CN104136854B - Vertical air conditioner - Google Patents

Abstract

A kind of vertical air conditioner, has: be provided with the framework (10) of fan (24) and heat exchanger (23)；Front blowout adjusts parts (30), it is possible to be arranged in the front blow-off outlet (13) being formed near the framework end face (15) of (11) before framework freely to rotate；Top blowout adjusts parts (40), it is possible to be arranged in the top blow-off outlet (14) being formed at before framework near (11) freely to rotate.When operating stops, front blowout adjusts parts (30) and closes front blow-off outlet (13), and top blowout adjusts blow-off outlet (14) above parts (40) closedown, when cooling operation, front blowout adjusts parts (30) and closes front blow-off outlet (13), and top blowout adjusts parts (40) and rotates and open top blow-off outlet (14), when heating operating, top blowout adjusts blow-off outlet (14) above parts (40) closedown, and front blowout adjusts parts (30) and rotates and open front blow-off outlet (13).

Description

Vertical air conditioner

Technical field

The present invention relates to a kind of vertical air conditioner, especially relate to a kind of blow-off direction having and can adjusting cold wind respectively And the vertical air conditioner of the Wind direction regulating mechanism of the blow-off direction of hot blast.

Background technology

Hot blast is forwards blown out (hereinafter referred to as " fore blow ") by conventional vertical air conditioner, and is blown out upward by cold wind (hereinafter referred to as " above blowing "), it has Wind direction regulating mechanism, such as, by the wind direction alteration board of cross section substantially arc-shaped and plane Decorative panel linked by linkage together, be able to freely rotatable (for example, referring to patent documentation 1.).

Prior art literature

Patent documentation

Patent documentation 1: Japanese Patent Publication 4-19394 publication (page 5, the 4th, 5 figures)

Disclosed in patent documentation 1, Wind direction regulating mechanism is when fore blow, and wind direction alteration board becomes approximate horizontal, and decorative panel Becoming level, forwards form blowout passage, on the other hand, when above blowing, wind direction alteration board and decorative panel become substantially vertical, to Top forms blowout passage, therefore there is problems with.

A top is substantially blocked by () decorative panel when fore blow, substantially blocked in front when upper blowing, but stop in operating Time only, any one party opening (side defines blowout passage) in top or front, therefore aesthetic property reduces, and dust and foreign body are invaded Enter inside.Even if it addition, be designed with size very close to each other in design drawing, also can be because of parts-moulding precision, assembling essence Degree deviation and produce gap.

Although (b) it addition, can fore blow, but in the running can not by regulation air blow out downwards.

Summary of the invention

The present invention researches and develops to solve the problems referred to above, and the first purpose is to provide a kind of vertical air conditioner, in operating During stopping, it is possible to blowout wind path when closing fore blow and on blowout wind path both sides when blowing.

It addition, the second purpose is to provide a kind of vertical air conditioner, regulation air can be made in the running to blow out downwards.

And, the 3rd purpose is to provide a kind of vertical air conditioner, it is possible to adjust the direction of blowout wind.

The vertical air conditioner of the present invention has: framework, is provided with fan and can be selectively carrying out cooling operation and system The heat exchanger of heat run；Front blowout adjusts parts, it is possible to be arranged in the top being formed at before described framework freely to rotate Front blow-off outlet near face；Top blowout adjusts parts, it is possible to be arranged in the end face being formed at described framework freely to rotate The top blow-off outlet of close front, when operating stops, the blowout of described front adjusts parts and closes described front blow-off outlet, and And the blowout of described top adjusts parts and closes described top blow-off outlet, when cooling operation, the blowout of described front adjusts parts and closes Close described front blow-off outlet, and the blowout of described top adjusts parts and rotates and open described top blow-off outlet, is heating operating Time, the blowout of described top adjusts parts and closes described top blow-off outlet, and the blowout of described front adjusts parts and rotates and open Described front blow-off outlet.

The effect of invention

The vertical air conditioner of the present invention can close when operating stops front blow-off outlet and above blow-off outlet both sides, thus It is able to ensure that the aesthetic property of outward appearance, and prevents the intrusion internally of dust or foreign body.

Accompanying drawing explanation

Fig. 1 is the overall sectional view of the vertical air conditioner representing embodiments of the present invention 1.

Fig. 2 is the sectional view representing the Wind direction regulating mechanism when operating of the vertical air conditioner shown in Fig. 1 stops.

Fig. 3 is the sectional view of the Wind direction regulating mechanism during cooling operation representing the vertical air conditioner shown in Fig. 1.

Fig. 4 is the sectional view of Wind direction regulating mechanism when heating operating representing the vertical air conditioner shown in Fig. 1.

Fig. 5 is the sectional view of the action of the Wind direction regulating mechanism representing the vertical air conditioner shown in Fig. 1.

Fig. 6 is the block diagram of the control system for the vertical air conditioner shown in explanatory diagram 1.

Fig. 7 is the flow chart of the control system for the vertical air conditioner shown in explanatory diagram 1.

Fig. 8 is cuing open of the Wind direction regulating mechanism during operating stopping of the vertical air conditioner representing embodiments of the present invention 2 View.

Fig. 9 is the sectional view of the Wind direction regulating mechanism during cooling operation representing the vertical air conditioner shown in Fig. 8.

Figure 10 is the sectional view of Wind direction regulating mechanism when heating operating representing the vertical air conditioner shown in Fig. 8.

Figure 11 is that the amplification of the vertical air conditioner illustrating schematically that embodiments of the present invention 3 represents that operating stops partially The only sectional view of posture.

Figure 12 be the component parts extracting the vertical air conditioner shown in Figure 11 out a part (front blowout adjust parts) and The sectional view being indicated.

Figure 13 A is to extract the part of component parts of the vertical air conditioner shown in Figure 11 out (top being arranged in front is blown Go out to adjust parts) and the sectional view that is indicated.

Figure 13 B is to extract the part of component parts of the vertical air conditioner shown in Figure 11 out (top being arranged in rear is blown Go out to adjust parts) and the sectional view that is indicated.

Figure 14 A is a part (framework end face) for the component parts extracting the vertical air conditioner shown in Figure 11 out and is indicated Sectional view.

Figure 14 B is a part (before housing) for the component parts extracting the vertical air conditioner shown in Figure 11 out and is indicated Sectional view.

Figure 15 is the cooling operation of expression partially (above the blowing operating) posture amplifying the vertical air conditioner shown in Figure 11 Sectional view.

Figure 16 is that the expression partially amplifying the vertical air conditioner shown in Figure 11 heats operating (under blow operating) posture Sectional view.

Figure 17 A is the sectional view representing the action heating operating posture becoming the vertical air conditioner shown in Figure 11.

Figure 17 B is the sectional view representing the action heating operating posture becoming the vertical air conditioner shown in Figure 11.

Figure 18 is the block diagram of the control system representing the vertical air conditioner shown in Figure 11.

Figure 19 A is the flow chart of the control system for the vertical air conditioner shown in Figure 11 is described.

Figure 19 B is the flow chart of the control system for the vertical air conditioner shown in Figure 11 is described.

Figure 20 A is cuing open of the variation of the component parts (before housing) illustrating schematically that the vertical air conditioner shown in Figure 11 View.

Figure 20 B is the change of the component parts (top blowout adjusts parts) illustrating schematically that the vertical air conditioner shown in Figure 11 The sectional view of shape example.

Figure 20 C is the change of the component parts (front blowout adjusts parts) illustrating schematically that the vertical air conditioner shown in Figure 11 The sectional view of shape example.

Figure 21 A is that the amplification of the vertical air conditioner illustrating schematically that embodiments of the present invention 4 represents upper and lower partially The sectional view of blowout operating posture.

Figure 21 B is that the amplification of the vertical air conditioner illustrating schematically that embodiments of the present invention 4 represents upper and lower partially The sectional view of blowout operating posture.

Figure 22 is the block diagram of the control system representing the vertical air conditioner shown in Figure 21 A.

Figure 23 is the flow chart of the control system for the vertical air conditioner shown in explanatory diagram 21A.

Figure 24 is that the amplification of the vertical air conditioner illustrating schematically that embodiments of the present invention 5 represents that operating stops partially The only sectional view of posture.

Figure 25 is the flow chart of the control system for the vertical air conditioner shown in Figure 24 is described.

Figure 26 A is the top view of the vertical air conditioner illustrating schematically that embodiments of the present invention 6.

Figure 26 B is the left view of the side cover of the framework of perspective vertical air conditioner shown in the diagram 26A of earth's surface.

Figure 26 C is the right view of the side cover of the framework of perspective vertical air conditioner shown in the diagram 26A of earth's surface.

Detailed description of the invention

[embodiment 1: vertical air conditioner]

Fig. 1～Fig. 7 is for illustrating schematically that the vertical air conditioner of embodiments of the present invention 1, and Fig. 1 is to represent overall cuing open View, Fig. 2 is the sectional view representing Wind direction regulating mechanism when operating stops, and wind direction when Fig. 3 is to represent cooling operation adjusts The sectional view of mechanism, Fig. 4 is the sectional view representing Wind direction regulating mechanism when heating operating, and Fig. 5 is to represent Wind direction regulating mechanism The sectional view of action, Fig. 6 is the block diagram for control system is described, Fig. 7 is the flow chart for control system is described.This Outward, each figure simply schematic diagram, the invention is not restricted to the form of diagram.

In FIG, vertical air conditioner 100 has framework 10, the side-looking that is arranged in framework 10 is the heat exchange of substantially V-shaped Device 23, it is arranged in the fan 24 of the top (the substantially bosom part of substantially V-shaped) of heat exchanger 23.

Being formed with front openings portion 12 on 11 before the framework of framework 10, front openings portion 12 is as being used for sucking air " suction inlet " function.It addition, before framework 11 be formed above front blow-off outlet 13, framework 10 framework carry on the back Be configured with framework end face 15 near face 16, the scope near the front blow-off outlet 13 of framework end face 15 is formed above blow out Mouth 14.

And, framework 10 is respectively arranged with: by from the position by side, the framework back side 16 of fan 24 to framework end face The back side of shell 17 that the smoothed curve of the i.e. front end of the top surface 15a in the end near the blow-off outlet by the top 14 of 15 is formed；From fan 24 The position of the diagonally forward end housing that the most above upper end 11a is slightly tilted near the front blow-off outlet 13 of 11 before framework Median plane 18.

