CN108027164A - Wall-hanging air conditioner indoor unit - Google Patents
Wall-hanging air conditioner indoor unit Download PDFInfo
- Publication number
- CN108027164A CN108027164A CN201680051293.3A CN201680051293A CN108027164A CN 108027164 A CN108027164 A CN 108027164A CN 201680051293 A CN201680051293 A CN 201680051293A CN 108027164 A CN108027164 A CN 108027164A
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- China
- Prior art keywords
- wind direction
- adjustment component
- direction adjustment
- blow
- barrier
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F13/00—Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
- F24F13/08—Air-flow control members, e.g. louvres, grilles, flaps or guide plates
- F24F13/10—Air-flow control members, e.g. louvres, grilles, flaps or guide plates movable, e.g. dampers
- F24F13/14—Air-flow control members, e.g. louvres, grilles, flaps or guide plates movable, e.g. dampers built up of tilting members, e.g. louvre
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F1/00—Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
- F24F1/0007—Indoor units, e.g. fan coil units
- F24F1/0011—Indoor units, e.g. fan coil units characterised by air outlets
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F1/00—Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
- F24F1/0007—Indoor units, e.g. fan coil units
- F24F1/0043—Indoor units, e.g. fan coil units characterised by mounting arrangements
- F24F1/0057—Indoor units, e.g. fan coil units characterised by mounting arrangements mounted in or on a wall
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- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Air-Flow Control Members (AREA)
- Air Filters, Heat-Exchange Apparatuses, And Housings Of Air-Conditioning Units (AREA)
Abstract
In wall-hanging air conditioner indoor unit, in the case where not damaging design, current-controlled limitation is relaxed.Wind direction adjustment component (50) adjusts the rearward end of component lower surface (52) formed with upward concave concave part (57) in wind direction.Generation compared to blow-off outlet (27) towards the direction that side wall is set the first air-flow when, wind direction adjustment component (50) take upper surface turn to vertical guide rear and front end positioned at position than rear end (56) rearward the first posture.Wind direction adjustment component (50) is installed into, and when taking the first posture, the lower edge (27b) of blow-off outlet (27) is entered in concave part (57).
Description
Technical field
The present invention relates to wall-hanging air conditioner indoor unit.
Background technology
In the past, in wall-hanging air conditioner indoor unit, proposition has a kind of wind direction possessed for carrying out the adjustment of upper and lower wind direction
Adjust the wall-hanging air conditioner indoor unit of component.Such as disclosed in patent document 1 (Japanese Unexamined Patent Publication 2007-93092 publications) etc. that
Sample, there is a kind of indoor apparatus of air conditioner, it can adjust component using wind direction will be empty and the reconciliation blown out from blow-off outlet by air supply path
The blow-off direction of gas changes to lower section.
The content of the invention
The subject that the invention solves
In the indoor apparatus of air conditioner described in patent document 1, although the air blown out from blow-off outlet can be changed to lower section,
But since the slewing area of wind direction adjustment component is small, use the gas flow optimized of wind direction adjustment component to be restricted, there is provided
The function of a home from home is insufficient.
The problem of the present invention is, there is provided a kind of wall-hanging air conditioner indoor unit, it can relax current-controlled limitation.
Means for solving the problems
The wall-hanging air conditioner indoor unit of the first aspect of the present invention possesses:Shell, thereafter face be fixed in setting side wall,
Blow-off outlet of the position of front side formed with blowout tempered air is leaned in the ratio rear face of the shell;Wind direction adjusts component, it has:
Close to the rear end of the pivot of the lower edge for the blow-off outlet for being set in shell;Front end away from pivot;To from blowout
The upper surface that the wind direction of the blow out air of mouth blowout is adjusted and the lower surface of the opposite side in upper surface, in lower surface
Rearward end is configured to formed with upward concave concave part, wind direction adjustment component, and side is set compared to blow-off outlet direction in generation
During first air-flow in the direction of wall, can take upper surface turn to vertical guide rear and front end positioned at than rear end rearward
First posture of position, in second air-flow of the generation towards the front of blow-off outlet, can take upper surface relative to vertical guide
Rotating forwards and front end is located at the second posture than rear end by the position of front side, wind direction adjustment component is installed into,
When taking the first posture, the lower edge of blow-off outlet is entered in concave part.
