th baffle plate governor motion.A plurality of second baffles are arranged in second exhaust outlet on vertical direction abreast, and guiding is from the air of second exhaust outlet discharge.The 4th baffle plate governor motion is the mechanism that can regulate the direction of a plurality of second baffles that belong to the 4th baffle group in a plurality of second baffles.The 5th baffle plate governor motion is the mechanism that can be independent of the adjusting of the 4th baffle group to the direction of a plurality of second baffles that belong to the 5th baffle group in a plurality of second baffles.

In this Floot type air conditioner, first exhaust outlet and second exhaust outlet are arranged abreast in the horizontal, and are respectively equipped with a plurality of first baffle plates and a plurality of second baffle.And, the direction that can not only regulate a plurality of first baffle plates, and the direction that can also regulate a plurality of second baffles in each the 4th baffle group and the 5th baffle group respectively.Therefore, not only can improve on the vertical direction, and can also improve transversely promptly the free degree of air stream in the horizontal direction.Like this, the more various air stream of this floor air conditioner function selection.

In the Floot type air conditioner of first aspect present invention, because therefore the direction that can regulate every group of baffle plate by the first baffle plate governor motion and second baffle governor motion can select the multiple air type of flow.

In the Floot type air conditioner of second aspect present invention,, therefore can be created in the air stream that width is bigger on the vertical direction because first exhaust outlet is long shape on vertical direction.

In the Floot type air conditioner of third aspect present invention,, just can change the direction of first baffle plate of the direction of first baffle plate of first baffle group and second baffle group respectively by first connecting rod parts and second connecting rod parts.Like this, use this Floot type air conditioner, just can regulate the direction of every group first baffle plate in first baffle group and the second baffle group respectively

In the Floot type air conditioner of fourth aspect present invention, compare with the situation that all first baffle plate all couples together, use less power just can change the direction of first baffle plate in each baffle group.Like this, just can rise to the operating characteristics of the direction that changes first baffle plate.

In the Floot type air conditioner of fifth aspect present invention,, can select more various air stream owing to can be adjusted in the direction of every group first baffle plate in first baffle group, second baffle group and the 3rd baffle group that is arranged side by side on the vertical direction.

In the Floot type air conditioner aspect the present invention the 6th side, owing to can not only improve on vertical direction, and can also to improve be the free degree of the air stream on the horizontal direction in the horizontal, so just can select more various air to flow.

Description of drawings

Fig. 1 is the front view of Floot type air conditioner outward appearance;

Fig. 2 is the front view of expression Floot type air conditioner structure;

Fig. 3 is the last profile of expression Floot type air conditioner structure;

Fig. 4 is the sectional side view of expression Floot type air conditioner structure;

Fig. 5 is the front view of the expression first horizontal baffle portion and the second horizontal baffle portion structure;

Fig. 6 is the stereogram of the structure of the first horizontal baffle portion of expression in detail;

Fig. 7 is the stereogram of the structure of the first horizontal baffle portion of expression in detail;

Fig. 8 is the control block diagram of the Floot type air conditioner of first embodiment;

Fig. 9 is the action diagram of expression first vertical baffle and second vertical baffle;

Figure 10 is the action diagram of expression first vertical baffle and second vertical baffle;

Figure 11 is the action diagram of expression first horizontal baffle and second horizontal baffle;

Figure 12 is the action diagram of expression first horizontal baffle and second horizontal baffle;

Figure 13 is the schematic diagram of expression relevant exhaust effect of the present invention;

Figure 14 is the schematic diagram of expression relevant exhaust effect of the present invention;

Figure 15 is the control block diagram of the Floot type air conditioner of expression second embodiment;

Figure 16 is the schematic diagram of expression relevant exhaust effect of the present invention.

Label declaration

1: Floot type air conditioner, 4: shell, 12: the first exhaust outlets, 13: the second exhaust outlets, 21: the first baffle plate governor motions, 22: second baffle governor motion, 23: the three baffle plate governor motions, 24: the four baffle plate governor motions, 25: the five baffle plate governor motions, 80: the first horizontal baffles (first baffle plate), 81: first connecting rod parts, 82: the second connecting rod parts, 90: the second horizontal baffles (second baffle), G1: the first horizontal baffle group (first baffle group), G2: the second horizontal baffle group (second baffle group), G3: the 3rd horizontal baffle group (the 3rd baffle group), G4: the 4th horizontal baffle group (the 4th baffle group), G5: the 5th horizontal baffle group (the 5th baffle group), D1: laterally, D2: vertical direction

The specific embodiment

[first embodiment]

(structure)

[overall structure]

Fig. 1 represents to adopt the front view of outward appearance of the Floot type air conditioner 1 of first embodiment of the invention.In addition, in the present embodiment, so-called " laterally " or " about ", be meant in a horizontal direction the left and right directions (referring to solid arrow D1) when the front of Fig. 1 is seen.And so-called " vertical direction " or " up and down " then is meant the above-below direction (referring to solid arrow D2) when the front of Fig. 1 is seen.

This Floot type air conditioner 1 is arranged on the air conditioner on the floor F in the family room, is used for regulating room air, warms oneself and refrigeration etc.Floot type air conditioner 1 be arranged in outdoor off-premises station (not shown) and be connected, and be contained among the figure in the off-premises station between the compressor and outdoor heat converter of expression, constitute refrigerant loop.This Floot type air conditioner 1 mainly has heat exchanger 2, fan 3, shell 4, control part 10 and remote controller 11.

[heat exchanger]

As shown in Figures 2 and 3, heat exchanger 2 is contained in the inside of shell 4, and and sucks between the air in the shell 4 and carry out heat exchange.As shown in Figure 2, heat exchanger 2 is in occupation of the position of the first half of Floot type air conditioner 1, is arranged on the height identical with second exhaust outlet 13 with first exhaust outlet 12 described later.And as shown in Figure 4, heat exchanger 2 is arranged to, and its top tilts to the rear side of Floot type air conditioner 1.In addition, Fig. 2 is the front view of the Floot type air conditioner 1 behind the front panel 43 under the dismounting, and Fig. 3 is the III-III profile among Fig. 1, and Fig. 4 is the IV-IV profile among Fig. 1.