And, before framework, between 11 and heat exchanger 23, it is configured with filter 21, is provided with in the lower section of heat exchanger 23 Pallet 22.

It addition, be provided with remote control input unit 81 before framework 10, send from remote controller (suitable with indicating mechanism) 90 Signal be imported into control portion 80 (to this, additionally describe in detail) via remote control input unit 81.

(Wind direction regulating mechanism)

In fig. 2, front blowout can be provided with freely to rotate at front blow-off outlet 13 and adjust parts 30, blow up Outlet 14 can be provided with top blowout adjustment parts 40a freely to rotate and top blowout adjusts parts 40b.That is, by front Blowout adjusts parts 30, top blowout adjusts parts 40a and top blowout adjusts parts 40b and the front making them rotate Blowout adjusts component motors 30m, top blowout adjusts component motors 40am and top blowout adjusts component motors 40bm and forms " wind To guiding mechanism ".

It addition, be provided with interference detection sensor (input link) 70, table in detection adjusts parts with top blowout Close or the abutting by the ora terminalis of 11 sides before the framework i.e. minimum distance of top inner surface front end 45a of face 42a.Additionally, interfere Detection sensor 70 be not limited to directly to detect described close to or abut, it is also possible to from inner surface front end, top 45a away from position Put and indirectly detect.And, interfere the position of detection sensor 70 to be not limited to the position shown in Fig. 1～Fig. 5.

Additionally, due to it is same structure that top blowout adjusts parts 40a and top blowout adjustment parts 40b, so In the following description, about the structure that they are had etc., (such as, top blowout adjusts member outer surface 41a, top blowout is adjusted Integeral part outer surface 41b etc.), omit the record of the subscript " a, b " of reference.

It addition, vertical air conditioner 100 has top blowout adjustment parts 40a and top blows out and adjusts parts 40b, but this The bright quantity not limiting top blowout adjustment parts, top blowout adjustment parts 40a can use and can make top blow-off outlet 14 Whole region close structure, it is also possible to above cancellation blowout adjust parts 40b, it is also possible to up blowout adjust parts 40a and top blowout adjust outside parts 40b, add the blowout adjustment portion, top of the same structure arranging 1 or more than 2 Part.

(front blowout adjusts parts)

Substantially right angled triangle or generally fan-shaped when front blowout adjusts parts 30 side-looking, has: when operating stops Be connected with before framework 11 (in operation process, exist because of following rotation not with before framework 11 situations about being connected) plane I.e. front blowout adjusts member outer surface 31；Before the cross section substantially vertical with front blowout adjustment member outer surface 31 is circular arc Side's blowout adjusts parts bottom surface 32；The inclined-plane triangular shaped with approximate right angle suitable, operating stop time with housing central authorities Curved surface (cross section substantially circular arc) the i.e. front blowout that face 18 is connected adjusts component inner surface 33.

And, the front blowout adjustment component inner surface 33 of front blowout adjustment parts 30 is provided with front blowout and adjusts Integeral part fulcrum 34, front blowout adjusts parts 30 and can be set freely to rotate at front blowout adjustment parts fulcrum 34 In framework 10, and adjust component motors 30m by front blowout and rotate.

(top blowout adjusts parts)

Top blowout adjusts parts 40 to be had: be connected with framework end face 15 when operating stops (in operation process, depositing Situation not being connected with framework end face 15 because of rotation described later) plane i.e. top blowout adjustment member outer surface 41；With upper The top blowout that side's blowout adjusts member outer surface 41 parallel adjusts component inner surface 42；It is protrusively provided and blows out adjustment up Top blowout adjustment plate arm 43 on component inner surface 42；The top blowout being disposed over blowing out the front end of adjustment plate arm 43 is adjusted Integeral part fulcrum 44.

And, top blowout adjustment parts 40 blow out up and can be arranged on freely to rotate at adjustment parts fulcrum 44 In framework 10, and adjust component motors 40m by top blowout and rotate.

(when operating stops)

As it has been described above, when operating stops, in front, blowout adjusts member outer surface 31 and before framework 11 shapes being connected Under state, front blowout adjusts parts 30 and closes front blow-off outlet 13, and blowout adjusts member outer surface 41 and framework end face up Under 15 states being connected, top blowout adjusts blow-off outlet 14 above parts 40 closedown.

Now, ora terminalis i.e. front outer surface upper end 31a and the top of the top that front blowout adjusts member outer surface 31 is blown Go out to adjust substantially abutting by the i.e. top inner surface front end 45a of the ora terminalis of 11 sides before framework of component inner surface 42a.

Therefore, when operating stops, it is possible to closing front blow-off outlet 13 (blowout wind path during fore blow) and top blow-off outlet 14 (blowout wind path when above blowing) both sides, thus it is possible to the reduction of the aesthetic property of the outward appearance of suppression vertical air conditioner 100, and The intrusion in framework 10 of dust or foreign body can be suppressed.

(during cooling operation)

In figure 3, when cooling operation, become top blowout adjustment parts 40 and open top blow-off outlet 14 and front blowout Adjusting parts 30 and close the state of front blow-off outlet 13, the air (cold wind) having passed through fan 24 is sent to from top blow-off outlet 14 Top.And, top blowout adjusts the turning angle of parts 40 and can suitably set, it is possible to suitably adjust the blowout of cold wind Direction.

Now, front blowout adjusts the front blowout adjustment component inner surface 33 of parts 30 and is connected with housing median plane 18, Therefore defining from fan 24 to the wind path of top blow-off outlet 14, this wind path is adjusted component inner surface 33 and housing by front blowout Curved surface that median plane 18 is formed (cross section be substantially circular arc) and the back side of shell 17 relative with this curved surface surround.

Therefore, cold wind is smoothly guided in described wind path, afterwards, adjusts parts 40 by blowout side by top blowout To being adjusted to prescribed direction, it is possible to the disorder of suppression blowout wind.

It addition, be connected with housing median plane 18 and to be formed at before framework the cross section of 19 before the housing of 11 sides be circular arc, Parts bottom surface 32 is adjusted relative across small blowing out with the front that cross section is circular arc with gap.Therefore, when guiding cold wind, it is possible to Cold wind is blown into before housing 19 and front blowout situation about adjusting between parts bottom surface 32 be suppressed to minimum.

(when heating operating)

In the diagram, when heating operating, become top blowout and adjust blow-off outlet 14 and front blowout above parts 40 closedown Adjusting parts 30 and open the state of front blow-off outlet 13, the air (hot blast) having passed through fan 24 is sent to from front blow-off outlet 13 Front.

Now, the front blowout of front blowout adjustment parts 30 adjusts member outer surface 31 and top blowout adjustment parts 40 Top blowout adjust component inner surface 42 parallel, and with top blowout adjust component inner surface 42 substantially abut.Therefore, by shell The body back side 17, top blowout adjustment component inner surface 42 are formed with front blowout adjustment component inner surface 33 and are the most smoothly connected Curved surface (hereinafter referred to as " upper N-Side surf ").It addition, be connected with before housing median plane 18 and housing 19 and to form curved surface (following Be referred to as " lower N-Side surf "), thus formed surrounded by upper N-Side surf and lower N-Side surf, from fan 24 to the wind of front blow-off outlet 13 Road.

Therefore, hot blast is the most directed in described wind path, afterwards, is blown obliquely downward from front blow-off outlet 13 Go out, and easily make blowout wind flow downward, it is possible to easily make hot blast when heating arrive underfooting.

That is, vertical air conditioner 100 has the front blowout adjustment parts 30 that cross section is approximate right angle triangle, so, When heating operating, the front blowout that hot blast is adjusted parts 30 by front blowout adjusts component inner surface 33 (with approximate right angle triangle The inclined-plane of shape is suitable) guide, it is possible to blow out downwards.

Additionally, front blowout adjusts parts 30 can stop at the rotational angle of regulation, so, turn by suitably adjusting Dynamic angle, it is possible to adjust the blow-off direction of hot blast.

Now, it is not parallel with top blowout adjustment component inner surface 42 that front blowout adjusts member outer surface 31, so, make Top blowout adjustment parts 40a (or, top blowout adjusts parts 40a and top blowout adjusts parts 40b both sides) rotation (figure In be clockwise) and dodge, it is possible to realize front blowout and adjust the rotation of parts 30, adjust parts 30 to process in front blowout Rotational angle rotate while, make top blowout adjust parts 40a and rotate (in figure, counterclockwise), make outer surface upper end, front 31a adjusts component inner surface 42 with top blowout and substantially abuts.

In addition it is also possible to become hollow structure by making front blowout adjust parts 30, and realize lightweight.

(rotational action)

In Figure 5, the rotational action opened when front blowout adjusts parts 30 is illustrated.

Blowout adjusts above parts 40 closedown under the state of blow-off outlet 14 up, and front to be made blowout adjusts parts 30 turns Time dynamic, outer surface upper end, front 31a adjusts component inner surface 42a with top blowout to be interfered.Therefore, carry out above major general blowing out Adjust the action (in figure, clockwise) that parts 40a temporarily opens, it is possible to avoid described interference.

Additionally, in Figure 5, make top blowout adjust parts 40a and top blowout adjusts parts 40b both sides and rotates, but In the case of top blowout adjustment parts 40a and top blowout adjustment parts 40b does not interferes, only make top blowout adjustment parts 40a rotates.

And, adjust in front blowout and near outer surface upper end, the front 31a of parts 30, be provided with blowout adjustment portion, front Part fulcrum 34, rotates even if adjusting parts 30 in the blowout of only front, also can ignore front outer surface upper end 31a and top blowout is adjusted In the case of the interference of integeral part inner surface 42, it is not necessary to make top blowout adjust parts 40a and rotate.

(control system)

In figure 6, vertical air conditioner 100 has the starting/stopping for setting vertical air conditioner 100 or operation mode Remote controller 90.It addition, be provided with the ora terminalis i.e. front outer surface of the top for front blowout being adjusted member outer surface 31 What end 31a and top blowout adjusted component inner surface 42a is between the inner surface front end 45a of top by the ora terminalis of 11 sides before framework Minimum distance close to or abut interference detection sensor (input link) 70 carrying out detecting, front blowout adjusts parts 30 Adjusting component motors (output link) 30m by front blowout and rotate, top blowout adjusts parts 40a, 40b respectively by upper Side's blowout adjusts component motors (output link) 40am, 40bm and rotates.