According to the wall-hanging air conditioner indoor unit, the lower edge of blow-off outlet enters wind direction adjustment part during due to taking the first posture
The concave place of concave part of part, therefore, it is possible to increase the scope of rotational action.
In the indoor apparatus of air conditioner of first aspect, shell is being blown out the wall-hanging air conditioner indoor unit of the second aspect of the present invention
The lower edge of mouth is equipped with backs corresponding with the shape of the lower surface of wind direction adjustment component, and the backs is formed in and adopts
The opposed position of the rearward end of the lower surface of wind direction adjustment component when taking the first posture.
According to the wall-hanging air conditioner indoor unit, due to the shape of the lower surface with wind direction adjustment component be correspondingly provided with by
The backs of the lower edge of the blow-off outlet of shell is arranged on, therefore, compared with the situation for being not provided with backs, wind direction can be increased
Adjust the slewing area of component side backward.
The wall-hanging air conditioner indoor unit of the third aspect of the present invention in the indoor apparatus of air conditioner of first aspect or second aspect,
Shell is equipped with groove portion in the lower edge of blow-off outlet, and the groove portion is formed in and takes wind direction during the first posture to adjust component
The opposed position of the rearward end of lower surface.
According to the wall-hanging air conditioner indoor unit, due to the gap that wind direction is adjusted between component and shell be opposed to formed with
The groove portion of the lower edge of the blow-off outlet of shell is arranged on, therefore, it is possible to being flowed in the gap that wind direction adjusts component and shell
Dynamic air-flow is stirred.
The wall-hanging air conditioner indoor unit of the fourth aspect of the present invention is in the indoor apparatus of air conditioner of first aspect, wind direction adjustment part
Part and shell adjust each position opposite each other when component takes the first posture formed with inclined end face in wind direction.
According to the wall-hanging air conditioner indoor unit, since wind direction adjusts the inclined end face of component and the inclined end face of shell in wind
To adjustment component the first posture when it is opposite each other, therefore, it is possible to increase the slewing area of wind direction adjustment component side backward.
Either side of the wall-hanging air conditioner indoor unit of the fifth aspect of the present invention in first aspect to fourth aspect
In indoor apparatus of air conditioner, there is flange in the sidepiece of the concave part of wind direction adjustment component, shell is pivoted flange supporting so that
Wind direction adjustment component can rotate in the up-down direction.
According to the wall-hanging air conditioner indoor unit, although the intensity of the rearward end of wind direction adjustment component adjusts component due to wind direction
Rearward end concave part and reduce, but by setting flange, so that wind direction adjustment component is reinforced, even in wind direction adjustment part
The rearward end of part sets concave part, can also suppress the deformation of wind direction adjustment component.
Invention effect
Wall-hanging air conditioner indoor unit according to the first aspect of the invention, due to the scope increase of rotational action, accordingly, it is capable to
It is enough to relax the current-controlled limitation for being used for ensuring comfort.Further, since the concave part at the lower surface of wind direction adjustment component
Easily it is not easy to be formed boldly, therefore, it is possible to keep design well.
Wall-hanging air conditioner indoor unit according to the second aspect of the invention, can be with using the step difference of wind direction adjustment component
The degree of slewing area increase correspondingly relaxes current-controlled limitation.
Wall-hanging air conditioner indoor unit according to the third aspect of the invention we, can utilize groove portion to suppress to adjust component in wind direction
Condense with the gap of shell.
Wall-hanging air conditioner indoor unit according to the fourth aspect of the invention, can be with utilizing wind direction adjustment component and shell
The degree that inclined end face increases slewing area correspondingly relaxes current-controlled limitation.
Wall-hanging air conditioner indoor unit according to the fifth aspect of the invention, the deformation of component is adjusted by suppressing wind direction, from
And can prevent the attenuating of wind direction adjustment function, and design can be prevented to be deteriorated.