[fan]

Fan 3 is contained in the inside of shell 4.Fan 3 is sent to first exhaust outlet 12 and second exhaust outlet 13 after indoor air is in suction 6 (referring to Fig. 1) of portion described later suck shell 4 by heat exchanger 2.Fan 3 is multi blade fans, its be arranged to the positive parallel plane of Floot type air conditioner 1 in rotate, as shown in Figure 2, be arranged on the below of heat exchanger 2.In addition, as shown in Figure 4, fan 3 be arranged in suction described later portion 6 near.As shown in Figure 2, fan 3 is contained in the fan drum 30.Fan drum 30 is arranged to the side of fan 3 opposed, and has the circular arc side 32 that surrounds fan 3 about 3/4ths circumference along the side of fan 3.Fan drum 30 has surrounded the left side of fan 3 sides and the latter half on right side.And, on fan drum 30, also be provided with fan drum outlet 31.Fan drum outlet 31 is parts that air flows out from fan 3 heat exchanger 2 upward, and it is arranged on the opposed position of the first half with the right side that is not surrounded by fan drum 30 of fan 3.Fan drum outlet 31 is arranged to be partial to pivot right-hand of fan 3.In addition, the counter clockwise direction rotation of fan 3 in Fig. 2, heat exchanger 2 is carried air (referring to blank arrow A 1 among Fig. 2 and solid arrow A2).

[shell]

Shell 4 is the parts that are long casing shape on vertical direction D2, and it accommodates heat exchanger 2 and fan 3 etc.As shown in Figure 3, the bight 42 at the back side 40 of shell 4 has been carried out chamfering.As shown in Figure 1, make the front 41 of shell 4 has front panel 43, the shape on recess 44 and inclined plane 45.And shell 4 has first exhaust outlet 12, second exhaust outlet 13, suction portion 6, the first vertical baffle portion 5, the second vertical baffle portion 7, the first horizontal baffle portion 8, the second horizontal baffle portion 9.

Front panel 43 is in the front of shell 4, passes through the flat that the vertical direction D2 of whole casing 4 roughly is provided with.And the top of plate 43 is provided with display part 46 in front, and this display part 46 shows the information of indoor temperature, outdoor temperature and running setting etc.

Recess 44 be along the side setting of front panel 43 on vertical direction D2, be microscler depression, and be separately positioned on the both sides of front panel 43.As shown in Figure 3, recess 44 is made of side 440 and curved surface 441.Side 440 links to each other with front panel 43, is arranged perpendicular to front panel 43.Curved surface 441 links to each other with side 440, also links to each other with inclined plane 45.

Inclined plane 45 is adjacent with the side of recess 44 and passes through the inclined plane of the vertical direction D2 setting of whole front 41.Inclined plane 45 is separately positioned on the two side ends of front 41.

[first exhaust outlet and second exhaust outlet]

First exhaust outlet 12 and second exhaust outlet 13 are arranged on the first half of front 41 of shell 4, are used for discharging carrying out thermoregulator air by heat exchanger 2.In addition, when the running of blowing waits, also can discharge the air of regulating without excess temperature from first exhaust outlet 12 and second exhaust outlet 13.

First exhaust outlet 12 and second exhaust outlet 13 are the oblong openings that have more microscler shape on vertical direction D2, and 41 the two side ends setting along the front.First exhaust outlet 12 and second exhaust outlet 13 are arranged on the first half on inclined plane 45, and the centre is arranged on the left side across front panel 43 and recess 44, the first exhaust outlets 12, and second exhaust outlet 13 is arranged on the right side.Therefore, first exhaust outlet 12 and second exhaust outlet, 13 positive apparent times partition distance and arranging abreast on horizontal D1.As shown in Figure 5, first exhaust outlet 12 and second exhaust outlet 13 are divided into top S1, middle part S2 and this three part of bottom S3 by dividing plate 49 respectively.And, on the upper end and dividing plate 49 of first exhaust outlet 12 and second exhaust outlet 13, be respectively equipped with the lug boss 14a-14c, the 15a-15c that on vertical direction, protrude.On the upper end of first exhaust outlet 12, be provided with the lug boss 14a that on vertical direction, protrudes downwards, on the dividing plate 49 of first exhaust outlet 12, be provided with

lug boss

14b, 14c protruding upward on vertical direction.Near the bottom of first exhaust outlet 12, fixing first flap motor 50 of the front end of its driving shaft towards the top.And, the driving shaft of the lug boss 14a-14c and first flap motor 50, partition distance and side by side point-blank on vertical direction, corresponding with the second rotating shaft AX1 of first vertical baffle 51 described later.Equally, on the upper end of second exhaust outlet 13, be provided with the lug boss 15a that on vertical direction, protrudes downwards, on the dividing plate 49 of second exhaust outlet 13, be provided with

lug boss

15b, 15c protruding upward on vertical direction.Near the bottom of second exhaust outlet 13, fixing the second baffle motor 70 of the front end of its driving shaft towards the top.The driving shaft of lug boss 15a-15c and second baffle motor 70, partition distance and side by side point-blank on vertical direction, corresponding with the second rotating shaft AX2 of second vertical baffle 71 described later.In addition, be arranged on the lug boss 14a-14c on first exhaust outlet 12 and the driving shaft of first flap motor 50, be positioned at than the more close outside, the center of first exhaust outlet 12 promptly on the position in left side, between the outboard end of the center of first exhaust outlet 12 and first exhaust outlet 12.In addition, so-called here " " center " is meant the center on horizontal D1, below too.Be arranged on the lug boss 15a-15c on second exhaust outlet 13 and the driving shaft of second baffle motor 70, being positioned at than the more close outside, the center of second exhaust outlet 13 is on the position on right side, between the outboard end of the center of second exhaust outlet 13 and second exhaust outlet 13.In addition, at each lug boss 14a-14c, on the 15a-15c, chimeric first vertical baffle 51 and second vertical baffle 71 that can freely rotate described later, and on the driving shaft of each

flap motor

50,70, fixing the lower end of first vertical baffle 51 and the lower end of second vertical baffle 71 respectively.

[suction portion]

Suction portion 6 sucks part in the shell 4 to indoor air, and as shown in Figure 1, it is arranged on the latter half of front 41 of shell 4.Suction portion 6 is made of first suction inlet 61, second suction inlet 62 and

side suction inlet

66,67.