That is, the instruction content inputted via remote control input unit 81 from remote controller 90 and the detection letter of interference detection sensor 70 Breath is transfused to control portion 80, and output makes front blowout adjust component motors 30m respectively and top blowout adjusts component motors The signal that 40am, 40bm rotate.

(flow chart)

In the figure 7, control portion 80 is cooling operation according to the signal judgement from remote controller 90 or heats operating (S1), Such as, in the case of cooling operation, send according to operating menu and make top blowout adjust what component motors 40am, 40bm rotated Signal, and open top blowout adjustment parts 40a, 40b (S2).According to operation mode, there is only top blowout and adjust parts The situation that one side of 40a, 40b rotates.

Then, start cooling operation, make cold wind upward direction blow out (S3) as described above.Then, in input from distant When controlling the stopping signal of device 90 (S4), stop kind of refrigeration cycle and fan 24 (S5), and close top blowout adjustment parts 40a, 40b (S6)。

On the other hand, in the case of heating operating, first, send make top blowout adjust component motors 40am rotate Signal, with not with front blowout adjust parts 30 interfere degree, somewhat open top blowout adjust parts 40a (S7), then, Send according to the menu that operates and make front blowout adjust the signal that component motors 30m rotates, and open front blowout adjustment parts 30 (S8).Then, make top blowout adjust parts 40a and return to and close top blow-off outlet 14 (S9), start to heat operating (S10). Then, hot blast is blown out to general horizontal direction as described above.

It addition, when input is from the stopping signal of remote controller 90 (S11), stop kind of refrigeration cycle and fan 24 (S12), with The most somewhat open top blowout when heating operation start and adjust parts 40a (S13), then, close blowout adjustment portion, front Part 30 (S14), finally, above closedown, blowout adjusts parts 40a (S15).

[embodiment 2: vertical air conditioner]

Fig. 8～Figure 10 illustrates schematically that the vertical air conditioner of embodiments of the present invention 2, and Fig. 8 is to represent when operating stops The sectional view of Wind direction regulating mechanism, the sectional view of Wind direction regulating mechanism when Fig. 9 is to represent cooling operation, Figure 10 is to represent system The sectional view of the action of Wind direction regulating mechanism during heat run.Additionally, the part identical with embodiment 1 or suitable part mark Note identical reference, and clipped explanation.It addition, each figure simply schematic diagram, the invention is not restricted to described mode.

In figs. 8 to 10, vertical air conditioner 200 is by substantially straight for the cross section in vertical air conditioner 100 (embodiment 1) The front blowout adjustment parts 30 of angle triangle change over the front blowout of tabular in the same manner as top blowout adjustment parts 40 and adjust The structure of integeral part 50.

(when operating stops)

In fig. 8, the front blowout that vertical air conditioner 200 is had adjusts parts 50 and adjusts parts horse by front blowout Reach 50m and rotate, and have: be connected with before framework 11 when operating stops (in operation process, existing because of rotation not With before framework 11 situations about being connected) plane i.e. front blowout adjustment member outer surface 51；Component facade is adjusted with front blowout The front blowout adjustment component inner surface 52 that face 51 is parallel；It is protrusively provided before front blowout adjusts on component inner surface 52 Side's blowout adjustment plate arm 53；The front blowout of the front end being arranged on front blowout adjustment plate arm 53 adjusts parts fulcrum 54.

And, front blowout adjusts parts 50 and can be set freely to rotate at front blowout adjustment parts fulcrum 54 In framework 10, and adjust component motors 50m by top blowout and rotate.

Now, in front blows out ora terminalis i.e. front outer surface upper end 51a and the top of the top adjusting member outer surface 51 Front end surface 45 substantially abuts.

Therefore, when operating stops, it is possible to closing front blow-off outlet 13 and top blow-off outlet 14 both sides, it is possible to suppression The reduction of the aesthetic property of the outward appearance of vertical air conditioner 200, and the intrusion in framework 10 of dust or foreign body can be suppressed.

(during cooling operation)

In fig .9, when cooling operation, become top blowout adjustment parts 40 and open top blow-off outlet 14 and front blowout Adjusting parts 50 and close the state of front blow-off outlet 13, the air (cold wind) having passed through fan 24 is sent to from top blow-off outlet 14 Top.

Now, front blowout adjusts parts 50 and rotates (in figure, counterclockwise), front blowout adjustment component inner surface 52 times Ora terminalis i.e. forward inner surface lower end 52b housing median plane 18 of 19 before housing of side moves about, thus is formed from fan 24 wind paths arriving top blow-off outlet 14, this wind path is formed by front blowout adjustment component inner surface 52 and housing median plane 18 Curved surface and the back side of shell 17 relative with this curved surface surround.

Therefore, cold wind is smoothly guided in described wind path, afterwards, adjusts parts 40 by blowout side by top blowout To being adjusted to prescribed direction, it is possible to the disorder of suppression blowout wind.

It addition, the cross section of 19 is circular arc before housing, its radius of curvature adjusts parts fulcrum 54 and front with front blowout Distance between the 52b of inner surface lower end is roughly the same (for Zhun Que, slightly larger), so, when guiding cold wind, cold wind is blown into housing Above the situation between 19 and forward inner surface lower end 52b suppresses minimum.

(when heating operating)

In Fig. 10, when heating operating, become blow-off outlet 14 and front above blowout adjustment parts 40 closedown of top and blow Going out to adjust parts 50 and open the state of front blow-off outlet 13, the air (hot blast) having passed through fan 24 is sent from front blow-off outlet 13 Forwards.

Now, front blowout adjusts parts 50 and tilts, back side of shell 17, top blowout adjust component inner surface 42 and front Side's blowout adjusts component inner surface 52 and forms the curved surface (hereinafter referred to as " upper N-Side surf ") being connected substantially smoothly.Further, since Curved surface (hereinafter referred to as " lower N-Side surf ") is conjointly formed, so being formed by upside bent with before housing median plane 18 and housing 19 That face and lower N-Side surf surround, from fan 24 to the wind path of front blow-off outlet 13.

Therefore, hot blast is smoothly guided in described wind path, afterwards, blows out obliquely downward from front blow-off outlet 13, Blowout wind can be easily made to flow downward such that it is able to easily to make hot blast when heating arrive underfooting.

Additionally, front blowout adjusts parts 50 can stop at the rotational angle of regulation, therefore, turn by suitably adjusting Dynamic angle, it is possible to adjust the blow-off direction of hot blast.

Now, interfere with top blowout adjustment parts 40a owing to front blowout adjusts parts 50, so as above (embodiment party Formula 1) described, make top blowout adjust parts 40a (or top blowout adjusts parts 40a and top blowout to adjust parts 40b double Side) rotate (in figure, rotating clockwise) and dodge, it is possible to realizing front blowout and adjust the rotation of parts 50, in front, blowout is adjusted While integeral part 50 rotates with the rotational angle processed, make top blowout adjustment parts 40a rotate and (in figure, turn counterclockwise Dynamic), make outer surface upper end, front 51a adjust component inner surface 42 with top blowout and substantially abut.

[embodiment 3: vertical air conditioner]

Figure 11～Figure 14 B illustrates schematically that the vertical air conditioner of embodiments of the present invention 3, and Figure 11 is partial enlargement earth's surface Showing that operating stops the sectional view of posture, Figure 12 is to extract a part (front blowout adjusts parts) for component parts out and be indicated Sectional view, Figure 13 A is that the part (the top blowout being arranged in front adjusts parts) extracting component parts out and is indicated Sectional view, Figure 13 B is that the part (the top blowout being arranged in rear adjusts parts) extracting component parts out and is indicated Sectional view, Figure 14 A is to extract the part (framework end face) of component parts the sectional view being indicated out, and Figure 14 B is to extract out The part (before housing) of component parts the sectional view being indicated.Additionally, the part identical with embodiment 1 or suitable The part identical reference of mark, and clipped explanation.Additionally, each figure simply schematic diagram, the invention is not restricted to Described mode.

In Figure 11～Figure 14 B, vertical air conditioner 300 is respectively by the vertical air conditioner 100 of explanation in embodiment 1 Front blowout adjusts parts 30 and is replaced as front blowout adjustment parts (hereinafter referred to as " F parts ") 330, and top blowout is adjusted Parts 40 (above for being exactly, blowout adjusts parts 40a, 40b) are replaced as top blowout adjustment parts 340 (to be come exactly Say it is that top blowout adjusts parts (hereinafter referred to as " U parts ") 340a, 340b), and at the front end of the top surface 15a of framework end face 15 Form framework front end of the top surface inclined plane (hereinafter referred to as " framework top surface inclination face ") 315, and make before housing 19 to become plane Housing before 319, be formed with housing cascaded surface 318 between 319 before face 18, centre and housing in the housing.

It addition, vertical air conditioner 300 has U parts 340a and U parts 340b, but the present invention does not limit top blowout and adjusts The quantity of parts, can cancel U parts 340b, merely with the whole region of blow-off outlet 14 above U parts 340a closedown, it is also possible to After U parts 340a, side arranges the U parts 340b of more than 2.

(front blowout adjusts parts)

In fig. 12, F parts 330 side-looking is approximate right angle triangle or generally fan-shaped, and has when operating stops and frame Before body 11 be connected (in operation process, exist because of following rotation not with before framework 11 situations about being connected) plane is Front blowout adjusts member outer surface (hereinafter referred to as " F outer surface ") 31；Outer surface lower end, front 31b phase with F outer surface 31 Connect and the plane i.e. front vertical relative to F outer surface 31 blowout adjusts parts bottom surface (hereinafter referred to as " F bottom surface ") 334；Outside with F The front blowout that outer surface upper end, the front 31a on surface 31 is connected adjusts member top face (hereinafter referred to as " F end face ") 335.

It addition, also have: be connected with the lateral margin 335a of the opposition side of outer surface upper end, the front 31a of F end face 335 and and F Front blowout adjustment member top face end difference (hereinafter referred to as " F end face end difference ") 331 that outer surface 31 is parallel；With F end face rank Ladder portion 331 be connected and relative to F outer surface 31 towards more tend to 31b side, outer surface lower end, front more from F outer surface 31 away from The front blowout that direction tilts adjusts member top face rake (hereinafter referred to as " F top surface inclination portion ") 332.