Brief description of the drawings
Fig. 1 is the stereogram of the appearance for the indoor apparatus of air conditioner for showing embodiments of the present invention.
Fig. 2 is the sectional view of the summary for the structure for showing the indoor apparatus of air conditioner in Fig. 1.
Fig. 3 is the stereogram of wind direction adjustment component.
Fig. 4 is the enlarged partial sectional view for illustrating swirled air blowout flow path.
Fig. 5 is the enlarged partial sectional view for illustrating the relation of the lower edge of wind direction adjustment component and blow-off outlet.
Fig. 6 is for illustrating that the wind direction of the second wind direction adjusts the sectional view of the posture of component.
Fig. 7 is the stereogram for the left part for showing the indoor apparatus of air conditioner with the plane cut-out vertical with left and right directions.
(a) of Fig. 8 is for illustrating that the first sub-barrier of the second wind direction and the other of posture of the second sub-barrier show
The partial sectional view of example, (b) are for illustrating the other of the first sub-barrier of the second wind direction and the posture of the second sub-barrier
Exemplary partial sectional view.
(a) of Fig. 9 is that (b) is to be used for for illustrating that the wind direction of the 3rd wind direction adjusts the partial sectional view of the posture of component
Illustrate the partial sectional view of the posture of the wind direction adjustment component of the 4th wind direction, (c) is for illustrating that the wind direction of the 5th wind direction adjusts
The partial sectional view of the posture of component.
(a) of Figure 10 is the sectional view of wind direction adjustment component, and (b) is the side view of wind direction adjustment component.
Figure 11 is the enlarged partial isometric view for cutting off a part for wind direction adjustment component.
Figure 12 is the enlarged partial isometric view on the periphery for the central rearward end for showing wind direction adjustment component.
(a) of Figure 13 is the side view for illustrating the first air-flow for being arranged on indoor indoor apparatus of air conditioner, and (b) is to use
The side view of the second air-flow of indoor indoor apparatus of air conditioner is arranged in explanation.
Figure 14 is the enlarged partial sectional view for illustrating the relation of the lower edge of wind direction adjustment component and blow-off outlet.
Figure 15 is for illustrating that the wind direction of variation adjusts the partial sectional view of the relation of the lower edge of component and blow-off outlet.
Figure 16 is the enlarged partial sectional view for amplifying the wind direction adjustment component in Figure 15 and the part of the lower edge of blow-off outlet.
Embodiment
(1) structure of indoor apparatus of air conditioner
Figure 1 illustrates from the front right side obliquely downward from indoor apparatus of air conditioner 10 appearance.Air conditioning chamber in following explanation
The upper and lower of interior machine 10, front and rear and left and right are as shown in the rectangular co-ordinate in Fig. 1.Figure 2 illustrates on a left side for indoor apparatus of air conditioner 10
The principal shape in the section that the substantial middle of right direction is cut off with the plane vertical with left and right directions.The indoor apparatus of air conditioner 10 is wall
Hanging, rear portion is installed in indoor setting side wall WL.Indoor apparatus of air conditioner 10 can carry out what is freezed to interior space RS
Cooling operation and the heating operation heated to interior space RS.
(2) detailed construction
As depicted in figs. 1 and 2, indoor apparatus of air conditioner 10 possesses shell 11, air filter 12, indoor heat converter 13, room
Internal fan 14, multiple vertical baffles 15, the second sub-barrier 30, the first sub-barrier 40 and wind direction adjustment component 50.In addition,
In Fig. 2, the record of vertical baffle 15 is eliminated.
(2-1) shell 11
Shell 11 is in elongated, simultaneously in transverse direction (left and right directions (with reference to the rectangular co-ordinate in Fig. 1) of indoor apparatus of air conditioner 10)
And the box shape with multiple openings.As depicted in figs. 1 and 2, the inside of shell 11 have by top part 11a, front face 11b,
Rear face 11c, right side face 11d, left side face 11e and bottom surface sections 11f surround the solid space formed.The top part of shell 11
11a, front face 11b, right side face 11d, left side face 11e and bottom surface sections 11f are covered by decorative panel 20.Shell 11 is by means of place
Later the backplate 28 of portion 11c and be installed in and side wall WL be set.Air filtration is accommodated with the solid space of shell 11
Device 12, indoor heat converter 13, indoor fan 14 and bottom frame 16.In order to which these are accommodated in solid space, decorative panel 20 is
The structure being covered from front to back.