First suction inlet 61 and second suction inlet 62 are arranged on the opening on the side 440 of recess 44, and first suction inlet 61 is arranged on the recess 44 in left side, and second suction inlet 62 is arranged on the recess 44 on right side.As shown in Figure 4, first suction inlet 61 is made of three

openings

63,64,65 that are arranged side by side on the vertical direction D2.The position of opening 63 that is arranged in the top is more taller than the position of fan 3, and the position of other two

openings

64,65 is then low than the position of fan 3.That is, first suction inlet 61 is arranged in not on the position relative with fan 3.Second suction inlet 62 too.In addition, the position that each

suction inlet

61,62 is arranged not is strictly to be limited in not the position relative with fan 3, and the part of each

suction inlet

61,62 also can be arranged in a way the position corresponding with fan 3.Also have, each

suction inlet

61,62 also is not limited in arranged apart on the upper and lower position of fan 3, also can only be arranged in the top, perhaps only is arranged in the below.

Side suction inlet the 66, the 67th, the longer opening on the vertical direction D2 shown in Fig. 4 is separately positioned on the below of Floot type air conditioner 1 side 47.

Side suction inlet

66,67 on the width D3 between fan 3 and front 41.In addition, in Fig. 4, show the side suction inlet of seeing from the front on the side 47 that is arranged on the left side 66, but the side suction inlet 67 that is arranged on the side 47 on right side also is the same.

In addition, the filter (not shown) of covering shell 4 belows is arranged to mutually opposed with first suction inlet 61, second suction inlet 62 and

side suction inlet

66,67.

[the first horizontal baffle portion and the second horizontal baffle portion]

The first horizontal baffle portion 8 is used to guide from the air of first exhaust outlet, 12 discharges and the part that blows out to vertical direction D2.As shown in Figure 5, the first horizontal baffle portion 8 has the first baffle plate governor motion 21, second baffle governor motion 22, the 3rd baffle plate governor motion 23 and a plurality of first horizontal baffle 80 (first baffle plate).

A plurality of first horizontal baffles 80 are arranged side by side on vertical direction D2 in first exhaust outlet 12, be used to guide the air of discharging from first exhaust outlet 12 and it is blown out to vertical direction D2.In the present embodiment, a plurality of first horizontal baffles 80 are divided into three groups: the first horizontal baffle group G1 (first baffle group), the second horizontal baffle group G2 (second baffle group) and the 3rd horizontal baffle group G3 (the 3rd baffle group), each group has 5 first horizontal baffles 80.The first horizontal baffle group G1, the second horizontal baffle group G2 and the 3rd horizontal baffle group G3 are arranged on top S1, the middle part S2 and bottom S3 of first exhaust outlet 12, and on vertical direction D2 stem for stem.First horizontal baffle, 80 usefulness elastomeric materials are made the shape of thin plate, the configuration of approximate horizontal ground.

In addition, first horizontal baffle 80 is not limited to integral body and all makes with elastomeric material, and it is passable that the part of first horizontal baffle 80 such as middle body is done achievement with elastomeric material.In addition, first horizontal baffle 80 also can be made without elastomeric material, and shape that can fry batter in a thin layer first horizontal baffle 80 etc., so that it has elasticity.

The first baffle plate governor motion 21 is the mechanisms that can regulate the direction of a plurality of first horizontal baffles 80 that belong to the first horizontal baffle group G1, and it has the first connecting rod parts 81 and first fixed part 84.As shown in Figure 6, first connecting rod parts 81 are that vertical direction D2 goes up long plate-shaped member, and it connects near the front side of outboard end of the first horizontal baffle group G1.First connecting rod parts 81 move the front end of the horizontal baffle group G1 that wins by moving on vertical direction D2 with being integral on vertical direction D2.In addition, be provided with first narrow slit 801 and second narrow slit 802 that on horizontal D1, connects on the first connecting rod parts 81.First narrow slit 801 is arranged on the top of first connecting rod parts 81, is the curved shape that protrudes to rear side.Second narrow slit 802 also has the shape identical with first narrow slit, is arranged on the bottom of first connecting rod parts 81.Two the fastening pawls 121,122 that are arranged on the edge part of first exhaust outlet 12 insert respectively in first narrow slit 801 and second narrow slit 802.Fastening pawl 121,122 fastening respectively also can slide in first narrow slit 801 and second narrow slit 802.And, near the central authorities of the inner surface of first connecting rod parts 81, and between first narrow slit 801 and second narrow slit 802, be provided with the operating portion 803 that protrudes to the inside.The user just can easily make first connecting rod parts 81 move on vertical direction D2 by holding operating portion 803.And, as shown in Figure 7, on the outer surface of first connecting rod parts 81, be provided with a plurality of directions to the inside depression recess 804 (in addition, in Fig. 7, only at recess 804 subscripts label, other all omitted).A plurality of recesses 804 are arranged side by side on the vertical direction D2, and the projection 123 (referring to Fig. 6) that is arranged on the edge part of first exhaust outlet 12 is inserted wherein.When projection 123 was inserted in the recess 804, projection 123 just fastening limited the motion of first connecting rod parts 81 to vertical direction D2 in recess 804.When the user holds operating portion 803, during to first connecting rod parts 81 application of forces, first connecting rod parts 81 just move, projection 123 just fastening in different recess 804.Thereby first connecting rod parts 81 just are positioned on the desirable position.In addition, because a plurality of recesses 804 that on vertical direction D2, are being arranged side by side, so first connecting rod parts 81 can be positioned at a plurality of stage (Duan Bands on the vertical direction D2) the position on.As shown in Figure 6, first fixed part 84 is fixed on the rear side of the outboard end of the first horizontal baffle group G1.In addition, as shown in Figure 7, first fixed part 84 has: a plurality of fixed claws 805 that are provided with corresponding to a plurality of first horizontal baffles 80 of the first horizontal baffle group G1; And separate the wall portion 806 that is arranged in gap on the fixed claw 805.On fixed claw 805, be provided with crotch (returning), when the edge part of first exhaust outlet 12 inserts in the gap between fixed claw 805 and the wall portion 806, the crotch of fixed claw 805 is just in the hole 124 of fastening on being arranged on edge part, so first fixed part 84 just is fixed on the shell 4.