That is, F end face end difference 331 and F top surface inclination portion 332 " front blowout adjusts parts by overlapping range " is formed.

It addition, also have: be connected with the lateral margin 33a of the opposition side of the F end face end difference 331 in F top surface inclination portion 332 and phase For F outer surface 31 towards more tend to 31b side, outer surface lower end, front more from F outer surface 31 away from direction with arc-shaped ( In the present invention, the curve that circular arc, an oval part, a part etc. for spiral smoothly bend is referred to as " arc-shaped ") flat The front blowout tilted adjusts component inner surface (hereinafter referred to as " F inner surface ") 33 suitablely；F top surface inclination with F inner surface 33 The lateral margin 33b of the opposition side in portion 332 is connected and the blowout of parallel with F outer surface 31 front adjust component inner surface end difference (with It is referred to as " F inner surface end difference " down) 333.

And, the lateral margin 32b and outer surface lower end, front 31b of the opposition side of the lateral margin 33b of F inner surface end difference 333 leads to Cross plane F bottom surface 334 to be connected.

And, F inner surface 33 is provided with front blowout and adjusts parts fulcrum 34.

(the top blowout being arranged in close front adjusts parts)

In figure 13a, the U parts 340a being arranged in close front has: stop with framework end face 15 when operating stops (in operation process, there is situation about not being connected because of following rotation with framework end face 15) plane in the same face i.e. goes up Side's blowout adjusts member outer surface (hereinafter referred to as " U outer surface ") 41a；The top blowout parallel with U outer surface 41a adjusts parts Inner surface (hereinafter referred to as " U inner surface ") 42a；Adjustment plate arm 43a is blown out above being protrusively provided on U inner surface 42a；If The top blowout of the front end putting blowout adjustment plate arm 43a up adjusts parts fulcrum 44a.

And, width (the upper outer surface front end 47a and upper outer surface rear end 48a of the U outer surface 41a of U parts 340a Distance) width (top inner surface front end 45a and the distance of inner surface rear end, top 46a) than U inner surface 42a is long, upper The top blowout being formed with cross section arc-shaped between side outer surface front end 47a and inner surface front end, top 45a adjusts member forward end Arc-shaped face (hereinafter referred to as " UF arc-shaped face ") 341a.That is, UF arc-shaped face 341a define U parts 340a " top is blown Go out to adjust overlapping range before parts ".

It addition, also have: be connected with upper outer surface rear end 48a and blowout adjustment portion, the top vertical with U outer surface 41a Part rear end vertical (hereinafter referred to as " UR vertical ") 342a；Contrary to the upper outer surface rear end 48a of UR vertical 342a The plane top blowout that the end 49a and inner surface rear end, top 46a of side is attached adjust parts rear end inclined plane (with It is referred to as " UR inclined plane " down) 343a.That is, UR inclined plane 343a defines " top blowout adjusts overlapping range after parts ".

Additionally, when operating stopping (U outer surface 41a and framework end face 15 are positioned at the same face), UF arc-shaped face 341a In the convex form towards oblique upper, front, UR inclined plane 343a is towards front obliquely downward.

(be arranged in the top blowout near below and adjust parts)

In Figure 13 B, after near configuration U parts 340b have: operating stop time stopping at framework end face 15 The i.e. top blowout of (in operation process, there is situation about not being connected because of following rotation with framework end face 15) plane of the same face Adjust member outer surface 41b；The top blowout adjusting member outer surface 41b with top blowout parallel adjusts component inner surface 42b； It is protrusively provided the top blowout adjustment plate arm 43b that blowout up adjusts on component inner surface 42b；It is disposed over blowout to adjust The top blowout of the front end of imposite arm 43b adjusts parts fulcrum 44b.

And, U parts 340b has: adjust the upper of member outer surface (hereinafter referred to as " U outer surface ") 41b with top blowout Side outer surface front end 47b be connected and when operating stops (U outer surface 41b with framework end face 15 be positioned at the same face) the closer to above The top blowout of the cross section arc-shaped being more gradually positioned at lower section adjusts member outer surface nose circle cambered surface (hereinafter referred to as " UF cylindrical Cambered surface ") 341b；With inner surface front end, the top 45b that top blowout adjusts component inner surface (hereinafter referred to as " U inner surface ") 42b It is connected and adjusts parts table when operating stops closer to blowout above the cross section arc-shaped below being above more gradually positioned at Hold arc surface (hereinafter referred to as " UF inner arc surface ") 342b in front.

And, the interval of UF exterior arc surface 341b and UF inner arc surface 342b is closer to the most more tapering into, respective Top adjusts member forward end top end face (hereinafter referred to as " UF top end face ") by the top blowout of cross section arc-shaped, and 343b is smoothly It is connected.

That is, UF exterior arc surface 341b and UF inner arc surface 342b define " by overlapping model before top blowout adjustment parts Enclose ".

It addition, also have: be connected with the upper outer surface rear end 48b of U outer surface 41b and vertical with U outer surface 41b upper Side's blowout adjusts parts rear end vertical (hereinafter referred to as " UR vertical ") 344b；After upper outer surface to UR vertical 344b After the plane top blowout that the end 49b and inner surface rear end, top 46b of the opposition side of end 48b is attached adjusts parts End inclined plane (hereinafter referred to as " UR inclined plane ") 345b.That is, UR inclined plane 345b defines " overlapping after top blowout adjustment parts Scope ".

Additionally, when operating stopping (U outer surface 41b and framework end face 15 are positioned at the same face), UF exterior arc surface 341b And UF inner arc surface 342b is in the convex form towards oblique upper, front, UR inclined plane 345b is towards front obliquely downward.

(framework end face)

In Figure 14 A, on framework end face 15, it is provided with and is connected with front end of the top surface 15a and with closer to being above located The framework top surface inclination face 315 that tilts of mode of lower section, framework top surface inclination face 315 defines that " framework end face is by overlapping model Enclose ".

It addition, be formed parallel to be positioned at than position on the lower, framework top surface inclination face 315 with framework top surface inclination face 315 Framework end face bottom incline 316, framework end face bottom incline 316 is provided with absorbent material 317, absorbent material 317 Surface (upper surface) is connected with framework top surface inclination face 315.

(housing cascaded surface)

In Figure 14 B, housing cascaded surface 318 is formed at before housing median plane 18 and housing between 319, and with framework before Face 1 is parallel.

(when operating stops)

When operating stops, when F outer surface 31 is connected with before framework 11, F parts 330 close front blowout Mouth 13, when U outer surface 41a, 41b are connected with framework end face 15, blow-off outlet 14 above U parts 340a, 340b closedown (hereinafter referred to as " operating stops posture ").

Now, the U outer surface 41a of the U parts 340a of the F end face 335 of F parts 330 and front face side is positioned at the same face, U The UF arc-shaped face 341a of parts 340a i.e. " top blowout adjusts overlapping range before parts " with by the F end face ladder of F parts 330 The recess (depression) i.e. that top surface inclination portion 332 of portion 331 and F is formed " front blowout adjusts parts by overlapping range " is overlapping, UF circle 341a and F top surface inclination portion, arcuation face 332 contacts.

It addition, the U outer surface 41b of the U parts 340b of the U outer surface 41a of the U parts 340a of front face side and below side is positioned at In the same face, it is positioned at the UF exterior arc surface 341b of U parts 340b of downside i.e. " by overlapping range before top blowout adjustment parts " Overlapping with UR inclined plane 343a of the U parts 340a being positioned at upside i.e. " overlapping range after top blowout adjustment parts ", UF cylindrical Cambered surface 341b contacts with UR inclined plane 343a.

And, the U outer surface 41b of U parts 340b and framework end face 15 are positioned at the same face, and the UR of U parts 340b tilts Face 345b i.e. " top blowout adjusts overlapping range after parts " and the framework top on the front end of the top surface 15a being formed at framework end face 15 Face inclined plane 315 i.e. " by overlapping range before framework " is overlapping, and UR inclined plane 345b contacts with framework top surface inclination face 315.

As it has been described above, vertical air conditioner 300 is under operating stops posture, F parts 330 and U parts 340a, U parts 340a With U parts 340b and U parts 340b and framework end face 15 the most partly (in described overlapping range and described by overlapping model In enclosing) overlapping, so the top blow-off outlet 14 of framework 10 is reliably capped very close to each otherly.

Therefore, even if in the case where there, i.e. although with size design very close to each other in design drawing, but parts Formed precision and assembly precision produce deviation, also will not form gap between parts, and aesthetic property improves, and is prevented from dust Invade Deng in upper direction framework 10.

It addition, 11 be positioned at the same face, F inner surface end difference 333 and shape before the F outer surface 31 of F parts 330 and framework The housing cascaded surface 318 between 319 is become before face 18, centre and housing in the housing to abut, therefore, it is possible to prevent dust etc. from front Invade in framework 10.

More than additionally, describe in all parts overlapping portion each other, the situation of all parts contact, but the present invention It is not limited to this, noise reduction during for realizing contact (collision) or subtract sound, it is also possible to it is (extra large that the side in overlapping portion arranges elastomeric material The material of the soft material such as silk floss, flocked material), it is to avoid overlapping portion directly contact each other.

And, the side making overlapping portion is plane, makes the opposing party become to the convex cross section arc-shaped of this planar side, but also may be used So that a side is cross section arc-shaped, making the opposing party is plane.I.e., it is possible to so that F top surface inclination portion 332 becomes rearward oblique upper To convex cross section arc-shaped, UF arc-shaped face 341a is made to become plane.It is equally possible that make UR inclined plane 343a become to The cross section arc-shaped that rear obliquely downward is convex, make UF exterior arc surface 341b become more tend to front tilt downwards plane.

Furthermore, it is also possible to make housing cascaded surface 318 non-parallel relative to before framework 11 (inclination), make F inner surface ladder Portion 333 becomes non-parallel (inclination) with described non-parallel same degree relative to F outer surface 31.