Top part 11a is located at the upper end of shell 11.The front face 11b of decorative panel 20 is made of front panel 21, before described
The upper end of panel 21 is rotatably supported in top part 11a by means of hinge (not shown).The front panel 21 is filled with forming
The left plate 23 of the right plate 22 of the right side face 11d of plaque 20 and the left side face 11e of composition decorative panel 20 separate.
Backplate 28 constitutes the rear face 11c of shell 11.The backplate 28 is installed in installation by screw fixation etc.
Plate (not shown), the installing plate are arranged on indoor setting side wall WL, so that indoor apparatus of air conditioner 10, which is arranged at, sets side
Wall WL.
The top part 11a of shell 11 is provided with top surface suction inlet 25.It is driven by indoor fan 14, so that the top
Room air near face suction inlet 25 is inhaled into the inside of shell 11 from the top surface suction inlet 25.From 25 quilt of top surface suction inlet
The room air of suction is sent to indoor fan 14 by indoor heat converter 13.
Shell 11 bottom surface sections 11f formed with bottom surface suction inlet 26.In addition, in bottom surface sections 11f formed with blow-off outlet 27.
Bottom surface suction inlet 26 is arranged on the position than blow-off outlet 27 rearward.Bottom surface suction inlet 26 in shell 11 with being in air mistake
The space on the top of filter 12 is connected by means of the suction passage 16a of bottom frame 16.Therefore, made by the driving of indoor fan 14
Room air near bottom surface suction inlet 26 is sent to indoor heat converter from bottom surface suction inlet 26 by suction passage 16a
13.Flow path upper surface 16c and flow path lower surface 16d of the suction passage 16a from bottom surface suction inlet 26 along bottom frame 16 and formed.Inhale
Enter adjacent to each other across flow path lower surface 16d between flow path 16a and swirled air described later blowout flow path 16b.Inhaled in bottom surface
Entrance 26 is provided with the opening-closing plate 17 of the opening and closing for carrying out bottom surface suction inlet 26.
In indoor apparatus of air conditioner 10, the blow-off outlet 27 of the position more forward than bottom surface suction inlet 26 is arranged on by means of being vortexed
Air blowing flow path 16b and be connected with the inside of shell 11.From the interior that top surface suction inlet 25 and bottom surface suction inlet 26 are inhaled into
Air carries out in heat exchanger 13 blowing out flow path 16b by swirled air to be blown out to from blow-off outlet 27 after heat exchange indoors
It is indoor.
(2-2) is used for the structure of wind direction adjustment
Blow-off outlet 27 has the upper limb 27a and lower edge 27b extended longlyer to the left and right.In the upper limb 27a sides of blow-off outlet 27
The the first auxiliary gear for being provided with flat second sub-barrier 30 extended longlyer to the left and right and extending longlyer to the left and right
Plate 40.In addition, the wind direction adjustment component 50 extended longlyer to the left and right is provided with the lower edge 27b sides of blow-off outlet 27.Second is auxiliary
Help baffle 30, the first sub-barrier 40 and wind direction adjustment component 50 that there is the second sub-barrier upper surface 31 and the second auxiliary respectively
Baffle lower surface 32, the first sub-barrier upper surface 41 and the first sub-barrier lower surface 42 and wind direction adjustment component upper table
Face 51 and wind direction adjustment component lower surface 52.First sub-barrier 40 and wind direction adjustment component 50 are hollow structures, and first aids in
The weight of baffle 40 and wind direction adjustment component 50 is mitigated.