Second baffle governor motion 22 is the mechanisms that can regulate the direction of a plurality of first horizontal baffles 80 that belong to the second horizontal baffle group G2, and it has the second connecting rod parts 82 and second fixed part 85.In addition, the 3rd baffle plate governor motion 23 is the mechanisms that can regulate the direction of a plurality of first horizontal baffles 80 that belong to the 3rd horizontal baffle group G3, and it has third connecting rod parts 83 and the 3rd fixed part 86.Though the structure of second connecting rod parts 82 and third connecting rod parts 83 is identical with the structure of first connecting rod parts 81, each linkage component 81-83 separates, and can distinguish independently and move.In addition, second connecting rod parts 82 connect the second horizontal baffle group G2, and third connecting rod parts 83 connect the 3rd horizontal baffle group G3.Second fixed part 85 is fixed on the second horizontal baffle group G2, and the 3rd fixed part 86 is fixed on the 3rd horizontal baffle group G3.

The second horizontal baffle portion 9 is parts that the air that ejects from second exhaust outlet 13 is guided at vertical direction D2.The second horizontal baffle portion 9 has the 4th baffle plate governor motion 24, the 5th baffle plate governor motion 25, the 6th baffle plate governor motion 26 and a plurality of second horizontal baffle 90 (second baffle).

A plurality of second horizontal baffles 90 are arranged side by side on vertical direction D2 in second exhaust outlet 13, and the air that guiding is discharged from second exhaust outlet 13 on vertical direction D2.The same with first horizontal baffle 80, second horizontal baffle 90 is divided into three groups: the 4th horizontal baffle group G4 (the 4th baffle group), the 5th horizontal baffle group G5 (the 5th baffle group) and the 6th horizontal baffle group G6.The 4th baffle plate governor motion 24 is the mechanisms that can regulate the direction of a plurality of second horizontal baffles 90 that belong to the 4th horizontal baffle group G4, and it has the 4th linkage component 91 and the 4th fixed part 94.The 5th baffle plate governor motion 25 is the mechanisms that can regulate the direction that belongs to a plurality of second horizontal baffles 90 among the 5th horizontal baffle group G5, and it has the 5th linkage component 92 and the 4th fixed part 95.In addition, the 6th baffle plate governor motion 26 is the mechanisms that can regulate the direction of a plurality of second horizontal baffles 90 that belong to the 6th horizontal baffle group G6, and it has the 6th linkage component 93 and the 6th fixed part 96.

The 4th linkage component 91 connects the 4th horizontal baffle group G4, and the 5th linkage component 92 connects the 5th horizontal baffle group G5, and the 6th linkage component 93 connects the 6th horizontal baffle group G6.Second horizontal baffle 90 is arranged to and first horizontal baffle, 80 left-right symmetry, the 4th horizontal baffle group G4 is corresponding to the first horizontal baffle group G1, the 5th horizontal baffle group G5 is corresponding to the second horizontal baffle group G2, and the 6th horizontal baffle group G6 is corresponding to the 3rd horizontal baffle group G3.And the structure of each linkage component 91-93 of the second horizontal baffle portion 9 also each the linkage component 81-83 with the first horizontal baffle portion 8 is identical, is symmetrical structure.About fixed part 94-96, also identical with the above.

As mentioned above, the rear side of first horizontal baffle 80 and second horizontal baffle 90 is that 94-96 fixes by means of fixed part 84-86, and its front side couples together by means of linkage component 81-83,91-93 and can move freely.Therefore, by moving of linkage component 81-83,91-93, soft first horizontal baffle 80 and second horizontal baffle 90 will be out of shape.For example, as linkage component 81-83, when 91-93 was moved upward, first horizontal baffle 80 and second horizontal baffle 90 were just crooked, and the front end of first horizontal baffle 80 and second horizontal baffle 90 is (referring to Figure 11 (a)) towards the top.And, when linkage component 81-83,91-93 are mobile downwards, first

horizontal baffle

80 and 90 bendings of second horizontal baffle, the front end of first horizontal baffle 80 and second horizontal baffle 90 is (referring to Figure 11 (b)) towards the below.Like this, by moving of linkage component 81-83,91-93, can change the direction that guides air by means of first horizontal baffle 80 and second horizontal baffle 90.

[the first vertical baffle portion and the second vertical baffle portion]

As shown in Figure 3, the first vertical baffle portion 5 and the second vertical baffle portion 7 are separately positioned on first exhaust outlet 12 and second exhaust outlet 13, the part that the air that to be guiding eject from first exhaust outlet 12 and second exhaust outlet 13 blows open at horizontal D1.

The first vertical baffle portion 5 is the parts of regulating the wind direction of the air that ejects from first exhaust outlet 12, and it has first vertical baffle 51 and first flap motor 50.

From the front, first vertical baffle 51 is arranged in the left side, is used to open and close first exhaust outlet 12.First vertical baffle 51 has: first board 52, on vertical direction D2, be grow tabular, and have the shape roughly the same with the outward flange of first exhaust outlet 12; With a plurality of first reinforcements (rib) 53, be arranged side by side on the inner surface of first board 52 on the vertical direction D2.First board 52 is the parts that guide under open mode from the air of first exhaust outlet, 12 discharges.First reinforcement 53 generally perpendicularly protrudes from the inner surface of first board 52, and is provided with the circular hole that runs through on vertical direction D2.In the hole that is positioned near first reinforcement 53 first board, 52 lower ends, insert and fixing the driving shaft (referring to Fig. 5) that is arranged on first flap motor 50 in the shell 4.In addition, be arranged on a plurality of lug boss 14a～14c of first exhaust outlet, 12 inside, be entrenched in respectively in other hole of first reinforcement 53.It can be that freely rotate at the center with the first rotating shaft AX1 that first vertical baffle 51 is arranged to, and the first rotating shaft AX1 passes the hole that is arranged on first reinforcement 53 and extends on vertical direction D2.In addition, be arranged on the center of boring ratio first board 52 on first reinforcement 53, promptly the left side is provided with prejudicially laterally, and is provided with than the more close outside, the center of first exhaust outlet 12 is eccentric.Like this, the first rotating shaft AX1 also is on the position than the more close outside, center of first exhaust outlet 12, is positioned at the center of first exhaust outlet 12 and the outboard end of first exhaust outlet 12, promptly on the position between the left end.