Figure 15～Figure 19 illustrates schematically that the vertical air conditioner of embodiments of the present invention 3, and Figure 15 is to amplify partially Representing the sectional view of cooling operation (above blowing operating) posture, Figure 16 is to amplify to represent partially and heat operating (under blow operating) appearance The sectional view of gesture, Figure 17 A and Figure 17 B are the sectional views representing and becoming the action heating operating posture, and Figure 18 is to represent control system The block diagram of system, Figure 19 A and Figure 19 B is the flow chart for control system is described.Additionally, the part identical with embodiment 1 or The reference that suitable part mark is identical, and clipped explanation.Additionally, each figure simply schematic diagram, the present invention is not It is limited to described mode.

(posture during cooling operation)

In fig .15, when cooling operation, become U parts 340a, 340b open top blow-off outlet 14 and F parts 330 close Closing the state of front blow-off outlet 13, the air (cold wind) having passed through fan 24 is sent to top from top blow-off outlet 14.

Now, the U parts 340b being arranged in rear invades in framework 10, stops at (root almost parallel with back side of shell 17 The angle determined according to operating condition) position, on the other hand, be arranged in the U parts 340a in front outside framework 10 prominent Under state, stop at substantially vertical (for exactly, according to the operating condition being slightly tilted with being located front above more tending to Determine angle) position.And, the F inner surface 33 of F parts 330 is smoothly connected (hereinafter referred to as with housing median plane 18 " cooling operation posture ").

Therefore, define the curved surface (cross section substantially circular arc) formed by F inner surface 33 and housing median plane 18 and with That the back side of shell 17 that this curved surface is relative surrounds, from fan 24 to the wind path of top blow-off outlet 14, by fan 24 carry cold Wind blows out towards oblique upper.

Now, owing to being arranged in the U parts 340b at rear close to fan 24, it is possible to guide cold wind more reliably.

It addition, F inner surface end difference 333 contacts with housing cascaded surface 318, it is possible to prevent by fan 24 carry cold 11 side leakage before wind direction framework.And, if in one or both setting of F inner surface end difference 333 and housing cascaded surface 318 Elastomer is (as described above except noise reduction with subtract sound, additionally it is possible to realize bubble-tight raising.Not shown), it becomes possible to more reliably Prevent described leakage.

And, even if assuming to define gap, due to housing between F inner surface end difference 333 and housing cascaded surface 318 Above 319 is relative across small gap with F bottom surface 334, thus before housing median plane 18 to framework 11 stream ( Gap) bend in the midway of stream with cross section L-shaped, so the cold wind spilt to the front face side of framework 10 via described stream is pressed down Prepare minimum.

(action when cooling operation starts)

In fig .15, the action of U parts 340a, 340b when starting cooling operation illustrates.

When operating stops, the part overlap of the U parts 340b of the U parts 340a of front face side and below side, thus not Both can be made to rotate simultaneously.Therefore, first, move downwards for the UF arc-shaped face 341b making the side below be in downside, make The U parts 340b at rear (, counterclockwise) rotates, and stops at stopping set in advance in figure to the direction shown in arrow R1 Position.Then, for making UR inclined plane 343a being positioned at upside in front face side move downwards, make the U parts 340a in front to arrow Head direction shown in R2 (in figure, rotates clockwise), and stops at stop position set in advance.

(action at the end of cooling operation)

On the other hand, at the end of cooling operation, implement each step when described cooling operation starts on the contrary.That is, first First, the U parts 340a making front (in figure, counterclockwise) rotates, by the U parts in front to the direction contrary with arrow R2 The UF arc-shaped face 341a of 340a is pressed against the F top surface inclination portion 332 of F parts 330.

Then, the U parts 340b making rear (in figure, rotates, after inciting somebody to action clockwise) to the direction contrary with arrow R1 The UF arc-shaped face 341b of the U parts 340b of side is pressed against UR inclined plane 343a of the U parts 340a in front.Now, the U at rear UR inclined plane 345b of parts 340b contacts with framework top surface inclination face 315.

(heating posture during operating)

In figure 16, when heating operating, become blow-off outlet 14 and F parts 330 dozens above U parts 340a, 340b closedown Opening the state of front blow-off outlet 13, the air (hot blast) having passed through fan 24 is sent to front from front blow-off outlet 13.

Now, the U inner surface 42b of the U parts 340b at the U inner surface 42a of the U parts 340a in front, rear and framework top Face 15 is positioned at the same face, and a respective part is the most overlapping.It addition, the F outer surface 31 of F parts 330 and the U in front U inner surface 42a (for exactly, the 45a of inner surface front end, the top) contact of parts 340a, becomes with U outer surface 41a abreast Close posture (hereinafter referred to as " heating operating posture ").

Therefore, back side of shell 17, U inner surface 42b, U inner surface 42a and F inner surface 33 song being smoothly connected is formed Face (hereinafter referred to as " upper N-Side surf ").It addition, formed, by before housing median plane 18 and housing 319, the curved surface being smoothly connected (hereinafter referred to as " lower N-Side surf "), thus formed surrounded by upper N-Side surf and lower N-Side surf, from fan 24 to front blow-off outlet The wind path of 13.

Therefore, hot blast is smoothly guided in described wind path, afterwards, oliquely downward blows out from front blow-off outlet 13, energy Enough easily make blowout wind direction flowing underneath such that it is able to easily make hot blast when heating arrive underfooting.

Now, framework end face 15 and below the U inner surface 42b of side and the U inner surface 42b and the U of front face side of side below An inner surface 42a part each as described above is overlapping, the U inner surface 42a of front face side and F outer surface 31 localized contact, thus Can hot blast be suppressed minimum from spilling of upper N-Side surf.

That is, vertical air conditioner 300 has the F parts 330 that cross section is right angled triangle or cross section is sector, thus is heating During operating, hot blast is guided by the F inner surface 33 (suitable with the inclined-plane of right angled triangle) of F parts 330, it is possible to by hot blast downwards Blowout.

Additionally, due to F parts 330 can stop at the rotational angle of regulation, so by suitably adjusting rotational angle, The blow-off direction of hot blast can be adjusted.Now, the U of outer surface upper end, the front 31a of F the parts 330 and U parts 340a of front face side Inner surface 42a contacts airtightly.

(heating action during operation start)

In Figure 16, Figure 17 A and Figure 17 B, the action to the F parts 330 when heating operating illustrates.Stop in operating Time, the UF arc-shaped of the U parts 340a being covered with front on member top face rake 332 is adjusted in the blowout of the front of F parts 330 Face 341a (overlapping), it is thus impossible to eliminate described overlap, it is impossible to makes F parts 330 rotate.

I.e., first, as during described cooling operation, for making the UF exterior arc surface 341b being in downside move downwards, The U parts 340b making rear (, counterclockwise) somewhat rotates and stops in figure to the direction shown in arrow R3.Then, for making The UF arc-shaped face 341a being in upside is moved upward, make the U parts 340a in front to shown in arrow R4 direction (in figure, Somewhat rotate clockwise) and stop.Now, the rotational angle of the U parts 340b at rear becomes following degree, i.e. even if The U parts 340a making front rotates, and the degree that upper outer surface rear end 48a does not interferes with UF top end face 343b is (with reference to figure 17A)。

Therefore, F parts 330 are made (in figure, to rotate clockwise), until F outer surface 31 to the direction shown in arrow R5 Become level (with reference to Figure 17 B).

And, make the U parts 340a in front to (direction shown in arrow R6 is (in figure, inverse with described direction in opposite direction Clockwise)) somewhat rotate, top blowout is adjusted component inner surface 42a and is pressed against on F outer surface 31, and, make rear U parts 340b is to (direction (in figure, clockwise)) shown in arrow R7 somewhat rotates, will with described direction in opposite direction UF exterior arc surface 341b is pressed against in UR inclined plane 343a of U parts 340a in front.

(heating the action at the end of operating)

On the other hand, at the end of heating operating, described in enforcement, heat each step during operation start on the contrary.That is, first First, make the U parts 340b at rear somewhat rotate to the direction (in figure, counterclockwise)) contrary with arrow R7, make the U in front Parts 340a (in figure, somewhat rotates clockwise) to the direction contrary with arrow R6.

Therefore, F parts 330 are made (in figure, counterclockwise) to rotate, by F inner surface rank to the direction contrary with arrow R5 Ladder portion 333 is pressed against on housing cascaded surface 318.

And, make the U parts 340a in front (in figure, counterclockwise) rotate, by front to the direction contrary with arrow R4 The UF arc-shaped face 341a of the U parts 340a of side is pressed against in the F top surface inclination portion 332 of F parts 330.

Then, the U parts 340b making rear (in figure, rotates, after inciting somebody to action clockwise) to the direction contrary with arrow R3 The UF exterior arc surface 341b of the U parts 340b of side is pressed against in UR inclined plane 343a of U parts 340a in front.Now, rear UR inclined plane 345b of U parts 340b contact with framework top surface inclination face 315.

(control system)

In figure 18, vertical air conditioner 300 has the starting/stopping for setting vertical air conditioner 300 and operation mode Remote controller 390.It addition, F parts 330 adjust component motors (output mechanism) 330m by front blowout and rotate, U parts 340a, 340b adjust component motors (output mechanism) 340am, 340bm by top blowout respectively and rotate.

That is, it is transfused to control portion 380 from remote controller 390 via the instruction content that remote control input unit 381 inputs, and output makes Front blowout adjusts component motors 330m and top blowout adjusts the signal that component motors 340am, 340bm rotate respectively.

(flow chart)

In Figure 19 A, Figure 19 B and Figure 15～Figure 17 B, the action in the control portion 380 in vertical air conditioner 300 is said Bright.

First control portion 380 judges it is that cooling operation (above blowing operating) still heats according to the signal from remote controller 390 Operating (under blow operating) (S1).

(when cooling operation starts)

In fig. 19 a, when cooling operation starts, as it has been described above, when operating stops, U parts 340a and U parts 340b Local is overlapping, so both can not be made to rotate simultaneously.Therefore, first, for making to be in the UF exterior arc surface 341b of downside downwards Mobile, make the U parts 340b at rear (in figure, counterclockwise) rotate to the direction shown in arrow R1, and stop at and set in advance Fixed stop position (S31).

Then, for making UR inclined plane 343a being in upside move downwards, make the U parts 340a in front to arrow R2 institute The direction shown (in figure, rotates clockwise), and stops at stop position set in advance (S32).