Second sub-barrier 30, the first sub-barrier 40 and wind direction adjustment component 50 are rotatably pacified respectively
Loaded on shell 11.Second sub-barrier 30, the first sub-barrier 40 and wind direction adjustment component 50 are configured to, can be by means of respectively
For the barrier driving motor (not shown) that they are set separately in the respective rotation extended to the left and right
The heart 35,45,58 is rotated (with reference to Fig. 6).Figure 3 illustrates the figure from right side wind direction adjustment component 50 from tiltedly upper.Should
The straight line that the supported portion 53 of wind direction adjustment component 50 links up becomes the pivot 58 of wind direction adjustment component 50.In addition,
These barrier driving motors are by the control device being arranged in indoor apparatus of air conditioner 10 control (not shown).And then this second
Sub-barrier 30, the first sub-barrier 40 and wind direction adjustment component 50 individually or coordination with one another to the sky that is blown out from blow-off outlet 27
The wind direction of gas carries out adjustment up and down.In addition, wind direction adjustment component 50 have the function of it is as follows:Will when from 27 blow out air of blow-off outlet
Blow-off outlet 27 is opened, and closes blow-off outlet 27 when operating stopping.Also, the first sub-barrier 40 is configured to, stop in operating
When, the posture as a part for shell 11 can be taken close to shell 11.When operating stopping, under the first sub-barrier
Surface 42 and wind direction adjustment component lower surface 52 and the decorative panel 20 of shell 11 assimilate and form the appearance of indoor apparatus of air conditioner 10.
Is provided with multiple vertical baffles 15, the multiple vertical gear in the second sub-barrier 30 in blow-off outlet 27
Plate 15 has the plane intersected with left and right directions.It is configured to so:Vertical baffle 15 can be by means of barrier driving motor (not
Diagram) rotated around the pivot extended up and down or so ground.Drive vertical baffle 15 barrier driving with motor also by
The foregoing control device control being arranged in indoor apparatus of air conditioner 10.And then these multiple vertical baffles 15 are to from blow-off outlet
The wind direction of the air of 27 blowouts carries out left and right adjustment.
(2-3) indoor heat converter 13
Indoor heat converter 13 is formed by multiple fins and through multiple heat-transfer pipes of multiple fins.Indoor heat converter 13
Bottom frame 16 is installed in inside shell 11.Indoor heat converter 13 is used as evaporation according to the operating condition of indoor apparatus of air conditioner 10
Device or condenser play a role, and the refrigerant flowed in heat-transfer pipe and by between the air of indoor heat converter 13 into
Row heat exchange.
As shown in Fig. 2, indoor heat converter 13 has from side the both ends substantially inverted V-shape of flexing downward
Shape.Also, indoor heat converter 13 is configured to surround from top by indoor fan 14.
(2-4) indoor fan 14
As shown in Fig. 2, indoor fan 14 is located at the substantial middle part of the inside of shell 11.The indoor fan 14 be in
The scroll fan of elongated substantially cylindrical shape on the length direction (left and right directions) of indoor apparatus of air conditioner 10.Pass through indoor fan 14
It is driven in rotation, so that room air is inhaled into from top surface suction inlet 25 and bottom surface suction inlet 26 and passes through air filter respectively
12, interior is then blown out to from blow-off outlet 27 and the tempered air generated by indoor heat converter 13.
(2-5) bottom frame 16
Bottom frame 16 plays the work supported to above-mentioned air filter 12, indoor heat converter 13 and indoor fan 14
With.In addition, form suction passage 16a and swirled air blowout flow path 16b using bottom frame 16.Swirled air blow out flow path 16b from
The underface of indoor fan 14 is extended obliquely downward towards front.Swirled air blowout flow path 16b is to be sandwiched in flow path upper surface 16c
With the space between the 16d of flow path lower surface.
Figure 4 illustrates the second sub-barrier 30, the first sub-barrier 40 and wind direction adjustment component 50 to be gone from Fig. 2
Except state.The shape of swirled air blowout flow path 16b is illustrated using the Fig. 4.Flow path lower surface 16d is from blow-off outlet
27 lower edge 27b extends upward, and the rear portion for covering indoor fan 14 it is oblique on.The flow path lower surface 16d is rearward to rouse
The mode got up smoothly is bent.Flow path following table when flow path lower surface 16d is cut off using the plane vertical with left and right directions
The cross sectional shape of face 16d is scroll shape.In other words, the cross sectional shape of such flow path lower surface 16d is with revolution and remote
From the curve of the pivot of indoor fan 14.