It is that rotate at the center with the first rotating shaft AX1 that is parallel to vertical direction D2 that first flap motor 50 makes first vertical baffle 51.First flap motor 50 changes the direction of first vertical baffle 51 by the layout angle that changes first vertical baffle 51.Like this, just changed the wind direction of the air that ejects from first exhaust outlet 12.The action of first vertical baffle 51 of this moment will be described in detail later.

The second vertical baffle portion 7 is the parts of regulating the wind direction of the air that ejects from second exhaust outlet 13, and it has second vertical baffle 71 and second baffle motor 70.From the front, second vertical baffle 71 is arranged in the right side, is used to open and close second exhaust outlet 13.

Second vertical baffle 71 has: second board 72, on vertical direction D2, be grow tabular, and the outward flange of the shape and second exhaust outlet 13 is roughly the same; With a plurality of second reinforcements 73, be arranged side by side on the inner surface of second board 72 on the vertical direction D2.Second board 72 is parts of the air that guiding ejects from second exhaust outlet 13 under open mode.Second reinforcement 73 generally perpendicularly protrudes from the inner face of second board 72, and is provided with the circular hole that runs through on vertical direction D2.In the hole that is positioned near second reinforcement 73 second board, 72 lower ends, insert and fixing the driving shaft of the second baffle motor 70 that is arranged in the shell 4.In addition, be arranged on a plurality of lug boss 15a～15c of second exhaust outlet, 13 inside, be entrenched in respectively in other hole of second reinforcement 73.It can be that freely rotate at the center with the second rotating shaft AX2 that second vertical baffle 71 is arranged to, and the second rotating shaft AX2 passes the hole that is arranged on second reinforcement 73 and extends on vertical direction D2.In addition, being arranged on the center of boring ratio second board 72 on second reinforcement 73, is that the right side is provided with prejudicially laterally, and the middle mind-set of ratio second exhaust outlet 13, and the outside is provided with prejudicially.Like this, the second rotating shaft AX2 also is on the position than the more close outside, center of second exhaust outlet 13, is positioned at the center of first exhaust outlet 12 and the outboard end of first exhaust outlet 12, promptly on the position between the right-hand end.

Second baffle motor 70 can drive respectively independently with first flap motor 50, and it can make second vertical baffle 71 is that rotate at the center with the second rotating shaft AX2 that is parallel to vertical direction D2.Second baffle motor 70 changes the direction of second vertical baffle 71 by the layout angle that changes second vertical baffle 71.Like this, just changed the wind direction of the air that ejects from second exhaust outlet 13.

In addition, Fig. 1 and Fig. 3 have represented that first vertical baffle 51 and second vertical baffle 71 closed the complete closing state of each

exhaust outlet

12,13.

[control part and remote controller]

As shown in Figure 8, control part 10 is connected with fan 3, first flap motor 50, second baffle motor 70 etc., is used to control fan 3, first flap motor 50 and second baffle motor 70 etc.Control part 10 can be controlled first flap motor 50 and second baffle motor 70 separately respectively, can control 7 one-tenth different separately states of the first vertical baffle portion 5 and the second vertical baffle portion.Therefore, control part 10 can not only make first vertical baffle 51 and second vertical baffle, 71 left and right symmetricallies move, and also can make them do asymmetrical moving.The wind direction of the air that like this, just can change the direction of the air that ejects from first exhaust outlet 12 separately respectively and eject from second exhaust outlet 13.

Remote controller 11 is to be used for the input unit that the user indicates the running content of Floot type air conditioner 1, set in the switching that receives the switch of power supply, refrigeration and heating, temperature, air quantity is set, set the input of control content of wind direction etc. after, by means of the wireless telecommunications means of infrared ray etc., the control signal of carrying corresponding to various inputs to control part 10.For example, remote controller 11 can receive the appointment of first vertical baffle, 51 directions and the appointment of second vertical baffle, 71 directions respectively.In addition, in control part 10, preestablished multiple operation mode, in these multiple operation modes, can comprise making first vertical baffle 51 and second vertical baffle 71 carry out asymmetric mobile operation mode, in this case, remote controller 11 just can receive the appointment of any operation mode.

(action)

Below, describe action and air stream in detail as first vertical baffle 51, second vertical baffle 71, first horizontal baffle 80 and second horizontal baffle 90 of feature of the present invention.

At first, when fan 3 rotated, room air just was inhaled in the shell 4 from first suction inlet 61, second suction inlet 62 and side suction inlet 66,67 (referring to Fig. 1).By means of the rotation of fan 3, inhaled air is carried to the top of fan 3 from housing outlet 31, and by heat exchanger 2, then from first exhaust outlet 12 and second exhaust outlet 13 to indoor discharge.At this moment, can change the wind direction of air on left and right directions by means of the first vertical baffle portion 5 and the second vertical baffle portion 7, and, change the wind direction of air on above-below direction by means of the first horizontal baffle portion 8 and the second horizontal baffle portion 9.

[action of first vertical baffle and second vertical baffle]