That is, control portion 380 and operating menu correspondingly sends and makes top blowout adjustment component motors 340am, 340bm rotate Signal, make U parts 340a, 340b rotate, and open top blow-off outlet 14.Then, owing to becoming cooling operation posture (reference Figure 15), so starting kind of refrigeration cycle and fan 24 (S33).

(action at the end of cooling operation)

And, when remote controller 390 input stops signal (S34), stop kind of refrigeration cycle and fan 24 (S35).

Then, each step when described cooling operation starts is implemented on the contrary.I.e., first, make the U parts 340a in front to The direction contrary with arrow R2 (in fig .15, counterclockwise) rotates, by the UF arc-shaped face 341a of the U parts 340a in front It is pressed against the F top surface inclination portion 332 (S36) of F parts 330.

Then, make the U parts 340b at rear to the direction contrary with arrow R1 (in fig .15, rotate clockwise), The UF exterior arc surface 341b of the U parts 340b at rear is pressed against UR inclined plane 343a (S37) of the U parts 340a in front.This Time, UR inclined plane 345b of the U parts 340b at rear contacts with framework top surface inclination face 315, and becomes operating stopping posture.

(heating action during operation start)

In fig. 19b, as it has been described above, when operating stops, the front blowout of F parts 330 adjusts member top face rake 332 are covered (overlapping) by the UF arc-shaped face 341a of the U parts 340a in front, when the most not eliminating described overlap, it is impossible to make F Parts 330 rotate.

I.e., first, when described cooling operation similarly, for making the UF exterior arc surface 341b being in downside move downwards Dynamic, make the U parts 340b at rear (, counterclockwise) somewhat rotate and stop in Figure 17 A to the direction shown in arrow R3 (S41)。

Then, for making the UF arc-shaped face 341a being in upside be moved upward, make the U parts 340a in front to arrow R4 Shown direction (in Figure 17 A, somewhat rotates clockwise) and stops (S42).Now, the U parts 340b at rear turn Dynamic angle becomes following degree, i.e. even if making the U parts 340a in front rotate, upper outer surface rear end 48a the most not with UF top The degree (with reference to Figure 17 A) that face 343b interferes.

Therefore, F parts 330 are made (in Figure 17 B, to rotate clockwise) and stop to the direction shown in arrow R5, directly Level (S43) is become to F outer surface 31.

And, make the U parts 340a in front somewhat turn to the direction (in figure 16, counterclockwise) shown in arrow R6 Dynamic, U inner surface 42a is pressed against F outer surface 31 (S44).

And, make the U parts 340b at rear somewhat turn to the direction (in figure 16, clockwise) shown in arrow R7 Dynamic, UF exterior arc surface 341b is pressed against UR inclined plane 343a (S45) of the U parts 340a in front.

Then, become and heat operating posture, start kind of refrigeration cycle and fan 24 (S46).

(heating the action at the end of operating)

And, when remote controller 390 input stops signal (S47), stop kind of refrigeration cycle and fan 24 (S48).

And, heat each step during operation start on the contrary described in enforcement.I.e., first, make the U parts 340b at rear to The direction contrary with arrow R7 (in figure 16, counterclockwise) somewhat rotates and stops (S49), making the U parts 340a in front Somewhat rotate to the direction (in figure 16, clockwise) contrary with arrow R6 and stop (S50).

Therefore, F parts 330 are made (in Figure 17 B, counterclockwise) to rotate, by table in F to the direction contrary with arrow R5 Face end difference 333 is pressed against housing cascaded surface 318 (S51).

And, make the U parts 340a in front to the direction contrary with arrow R4 (in Figure 17 A, counterclockwise) rotate, The UF arc-shaped face 341a of the U parts 340a in front is pressed against the F top surface inclination portion 332 (S52) of F parts 330.

Then, make the U parts 340b at rear to the direction contrary with arrow R3 (in Figure 17 A, rotate clockwise), The UF exterior arc surface 341b of the U parts 340b at rear is pressed against UR inclined plane 343a (S53) of the U parts 340a in front.This Time, UR inclined plane 345b of the U parts 340b at rear contacts with framework top surface inclination face 315, becomes operating and stops posture.

(variation)

Figure 20 A～Figure 20 C illustrates schematically that the deformation of the component parts of the vertical air conditioner of embodiments of the present invention 3 Example, Figure 20 A is before housing, and Figure 20 B is that top blowout adjusts parts, and Figure 20 C is that front blowout adjusts parts.Additionally, Figure 11 ～the identical part of the parts in Figure 19 or suitable part mark identical reference, and clipped explanation. Additionally, each figure simply schematic diagram, the invention is not restricted to described mode.

In Figure 20 A, before housing 419 be arrange on 319 before housing parallel with before framework 11 multiple concavo-convex The structure of 419a.Therefore, cold wind is difficult to by before housing 419 and clearance leakage between F bottom surface 334.

Additionally, the shapes and sizes of concavo-convex 419a do not limit, such as, recess be the degree of depth be that the cross section of about 1mm is square Shape, the width (recess interval each other) of protuberance is about 1mm.

It addition, be provided with elastomeric element 418 on housing cascaded surface 318.Owing to elastomeric element 418 has rubber components etc. Elasticity, so noise reduction, subtracting sound or air-tightness (sealing) and improve.

In Figure 20 B, top blowout adjust parts 440a, 440b be the U inner surface 42a in U parts 340a, 340b, 42b is upper forms multiple groove 441a, 441bs' parallel with inner surface front end, top 45a, 45b.Therefore, even if in U In the case of 42a, 42b condensation of surface, owing to dew is attached in groove 441a, 441b by surface tension, it is possible to Prevent dew from dripping in framework 10.

In Figure 20 C, front blowout adjusts parts 430 and makes F parts 330 become hollow to form, have: have outside F The front outer surface feature 431 on surface 31；Have at the bottom of F inner surface 33, F top surface inclination portion 332, F inner surface end difference 333 and F The forward inner surface parts 433 of cross section U-shaped (U word) shape in face 334；Front heat-barrier material 432.

On the front outer surface upper end 31a and outer surface lower end, front 31b of front outer surface feature 431, formed respectively Front upper flange 431a that oriented F inner surface 33 side is prominent and front lower flange 431b.

And, in the front face side of the F inner surface 33 forming forward inner surface parts 433, it is bonded with front heat-barrier material 432.Above front heat-barrier material 432, the heat-barrier material being formed with tabular across heat-barrier material coupling part 432a is weighed Folded face 435.Heat-barrier material coupling part 432a is by side after the end face of the front face side in F top surface inclination portion 332 and F outer surface 31 Face clamp, heat-barrier material is bonded in F top surface inclination portion 332 by faying surface 435, and heat-barrier material is by one of faying surface 435 Divide and clamped by the upper surface in F top surface inclination portion 332 and the lower surface of front upper flange 431a.

And, the front end of the front face side of F bottom surface 334 is engaged in front lower flange 431b, at the lower surface of F bottom surface 334 It is provided with multiple concavo-convex 434 parallel with F outer surface 31.

Therefore, front outer surface feature 431 and forward inner surface parts 433 are securely engaged.It addition, at cooling operation Time, even if F inner surface 33 is cooled, it also is able to suppress the cold energy transmission to F outer surface 31 by front heat-barrier material 432, from And it is prevented from the condensation on F outer surface 31.

And, it is possible to avoid the UF arc-shaped face 341a of the U parts 340a of front face side and the direct of F top surface inclination portion 332 Contact, heat-barrier material is had noise reduction by faying surface 435 and subtracts sound function, it is possible to the one of the U parts 340a of suppression front face side Sound when part is overlapping with front blowout adjustment parts 430 and the generation of vibration.

Being additionally, since concavo-convex 434, regulation air is difficult to flow through the gap before F bottom surface 334 and housing between 319.

Above variation can properly select and one part is used for vertical air conditioner 300.

[embodiment 4: vertical air conditioner]

Figure 21 A～Figure 23 illustrates schematically that the vertical air conditioner of embodiments of the present invention 4, Figure 21 A and Figure 21 B are to amplify Representing the sectional view of blowout operating posture up and down partially, Figure 22 is the block diagram representing control system, and Figure 23 is for illustrating The flow chart of control system.Additionally, the part identical with embodiment 3 or suitable part mark identical reference, and Clipped explanation.Additionally, each figure simply schematic diagram, the invention is not restricted to described mode.

Vertical air conditioner 400 when heating operation start, during certain time in, will regulation air upward and front Both sides blow out.

That is, the most heated regulation air when preventing from heating operation start all blows out towards user, with Guarantee comfortableness.It addition, when cooling operation starts or when heating operation start, although the most cooled or heating, also Cooled with certain degree or heating the part regulating air is forwards blown out, performs to attract its " short-circuit ", thus promote The temperature entering heat exchanger 23 rises or temperature cooling.

(up and down during blowout operating)

In Figure 21 A～Figure 23, vertical air conditioner 400 is provided with the temperature sensor 423 of the temperature measuring heat exchanger 23 Control portion 490 with the measurement result being transfused to temperature sensor 423.

First control portion 490 judges it is cooling operation (above blowing operating) according to the signal from remote controller 390, still heats Operating (under blow operating), or carry out after performing operating up and down cooling operation (above blowing operating) or heat operating (under Blow operating) (S61).

In the case of being cooling operation (above blowing operating), enter " C " of Figure 19, be the situation heating operating (under blow operating) Under, enter " H " of Figure 19, carry out the control (with reference to Figure 19) in embodiment 3 respectively.

In the case of carrying out cooling operation (above blowing operating) after performing operating up and down or heating operating (under blow operating), First, for making the UF exterior arc surface 341b being in downside move downwards, make the U parts 340b at rear to the side shown in arrow R1 To (in Figure 21 A, counterclockwise) rotating, and stop at stop position set in advance (S62).

Then, for making UR inclined plane 343a being in upside move downwards, make the U parts 340a in front to arrow R2 institute The direction shown (in Figure 21 A, rotates clockwise), and stops at stop position set in advance (S63).That is, control portion 490 according to operating menu send make top blowout adjust component motors 340am, 340bm rotate signal, make U parts 340a, 340b rotates, and opens top blow-off outlet 14.

Then, F parts 330 are made (in Figure 21 A, to rotate clockwise) and stop to the direction shown in arrow R8, directly To becoming the F outer surface 31 posture (S64) towards oblique upper.