Formed with longer to the left and right between the upper surface front end 16f of the upper limb 27a and flow path upper surface 16c of blow-off outlet 27
The recess 16g of ground extension.By forming recess 16g, so as to be formed in front of the upper surface front end 16f of flow path upper surface 16c
There is step difference.The second sub-barrier 30 can be stored in recess 16g.Recess 16g is incorporated in the second sub-barrier 30
In in the state of, the rearward end of the second sub-barrier lower surface 32 is configured to be in same plane with flow path upper surface 16c.Flow path
Upper surface 16c rearward tiltedly goes up from upper surface front end 16f and extends substantially straightly towards the lower section of indoor fan 14.
(2-6) air filter 12
Air filter 12 is used to trap the dirt from the room air that top surface suction inlet 25 and bottom surface suction inlet 26 suck
Angstrom.In the state of air filter 12 is installed in shell 11, air filter 12 is located at top part 11a and the room of shell 11
Between inside heat exchanger 13.The air filter 12 prevents the dust in room air to be attached to the table of indoor heat converter 13
Face.Air filter 12 can be installed on shell 11 or be taken out from shell 11 in order to safeguard.
(3) the wind direction adjustment on above-below direction
(3-1) first wind direction
To take the second sub-barrier 30, the first sub-barrier 40 shown in Fig. 1 and Fig. 2 during the first wind direction blow out air
With the posture of wind direction adjustment component 50.First wind direction is to make airflow circulating to the wind direction in the interior space RS during.In order to make gas
Stream is recycled in interior space RS, it is preferred that generation is with fast wind speed without the laminar flow that is spread in blow-off outlet 27.For life
Into such laminar flow, it is preferred that extend swirled air blowout flow path 16b.But due to being difficult extension or shortening swirled air
Blow out flow path 16b, therefore, by the second sub-barrier 30 and wind direction adjust component 50 posture it is doubtful generate and be vortexed with extending
Situation identical Air blowing flow path 16b, this is the state of Fig. 1 and Fig. 2.
In the first wind direction, the second sub-barrier 30 takes such posture:Second sub-barrier lower surface 32 will be vortexed
The flow path upper surface 16c of Air blowing flow path 16b extends to front side.In addition, in first wind direction, wind direction adjustment component 50 is adopted
Take such posture:Wind direction adjusts member upper surface 51 and prolongs the flow path lower surface 16d of swirled air blowout flow path 16b to front side
It is long.
As shown in figure 4, when flow path upper surface 16c is extended to front side, formed substantially in parallel with flow path upper surface 16c
There is the first imaginary plane PL1 since the 16f of upper surface front end.In which case it is preferable that with rear direction and above-below direction
The first imaginary line that first imaginary plane PL1 is cut off and formed by parallel section is blown out with swirled air on the flow path of flow path 16b
The tangent line of the terminal part of surface 16c is consistent.In addition, when flow path lower surface 16d is extended to front side, with flow path lower surface 16d
Lower surface front end 16h substantially in parallel formed with the second imaginary plane PL2 since the 16h of lower surface front end.In this case,
Preferably, the second imagination the second imaginary plane PL2 cut off with the section parallel with anteroposterior direction and above-below direction and formed
Line is consistent with the tangent line of the terminal part of the flow path lower surface 16d of swirled air blowout flow path 16b.
In addition, also 32 slight curvature of the second sub-barrier lower surface, but in this case sometimes, due to the second sub-barrier
The rearward end of the interarea of lower surface 32 is consistent with the first imaginary plane PL1, therefore, is considered as the second sub-barrier lower surface 32 and first
Imaginary plane PL1 is consistent.In addition, also 32 slight curvature of the second sub-barrier lower surface, but in this case sometimes, due to wind direction tune
The rearward end of the interarea of integeral part upper surface 51 is consistent with the second imaginary plane PL2, therefore, is considered as wind direction adjustment member upper surface 51
It is consistent with the second imaginary plane PL2.In addition, here, interarea refers to, the special use in addition to not contributeing to the part of wind direction adjustment
In the face of wind direction adjustment.For example, recess 54 is arranged in correspondence with the projection in shell 11.The part of the recess 54 is to be used for
The structure for avoiding the projection of shell 11 to be in the way when blow-off outlet 27 is closed using wind direction adjustment component 50, due to less contributing to wind
To adjustment, therefore, it is not included in interarea.