When shutting down, as shown in Figure 3, first exhaust outlet 12 and second exhaust outlet 13 are closed (below, claim that this state is for " full-shut position ") by the first vertical baffle portion 5 and the second vertical baffle portion 7.When Floot type air conditioner 1 entry into service, first vertical baffle 51 and second vertical baffle 71 just move, and first exhaust outlet 12 and second exhaust outlet 13 are opened.At this moment, first flap motor 50 and second baffle motor 70 are driven, and making first vertical baffle 51 is that rotate at the center with the first rotating shaft AX1, and making second vertical baffle 71 is that rotate at the center with the second rotating shaft AX2.See that from above first vertical baffle 51 rotates to clockwise direction, under full-shut position, the right-hand end that is positioned at the first inboard board 52 forwards moves.Like this, first vertical baffle 51 rotates, so that the medial end of first board 52 that is in full-shut position is near the outboard end side of first exhaust outlet 12.In addition, see from above that second vertical baffle 71 is to counterclockwise rotating, under full-shut position, the left end that is positioned at the second inboard board 72 forwards moves.Like this, second vertical baffle 71 moves, so that the medial end of second board 72 that is in full-shut position is near the outboard end side of second exhaust outlet 13.Control part 10 can make first vertical baffle 51 and second vertical baffle 71 be opened to desirable aperture by control first flap motor 50 and second baffle motor 70.For example, first vertical baffle 51 and second vertical baffle 71 just can be opened to first open mode shown in Figure 9, second open mode and the 3rd open mode.Shown in Fig. 9 (a), first open mode is the state of the anterior end of the anterior end of first board 52 and second board 72 towards the inboard.At this moment, it is the position on right side that the anterior end of first board 52 is positioned at than more close inboard, the center of first exhaust outlet 12, and it is the position in left side that its rear end then is positioned at than the more close outside, the center of first exhaust outlet 12.Under this first state,, concentrate and blow out to the center position of Floot type air conditioner 1 from the air that first exhaust outlet 12 and second exhaust outlet 13 eject.Shown in Fig. 9 (b), second open mode is the state of the anterior end of the anterior end of first board 52 and second board 72 towards the front.At this moment, first board 52 and second board 72 are in and state perpendicular to the direction almost parallel in front.In this state, first board 52 is positioned at the outside of the first rotating shaft AX1, is positioned on the position than the more close outside, center of first exhaust outlet 12.In addition, second board 72 is positioned at the outside of the second rotating shaft AX2, is positioned on the position than the more close outside, center of second exhaust outlet 13.Under this second state, the air from first exhaust outlet 12 and second exhaust outlet 13 eject blows out to frontal directly.Shown in Fig. 9 (c), the 3rd open mode is the state that first board 52 and second board 72 are opened fully, and the anterior end of the anterior end of first board 52 and second board 72 all toward the outer side.At this moment, the anterior end of first board 52 is positioned at the position than the more close outside of outboard end of first exhaust outlet 12, and its rear end then is positioned at the position than more close inboard, first exhaust outlet, 12 centers.The anterior end of second board 72 is positioned at the position than the more close outside of outboard end of second exhaust outlet 13, and its rear end then is positioned at the position than more close inboard, first exhaust outlet, 12 centers.Under this third state,, all expand (Wide ㄑ) blowing out laterally from the air of first exhaust outlet 12 and 13 discharges of second exhaust outlet.

In addition, the aperture of first vertical baffle 51 and second vertical baffle 71 not only can divide three phases to open from above-mentioned first open mode to the, three open modes, also can be opened to its middle aperture.In addition, first vertical baffle 51 and second vertical baffle 71 not only can be opened by stages, also can be opened to aperture arbitrarily.

In addition, in this Floot type air conditioner 1, first vertical baffle 51 and second vertical baffle 71 not only can carry out symmetrical moving as shown in Figure 9, it is asymmetric mobile also to carry out the left and right sides respectively, opens first exhaust outlet 12 and second exhaust outlet 13.For example, shown in Figure 10 (a), when first vertical baffle 51 is in full-shut position, can make second vertical baffle 71 be in the 3rd open mode.In addition, shown in Figure 10 (b), when first vertical baffle 51 is in first open mode, can make second vertical baffle 71 be in the 3rd open mode.

In addition, close under the situation of first exhaust outlet 12 and second exhaust outlet 13, also can make them to moving with above-mentioned opposite direction at first vertical baffle 51 and second vertical baffle 71.

[action of first horizontal baffle and second horizontal baffle]

In this Floot type air conditioner 1,, and, can change the angle of horizontal baffle 80,90 separately respectively from the 4th horizontal baffle group G4 to the six horizontal baffle group G6 from the first horizontal baffle group G1 to the, three horizontal baffle group G3.Therefore, the user can be the angle initialization of each baffle plate 80,90 on desirable angle.For example, shown in Figure 11 (a), can all be set at towards the top from the first horizontal baffle group G1 to the, three horizontal baffle group G3; And for example shown in Figure 11 (b), also can all be set at from the first horizontal baffle group G1 to the, three horizontal baffle group G3 towards the below.When all being set at towards the top, just upwards discharge from the air that first exhaust outlet 12 is discharged from the first horizontal baffle group G1 to the, three horizontal baffle group G3.Thereby, when refrigeration, just can blow out cold air upward expeditiously.In addition, when all being set at towards the below, just discharge downwards from the air that first exhaust outlet 12 is discharged from the first horizontal baffle group G1 to the, three horizontal baffle group G3.Thereby, when heating, just can blow out hot-air downwards expeditiously.About action, also identical with the above from the 4th horizontal baffle group G4 to the six horizontal baffle group G6.

In addition, because the first horizontal baffle group G1 to the, six horizontal baffle group G6 can distinguish and change direction independently, therefore as shown in Figure 12, each horizontal baffle 80,90 also can be set to towards different directions.For example, in Figure 12 (a), the first horizontal baffle group G1 is set at towards the top, the second horizontal baffle group G2 is set to towards the front, and the 3rd horizontal baffle group G3 is set at towards the below.Therefore, the air of discharging from the top S1 of first exhaust outlet 12 is just upwards discharged; Then discharge to the front directly from the air that middle part S2 discharges; Then discharge downwards from the air that bottom S3 discharges.Like this, on vertical direction D2, just can discharge the very wide air-flow of width, thereby air is flowed through and indoor top and the bottom.In addition, shown in Figure 12 (b), also can be set at the first horizontal baffle group G1 towards the below, the second horizontal baffle group G2 is set at towards the front, the 3rd horizontal baffle group G3 is set at towards the top.In this case, just discharge downwards, then discharge to the front straight, then discharge upward from the air that bottom S3 discharges from the air that middle part S2 discharges from the air that the top S1 of first exhaust outlet 12 discharges.Thereby, just can make air concentrate and discharge to frontal, and the place that air stream is reach out to distances.For the 4th horizontal baffle group G4, the 5th horizontal baffle group G5 and the 6th horizontal baffle group G6, also with above said the same.