Therefore, start kind of refrigeration cycle and fan 24 and start cooling operation or heat operating (S65).

And, temperature that temperature sensor 423 is measured decline or rise to set in advance under when blowing design temperature (S66), obtain cooling operation posture or heat operating posture.

That is, during cooling operation, make F parts 330 to shown in arrow R9 direction (in Figure 21 B, counterclockwise) rotate, F inner surface end difference 333 is pressed against housing cascaded surface 318, closes front blow-off outlet 13 (S67).That is, cooling operation appearance is obtained Gesture (with reference to Figure 15), then, enters " A " in Figure 19 A, performs each step in cooling operation.

During additionally, continue cooling operation, there is the inconstant situation of operating condition of kind of refrigeration cycle and fan 24, by suitably Ground controls.

On the other hand, when heating operating, make F parts 330 (in Figure 21 A, square clockwise to the direction shown in arrow R8 To) rotate further, F outer surface 31 parallel with framework end face 15 (S68).

And, make the U parts 340a of front face side rotate to the direction (counter clockwise direction in Figure 21) contrary with arrow R2 And stop (S69), and, make the U parts 340b of side below to the direction (clockwise direction in Figure 21) contrary with arrow R1 Rotate and stop (S70).That is, close front opening part 13, obtain cooling operation posture (with reference to Figure 15), then, enter Figure 19 B In " B ", perform heat each step in operating.

During additionally, continue to heat operating, there is the situation of the operating condition non-constant (constant) of kind of refrigeration cycle and fan 24, It is properly controlled.Such as, when just starting running, reducing the rotating speed of fan 24, the blowout speed that there is regulation air is relatively low Situation.

[embodiment 5: vertical air conditioner]

Figure 24 and Figure 25 illustrates schematically that the vertical air conditioner of embodiments of the present invention 5, and Figure 24 is to amplify partially Representing that operating stops the sectional view of posture, Figure 25 is the flow chart for control system is described.Additionally, it is identical with embodiment 3 Part or the suitable part identical reference of mark, and clipped explanation.Additionally, each figure is schematic diagram, this Invention is not limited to described mode.

Vertical air conditioner 500 copes with following situation, i.e. the UF arc-shaped face 341b of the U parts 340b of side is originally below Should contact with UR inclined plane 343a of the U parts 340a of front face side, but when operating stops, because of certain reason (such as, child Trick etc.), after the U outer surface 41a of UF top end face 343b and the U parts 340a of front face side of U parts 340b of side contact, That is, both overlapping upper and lower relations overturn.

I.e., no matter whether both overlapping upper and lower relations overturn, and temporarily make the U parts 340b at rear to arrow R10 institute The direction that shows (in fig. 24, somewhat rotate clockwise), and stop at stop position set in advance (S81), so that Below side be in downside UF arc-shaped face 341b move downwards.

Then, the U parts 340a making front somewhat turns to the direction (in fig. 24, clockwise) shown in arrow R11 Dynamic, and stop at stop position set in advance (S82).

Then, " S1 " in Figure 19 A is entered.

When both when being overlapped into reverse upper and lower relation, in step S81, in 82, due to rear U parts 340b and The U parts 340a actual rotation in front, it is possible to make the U parts 340b at rear rotate.

On the other hand, both when being overlapped into original upper and lower relation, in step S81, in 82, U parts in the wings Under the state that the U parts 340a in 340b and front does not rotates, posture when keeping operating to stop is (owing to top blowout adjusts parts Motor 40am, 40bm slide).Now, the U parts 340b at rear can rotate.

Therefore, according to vertical air conditioner 500, though front face side U parts 340a and below side U parts 340b one In the case of the overlap condition of part is reverse, it is also possible to carry out the cooling operation as vertical air conditioner 300 or heat operating. And, described operating control can be applicable to vertical air conditioner 400.

[embodiment 6: vertical air conditioner]

Figure 26 A～Figure 26 C illustrates schematically that the vertical air conditioner of embodiments of the present invention 6, and Figure 26 A is top view, figure 26B is to have an X-rayed the left view that the side of framework represents with covering, and Figure 26 C is to have an X-rayed the right view that the side of framework represents with covering.Additionally, with Part or suitable part that embodiment 1 is identical mark identical reference, and clipped explanation.Additionally, it is each Figure simply schematic diagram, the invention is not restricted to described mode.

In Figure 26 A～Figure 26 C, in vertical air conditioner 600, front blowout is made to adjust the front blowout that parts 30 rotate Adjust component motors 30m to be arranged on the framework left part part 10L that the left surface side of framework 10 is configured, make blowout adjustment portion, top The top blowout that part 40a and top blowout adjustment parts 40b rotates adjusts component motors 40am and top blowout adjustment parts horse Reach 40bm to be arranged in framework right members 10R that the right flank side of framework 10 is configured.

Therefore, front blowout adjusts component motors 30m and top blowout adjusts component motors 40am, 40bm and becomes and do not interfere Configuration.

And, the rotation being fixed on the little gear (not shown) in the rotary shaft of front blowout adjustment component motors 30m divides It is not sequentially delivered to the little gear 631,632,633,664 that can rotatably be arranged on framework left part part 10L.Now, The number of teeth of the little gear of gear ratio 631 of little gear 632 is many, it addition, little gear 632 and little gear 633 have shared rotary shaft And rotate integratedly, little gear 634 is fixed on front blowout and adjusts parts fulcrum 34, thus front blowout adjusts component motors Being rotated under the state being decelerated of 30m is delivered to front blowout adjustment parts fulcrum 34.

Therefore, the degree of freedom arranging the position that front blowout adjusts component motors 30m increases, though and front blowout tune Integeral part motor 30m uses the miniature motor of less moment of torsion, it is also possible to makes front blowout adjust parts 30 and reliably rotates, therefore It is capable of the lightweight of vertical air conditioner 600 and the reduction of cost of manufacture.

The explanation of reference

10 frameworks, 10L framework left part part, 10R framework right members, before 11 frameworks, upper end before 11a, 12 front openings Portion's (suction inlet), 13 front blow-off outlets, blow-off outlet above in the of 14,15 framework end faces, 15a front end of the top surface, the 16 framework back sides, 17 housings The back side, 18 housing median planes, before 19 housings, 21 filters, 22 pallets, 23 heat exchangers, 24 fans, 30 blowout adjustment portions, front Part, the blowout of 30m front adjusts component motors, and 31 front blowouts adjust member outer surface (F outer surface), on the outer surface of 31a front End, 32 front blowouts adjust parts bottom surface, and 33 front blowouts adjust component inner surface (F inner surface), 34 blowout adjustment portions, front Part fulcrum, above in the of 40, blowout adjusts parts, and above 40m, blowout adjusts component motors, and above in the of 41, blowout adjusts member outer surface (U Outer surface), above in the of 42, blowout adjusts component inner surface (U inner surface), blows out adjustment plate arm above in the of 43, blows out adjustment portion above in the of 44 Part fulcrum, above in the of 45 inner surface front end, and 50 front blowouts adjust parts, and the blowout of 50m front adjusts component motors, 51 front blowouts Adjusting member outer surface, outer surface upper end, 51a front, 52 fronts blow out and adjust component inner surface, 52b forward inner surface lower end, 53 front blowout adjustment plate arms, 54 front blowouts adjust parts fulcrum, and 70 interfere detection sensor, and 80 control portions, 81 remote controls are defeated Enter portion, 90 remote controllers, 100 vertical air conditioners (embodiment 1), 200 vertical air conditioners (embodiment 2), 300 vertical air conditioners (embodiment 3), 315 framework top surface inclination faces, 316 framework end face bottom incline, 317 absorbent materials, 318 housing cascaded surfaces, Before 319 housings, 330 front blowouts adjust parts (F parts), and the blowout of 330m front adjusts component motors, and 331 front blowouts are adjusted Integeral part end face end difference (F end face end difference), 332 fronts blowout adjustment member top face rake (F top surface inclination portion), 333 Front blowout adjusts component inner surface end difference (F inner surface end difference), and 334 front blowouts adjust parts bottom surface (F bottom surface), 335 front blowouts adjust member top face (F end face), 335a lateral margin, and above in the of 340, blowout adjusts parts (U parts), blows above 340a Going out to adjust parts (U parts), above 340b, blowout adjusts parts (U parts), and above 340am, blowout adjusts component motors, 340bm Top blowout adjusts component motors, and above 341a, blowout adjusts member forward end arc-shaped face (UF arc-shaped face), blows above 341b Going out to adjust member outer surface nose circle cambered surface (UF exterior arc surface), above 342a, (UR is vertical for blowout adjustment parts rear end vertical Face), above 342b, blowout adjusts component inner surface nose circle cambered surface (UF inner arc surface), and above 343a, blowout adjusts parts rear end Inclined plane (UR inclined plane), above 343b, blowout adjusts member forward end top end face (UF top end face), blows out adjustment portion above 344b Part rear end vertical (UR vertical), blowout adjustment parts rear end inclined plane (UR inclined plane) above 345b, 380 control portions, 381 Remote control input unit, 390 remote controllers, 400 vertical air conditioners (embodiment 4), 418 elastomeric elements, before 419 housings, 419a is recessed Convex, 423 temperature sensors, 430 front blowouts adjust parts, and 431 front outer surface feature, 431a front upper flange, before 431b Side lower flange, 432 front heat-barrier materials, 432a heat-barrier material coupling part, 433 forward inner surface parts, 434 is concavo-convex, 435 every Hot material is by faying surface, and above 440a, blowout adjusts parts, blowout adjustment parts above 440b, 441a groove, 441b groove, 490 control portions, 500 vertical air conditioners (embodiment 5), 600 vertical air conditioners (embodiment 6), 631 little gears, 632 little teeth Wheel, 633 little gears, 634 little gears.