In addition, first horizontal baffle 80, by first connecting rod parts 81, second connecting rod parts 82, third connecting rod parts 83 moving on vertical direction D2 respectively, make first horizontal baffle, 80 bendings that couple together, to change its direction, yet first connecting rod parts 81, second connecting rod parts 82, third connecting rod parts 83 also can not only change the position by stages, also can change to desirable position continuously.In addition, the direction of first horizontal baffle 80 can not only also can change its direction by on the first horizontal baffle group G1, the second horizontal baffle group G2 and the 3rd horizontal baffle group G3 drive motor being set respectively automatically with manually changing.For second horizontal baffle 90, also identical with the above.

(feature)

(1)

In this Floot type air conditioner 1, first vertical baffle 51 and second vertical baffle 71 are being opened the time-division other places in the position than the more close outside, center of first exhaust outlet 12 and second exhaust outlet 13.As Floot type air conditioner in the past, first vertical baffle 51 and second vertical baffle 71 are being arranged under the close inboard situation, when first vertical baffle 51 and second vertical baffle 71 are in first open mode towards the inboard, just shown in Figure 13 (a), because air stream is distributed to the outside, therefore be difficult to air-flow is concentrated to frontal.Relative therewith, when first vertical baffle 51 and second vertical baffle 71 when opening, be in position respectively than the more close outside, center of first exhaust outlet 12 and second exhaust outlet 13, just shown in Figure 13 (b), owing to suppressed the dispersion toward the outer side of air stream, thereby can improve the performance that air stream is concentrated towards frontal.Thereby,, just can improve the performance of air stream straight ahead by air stream is concentrated towards frontal.Thereby, the place that air stream just can reach out to distances.

In addition, in this Floot type air conditioner 1, because first exhaust outlet 12 and second exhaust outlet 13 are arranged on partition distance ground in the horizontal, therefore the 3rd open mode shown in Fig. 9 (c) is such, by first vertical baffle 51 and second vertical baffle 71 to the left and right direction open significantly, make air can with very wide width to the left and right direction blow out.Therefore, just can realize by both direction blowing to the left and right, and flow from the air that left and right directions is surrounded.

As mentioned above, in Floot type air conditioner 1 of the present invention, enlarged the control range of wind direction.Thereby this Floot type air conditioner 1 just can be tackled and is arranged on various places or multiple occupation mode.

(2)

In this Floot type air conditioner 1, can control respectively from the wind direction of first exhaust outlet, 12 discharges and the wind direction of discharging from second exhaust outlet 13.Therefore, the distribution of the air stream that just might carry out conforming to the room is with the distribution of the air stream that conforms to user's expectation etc.In addition, owing to improved the free degree of air flow distribution, therefore can change the distribution of air stream according to the shape in the room of having arranged Floot type air conditioner 1, perhaps air stream is only distributed to the special part that needs air conditionings such as refrigeration or heating, thereby can improve the efficient of air-conditioning.For example, when Floot type air conditioner 1 was arranged the bight in elongated room in one direction, if direction is discharged air equably to the left and right, air stream just was difficult to reach the angle part on the diagonal position that is in Floot type air conditioner 1.In this case, as shown in figure 14,, just can make air flow to the part that reaches it and be difficult to arrive by means of making the length direction of all being partial to the room from first exhaust outlet 12 wind direction of discharging and the wind direction of discharging from second exhaust outlet 13.

(3)

In this Floot type air conditioner 1,

horizontal baffle

80,90 is divided into a plurality of groups, and each group can freely change the direction of horizontal baffle 80,90.Therefore, according to the shape in room and user's expectation, can freely be chosen in vertical direction D2 and go up the mode of discharging.For example, the air stream in the embracing chamber up and down can be realized, in contrast,, just the zone that air stream can arrive can be enlarged by getting up in the air adfluxion.

In addition, owing to whole horizontal baffles 80,90 are moved simultaneously, and each horizontal baffle group G1-G3, G4-G6 are moved respectively separately, therefore when one group of horizontal baffle group G1-G6 is moved, utilize less power just can operate, thereby improved operating characteristics.

(4)

In this Floot type air conditioner 1, as mentioned above,, just can allow air discharge to all directions by means of first vertical baffle 51, second vertical baffle 71, first horizontal baffle 80 and second horizontal baffle 90.Therefore, many desk fans 3 needn't be set, and a desk fan only is set, air is discharged in a variety of forms.

(second embodiment)

(structure)

In the above-described first embodiment, can control individually, and also can control individually the air quantity of the air of discharging from left and right directions to the adjusting of left and right sides wind direction.Figure 15 represents the control block diagram of the Floot type air conditioner 1 that second embodiment of the present invention relates to.

This Floot type air conditioner 1 has the first air quantity adjusting portion 58 and the second air quantity adjusting portion 78.The first air quantity adjusting portion 58 has first gate mechanism of the aperture area that changes first exhaust outlet 12, and it can be regulated from the air quantity of the air of first exhaust outlet, 12 discharges.The second air quantity adjusting portion 78 has second gate mechanism of the aperture area that changes second exhaust outlet 13, and it can be regulated from the air quantity of the air of second exhaust outlet, 13 discharges.And control part 10 can be controlled the first air quantity adjusting portion 58 and the second air quantity adjusting portion 78 separately respectively, thereby can change the air quantity of the air of discharging from first exhaust outlet 12 separately respectively and the air quantity of the air of discharging from second exhaust outlet 13.In addition, the user is by importing remote controller 11 to the adjusting of the first air quantity adjusting portion 58 and 78 pairs of air air quantity of the second air quantity adjusting portion, just the air quantity of the air that can discharge the air quantity of the air of discharging from first exhaust outlet 12 with from second exhaust outlet 13 is adjusted to desirable air quantity respectively.In this case, the same with first embodiment, can not only be respectively to the change of the first air quantity adjusting portion 58 and the second air quantity adjusting portion, 78 input air quantity, and the appointment by operation mode can also make the first air quantity adjusting portion 58 and the second air quantity adjusting portion 78 work respectively separately.

As for other structure, all identical with Floot type air conditioner 1 in first embodiment.

(feature)

In this Floot type air conditioner 1, owing to can control the wind direction of the air of discharging from first exhaust outlet 12 and the air quantity of discharging individually from second exhaust outlet 13, thereby can carry out the air flow distribution that conforms to the room, with the air flow distribution that conforms to user's hobby.In addition, owing to improved the free degree of air flow distribution, therefore just can change the distribution of air stream according to the shape in the room of having arranged Floot type air conditioner 1, perhaps can only distribute to the special part that needs air conditionings such as refrigeration or heating to air-flow, thereby can improve the efficient of air-conditioning.For example, when Floot type air conditioner 1 is arranged in the bight that is shaped as an elongated room of direction, as shown in figure 16, can increases the air quantity that the exhaust outlet of length direction one side in the faced chamber is discharged, and reduce the air quantity of discharging from the opposite side exhaust outlet.Like this, air stream just can reach the part that it is difficult to arrive.

(other embodiment)

(1)

In the Floot type air conditioner 1 of above-mentioned embodiment, be by means of the first rotating shaft AX1 and the second rotating shaft XA2 are arranged respectively laterally prejudicially, win vertical baffle 51 and second vertical baffle 71 are opened laterally prejudicially, but the first rotating shaft AX1 and the second rotating shaft XA2 also can be arranged in the center of first exhaust outlet 12 and second exhaust outlet 13 in the heart.In this case, for example, the position in the shape by making first reinforcement 53 and the hole of first reinforcement 53 is on the position of leaving first board 52, and first vertical baffle 51 also can be opened first exhaust outlet 12 in eccentric laterally mode.But, consider the restriction on the size of first exhaust outlet 12 and first vertical baffle 51, better is that the first rotating shaft AX1 is arranged laterally prejudicially.About second vertical baffle 71, also identical with the above.

(2)

In the Floot type air conditioner 1 of above-mentioned embodiment, first vertical baffle 51 is opened first exhaust outlet 12 to clockwise rotating when seeing from above, but, also can allow it to counterclockwise rotating, open first exhaust outlet 12.About second vertical baffle 71, also identical with the above.

(3)

In the Floot type air conditioner 1 of above-mentioned embodiment, rotation by first vertical baffle 51 and second vertical baffle 71, open first exhaust outlet 12 and second exhaust outlet 13, but, be not to be only limited to rotate to move, also moving of alternate manner be can pass through, first exhaust outlet 12 and second exhaust outlet 13 opened.

(4)

The Floot type air conditioner 1 of above-mentioned embodiment, be not to only limit to have the first vertical baffle portion 5 shown in first embodiment and the second vertical baffle portion 7, with the either party in the first air quantity adjusting portion 58 shown in second embodiment and the second air quantity adjusting portion 78, also can have these two kinds of parts simultaneously.

(5)

In the Floot type air conditioner 1 of above-mentioned embodiment, first horizontal baffle 80 is divided into three groups on vertical direction, but, also can be divided into plural group, for example, can be divided into two groups or four groups.For second horizontal baffle 90, also identical.

The present invention has the effect that can select multiple air stream, for Floot type air conditioner of great use.

Claims

1. a Floot type air conditioner (1) has:

Shell (4) is provided with first exhaust outlet (12) that the air through overregulating is discharged;

A plurality of first baffle plates (80) are being arranged side by side on the vertical direction in above-mentioned first exhaust outlet (12), and guiding is from the air of above-mentioned first exhaust outlet (12) discharge;

The first baffle plate governor motion (21), the direction that can regulate a plurality of above-mentioned first baffle plate (80) that belongs to first baffle group (G1) in a plurality of above-mentioned first baffle plates (80);

Second baffle governor motion (22) can be independent of the adjusting of above-mentioned first baffle group (G1) to the direction of a plurality of above-mentioned first baffle plate (80) that belongs to second baffle group (G2) in a plurality of above-mentioned first baffle plates (80).

2. Floot type air conditioner as claimed in claim 1 (1) is characterized in that, above-mentioned first exhaust outlet (12) is shape long on vertical direction.

3. Floot type air conditioner as claimed in claim 1 or 2 (1) is characterized in that,

The above-mentioned first baffle plate governor motion (21) has first connecting rod parts (81), and above-mentioned first connecting rod parts (81) are connected on a plurality of above-mentioned first baffle plate (80) that belongs to above-mentioned first baffle group (G1), and can move on vertical direction;

Above-mentioned second baffle governor motion (22) has second connecting rod parts (82), above-mentioned second connecting rod parts (82) are connected on a plurality of above-mentioned first baffle plate (80) that belongs to above-mentioned second baffle group (G2), and it is mobile on vertical direction to be independent of above-mentioned first connecting rod parts (81).

4. Floot type air conditioner as claimed in claim 3 (1) is characterized in that,

Above-mentioned first connecting rod parts (81) and above-mentioned second connecting rod parts (82) are arranged to respectively and can be manually moved.

5. as each described Floot type air conditioner (1) of claim 1～4, it is characterized in that,

Also has the 3rd baffle plate governor motion (23), the 3rd baffle plate governor motion (23) can be independent of the adjusting of above-mentioned first baffle group (G1) and above-mentioned second baffle group (G2) to the direction of a plurality of above-mentioned first baffle plate (80) that belongs to the 3rd baffle group (G3) in a plurality of above-mentioned first baffle plates (80);

Above-mentioned first baffle group (G1), above-mentioned second baffle group (G2) and above-mentioned the 3rd baffle group (G3) are arranged side by side on vertical direction.

6. as each described Floot type air conditioner (1) of claim 1～5, it is characterized in that,

On above-mentioned shell (4), also be provided with and see second exhaust outlet (13) that is arranged side by side and the air through overregulating is discharged at laterally (D1) with above-mentioned first exhaust outlet (12) from the front;

And this Floot type air conditioner (1) also has:

A plurality of second baffles (90) are being arranged side by side on the vertical direction in above-mentioned second exhaust outlet (13), and guiding is from the air of above-mentioned second exhaust outlet (13) discharge;

The 4th baffle plate governor motion (24), the direction that can regulate a plurality of above-mentioned second baffle (90) that belongs to the 4th baffle group (G4) in a plurality of above-mentioned second baffles (90); And

The 5th baffle plate governor motion (25) can be independent of the adjusting of above-mentioned the 4th baffle group (G4) to the direction of a plurality of above-mentioned second baffle (90) that belongs to the 5th baffle group (G5) in a plurality of above-mentioned second baffles (90).