Claims (12)

1. a vertical air conditioner, it is characterised in that have: framework, fan and cooling operation and system can be selectively carrying out The heat exchanger of heat run is arranged at described framework；Front blowout adjusts parts, and the blowout of described front adjusts parts and can freely turn It is arranged in the front blow-off outlet being formed at the adjacent top surface before described framework dynamicly；Top blowout adjust parts, described on Side's blowout adjusts the top blow-off outlet that parts can be arranged in the close front of the end face being formed at described framework freely to rotate,

When operating stops, the blowout of described front adjusts parts and closes described front blow-off outlet, and the blowout of described top adjusts Parts close described top blow-off outlet,

When cooling operation, the blowout of described front adjusts parts and closes described front blow-off outlet, and the blowout of described top adjusts Parts rotate and open described top blow-off outlet,

When heating operating, the blowout of described top adjusts parts and closes described top blow-off outlet, and the blowout of described front adjusts Parts rotate and open described front blow-off outlet,

Described front blowout adjustment parts have front blowout adjustment member outer surface and front blowout adjusts component inner surface, institute Stating front blowout and adjust member outer surface formation and the face being connected before described framework when operating stops, described front blows out Adjust component inner surface relative with described front blowout adjustment member outer surface, more adjust further away from the blowout of described front below trend Integeral part outer surface,

The blowout of described top adjusts parts and is blown out, by the top being arranged in front face side, the top adjusting parts with being arranged in side below Blowout adjusts parts and constitutes,

It is formed on the end of side after when being arranged in the operating stopping of blowout adjustment parts above described front face side Side's blowout adjusts parts rear end inclined plane,

It is formed on the end of the front face side operated when stopping that blowout adjusts parts being arranged in above described side below Side's blowout adjusts component inner surface nose circle cambered surface,

When operating stops, before blowout adjustment parts rear end, described top inclined plane adjusts component inner surface with the blowout of described top End arc surface is overlapping,

In the case of any when cooling operation starts and when heating operation start, the top blowout being arranged in described side below is adjusted The direction that integeral part adjusts component inner surface nose circle cambered surface movement in described framework towards the blowout of described top rotates, so After, the top blowout being arranged in described front face side adjusts parts towards the blowout adjustment parts rear end inclination of described top towards described The direction of movement outside framework rotates.

2. a vertical air conditioner, it is characterised in that have: framework, fan and cooling operation and system can be selectively carrying out The heat exchanger of heat run is arranged at described framework；Front blowout adjusts parts, and the blowout of described front adjusts parts and can freely turn It is arranged in the front blow-off outlet being formed at the adjacent top surface before described framework dynamicly；Top blowout adjust parts, described on Side's blowout adjusts the top blow-off outlet that parts can be arranged in the close front of the end face being formed at described framework freely to rotate,

When operating stops, the blowout of described front adjusts parts and closes described front blow-off outlet, and the blowout of described top adjusts Parts close described top blow-off outlet,

When cooling operation, the blowout of described front adjusts parts and closes described front blow-off outlet, and the blowout of described top adjusts Parts rotate and open described top blow-off outlet,

When heating operating, the blowout of described top adjusts parts and closes described top blow-off outlet, and the blowout of described front adjusts Parts rotate and open described front blow-off outlet,

Described front blowout adjustment parts have front blowout adjustment member outer surface and front blowout adjusts component inner surface, institute Stating front blowout and adjust member outer surface formation and the face being connected before described framework when operating stops, described front blows out Adjust component inner surface relative with described front blowout adjustment member outer surface, more adjust further away from the blowout of described front below trend Integeral part outer surface,

The blowout of described top adjusts parts and is blown out, by the top being arranged in front face side, the top adjusting parts with being arranged in side below Blowout adjusts parts and constitutes,

It is formed on the end of side after when being arranged in the operating stopping of blowout adjustment parts above described front face side Side's blowout adjusts parts rear end inclined plane,

It is formed on the end of the front face side operated when stopping that blowout adjusts parts being arranged in above described side below Side's blowout adjusts component inner surface nose circle cambered surface,

When operating stops, before blowout adjustment parts rear end, described top inclined plane adjusts component inner surface with the blowout of described top End arc surface is overlapping,

The initial stage that cooling operation starts and the initial stage heating operation start any in the case of, be arranged in the upper of described side below Side's blowout adjusts parts and adjusts component inner surface nose circle cambered surface direction of movement in described framework towards the blowout of described top Rotating, then, the top blowout adjustment parts being arranged in described front face side tilt towards blowout adjustment parts rear end, described top The direction of movement outside described framework rotates, and, the blowout of described front adjusts parts and blows out adjustment portion towards described front The direction of the lower end of part movement outside described framework rotates.

3. a vertical air conditioner, it is characterised in that have: framework, fan and cooling operation and system can be selectively carrying out The heat exchanger of heat run is arranged at described framework；Front blowout adjusts parts, and the blowout of described front adjusts parts and can freely turn It is arranged in the front blow-off outlet being formed at the adjacent top surface before described framework dynamicly；Top blowout adjust parts, described on Side's blowout adjusts the top blow-off outlet that parts can be arranged in the close front of the end face being formed at described framework freely to rotate,

When operating stops, the blowout of described front adjusts parts and closes described front blow-off outlet, and the blowout of described top adjusts Parts close described top blow-off outlet,

When cooling operation, the blowout of described front adjusts parts and closes described front blow-off outlet, and the blowout of described top adjusts Parts rotate and open described top blow-off outlet,

When heating operating, the blowout of described top adjusts parts and closes described top blow-off outlet, and the blowout of described front adjusts Parts rotate and open described front blow-off outlet,

Described front blowout adjustment parts have front blowout adjustment member outer surface and front blowout adjusts component inner surface, institute Stating front blowout and adjust member outer surface formation and the face being connected before described framework when operating stops, described front blows out Adjust component inner surface relative with described front blowout adjustment member outer surface, more adjust further away from the blowout of described front below trend Integeral part outer surface,

The blowout of described top adjusts parts and is blown out, by the top being arranged in front face side, the top adjusting parts with being arranged in side below Blowout adjusts parts and constitutes,

It is formed on the end of side after when being arranged in the operating stopping of blowout adjustment parts above described front face side Side's blowout adjusts parts rear end inclined plane,

It is formed on the end of the front face side operated when stopping that blowout adjusts parts being arranged in above described side below Side's blowout adjusts component inner surface nose circle cambered surface,

When operating stops, before blowout adjustment parts rear end, described top inclined plane adjusts component inner surface with the blowout of described top End arc surface is overlapping,

The initial stage that cooling operation starts and the initial stage heating operation start any in the case of, be arranged in the upper of described side below Side's blowout adjusts parts and temporarily adjusts the movement outside described framework of component inner surface nose circle cambered surface towards the blowout of described top Direction rotates, and, the top blowout being arranged in described front face side adjusts parts temporarily towards described top blowout adjustment parts The direction that rear end tilts towards movement in described framework rotates,

Then, the top blowout adjustment parts being arranged in described side below adjust component inner surface front end towards the blowout of described top Circular arc towards movement in described framework direction rotate, then, be arranged in described front face side top blowout adjust parts towards The blowout of described top adjusts parts rear end and tilts the direction rotation towards movement outside described framework.

4. the vertical air conditioner as described in any one in claims 1 to 3, it is characterised in that

The blowout of described top adjusts parts to be had: top blowout adjusts member outer surface, and the blowout of described top adjusts component facade Face defines the face being connected when operating stops with the end face of described framework；Top blowout adjusts component inner surface, described top It is parallel with described top blowout adjustment member outer surface that blowout adjusts component inner surface,

When heating operating, the blowout of described front adjusts parts and rotates, and the blowout of described front adjusts member outer surface and becomes and institute State top blowout adjustment component inner surface almost parallel,

When cooling operation, the blowout of described top adjusts parts and rotates, and the blowout of described top adjusts member outer surface becomes relative The almost parallel posture of member outer surface or the posture tilted with predetermined angular is adjusted in the blowout of described front.

5. vertical air conditioner as claimed in claim 4, it is characterised in that

Adjusting in the blowout of described front and be provided with blowout adjustment parts fulcrum in front on component inner surface, the blowout of described front adjusts Parts adjust by the blowout of described front and rotate centered by parts fulcrum,

Above described, blowout adjusts and is provided with blowout adjustment plate arm above prominent on component inner surface, and blows above this Going out to be provided with on adjustment plate arm top blowout and adjust parts fulcrum, the blowout of described top adjusts parts and adjusts with the blowout of described top Rotate centered by parts fulcrum.

6. vertical air conditioner as claimed in claim 4, it is characterised in that when the blowout of described front adjusts parts rotation, institute State top blowout adjust parts in advance towards described top blowout adjust component inner surface from described front blowout adjust parts keep away The direction allowed rotates, and after the blowout of described front adjusts parts rotation, the blowout of described top adjusts parts and blows towards described top Go out to adjust component inner surface and adjust the direction rotation of parts close to the blowout of described front.

7. the vertical air conditioner as described in any one in claims 1 to 3, it is characterised in that

The end face of described framework is formed framework top surface inclination face,

It is formed on the end of side after when being arranged in the operating blowing out adjustment parts above described side below and stopping Side's blowout adjusts parts rear end inclined plane,

When operating stops, it is overlapping with described framework top surface inclination face that the blowout of described top adjusts parts rear end inclined plane.

8. the vertical air conditioner as described in any one in claims 1 to 3, it is characterised in that

It is formed with front blowout on upper surface when the operating that the blowout of described front adjusts parts stops and adjusts member top face rank Ladder portion,

The end being arranged in the front face side operated when stopping that blowout above described front face side adjusts parts is formed Side's blowout adjusts member forward end arc-shaped face,

When operating stops, top blowout adjusts member forward end arc-shaped face and adjusts member top face end difference with the blowout of described front Overlapping.

9. the vertical air conditioner as described in any one in claims 1 to 3, it is characterised in that blowout adjusts above described It is formed with a plurality of groove on the face of the described framework side when operating of parts stops.

10. the vertical air conditioner as described in any one in claims 1 to 3, it is characterised in that blowout adjusts in described front It is formed with a plurality of concavo-convex on lower surface when the operating of parts stops.

11. vertical air conditioners as described in any one in claims 1 to 3, it is characterised in that blowout adjustment portion, described front Part is hollow, is internally provided with heat-barrier material.

12. vertical air conditioners as described in any one in claims 1 to 3, it is characterised in that

Blowout adjustment portion, the front motor making the blowout of described front adjust parts rotation is arranged on the side of the side of described framework Near face, blowout adjustment portion, the top motor making the blowout of described top adjust parts rotation is arranged on the opposite side of described framework Side near,

The reducing gear that is rotated through of blowout adjustment portion, described front motor is passed to described front blowout adjustment parts.