The upper surface front end 16f of second sub-barrier 30 and flow path upper surface 16c is separately installed, to be rotated.
By the same token, lower surface front end 16h of the wind direction adjustment component 50 also with flow path lower surface 16d is separately installed.But
If the second sub-barrier 30 is excessively separated with flow path upper surface 16c and wind direction adjustment component 50 with flow path lower surface 16d, nothing
Method obtains blowing out the abundant of flow path 16b by the swirled air that the second sub-barrier lower surface 32 and wind direction adjustment component 50 are brought
Prolongation effect.Therefore, in the state of the first wind direction is configured to, it is configured to so:It is rotatable in the second sub-barrier 30
In the range of from the rear end 34 of the second sub-barrier 30 (with reference to Fig. 2) to the distance of the upper surface front end 16f of flow path upper surface 16c
It is below 5mm, and is configured to so:From the rear end 56 to the lower surface front end of flow path lower surface 16d of wind direction adjustment component 50
The distance L1 of 16h is below 5mm (with reference to Fig. 5).
Since the first sub-barrier 40 is arranged on the downstream of the second sub-barrier 30, to from the whirlpool being extended
The blow-off outlet of rotation Air blowing flow path 16b is to be enclosed by the front end 55 of the front end 33 of the second sub-barrier 30 and wind direction adjustment component 50
Around into the wind direction of air of part blowout be micro-adjusted up and down.In the state of fig. 2, the first sub-barrier 40
Take the air relative to blowout and as the small as possible posture of resistance, and take such posture:Make from than level slightly downward
The wind direction of air of swirled air blowout flow path 16b blowout lift slightly upwards.
(3-2) second wind direction
The second wind direction shown in Fig. 6 is air-flow of the generation along the wall for the rear face 11c for being provided with indoor apparatus of air conditioner 10
When wind direction.It is configured to the second sub-barrier 30, the first sub-barrier 40 and the wind direction adjustment with the second wind direction blow out air
Component 50 generates the air-flow towards the direction of rear face 11c compared to blow-off outlet 27.At this time, the wind direction tune of wind direction adjustment component 50
Integeral part upper surface 51 turns to the rear of the vertical guide vertical with anteroposterior direction, and front end 55 is positioned at the position than rear end 56 rearward
Put.Similarly, the first sub-barrier upper surface 41 of the first sub-barrier 40 also rotates to the vertical guide vertical with anteroposterior direction
Rear, front end 43 is located at the position than rear end 44 (with reference to Fig. 2) rearward.Similarly, the second of the second sub-barrier 30 is auxiliary
Baffle upper surface 31 is helped to also rotate to the rear of the vertical guide vertical with anteroposterior direction, front end 33 is located at than rear end 34 (with reference to figure
2) position rearward.
Second auxiliary gear when the second sub-barrier 30 and the first sub-barrier 40 during the second wind direction are taken from front
The posture overlapping with the first sub-barrier 40 of plate 30, thus prevent air from the second sub-barrier 30 and the first sub-barrier 40 it
Between gap flow direction front.
As the second wind direction, the second sub-barrier 30 and the first sub-barrier 40 can also take Fig. 8 (a) and Fig. 8 (b) institutes
The posture shown.The second sub-barrier 30 and the first sub-barrier 40 shown in Fig. 8 (a) take the second sub-barrier upper surface 31 with
The posture of first sub-barrier lower surface 42 contact.In addition, the second sub-barrier 30 and the first sub-barrier shown in Fig. 8 (b)
40 take the front end 33 of the second sub-barrier 30 auxiliary close to the first sub-barrier 40 and the second sub-barrier lower surface 32 and first
Baffle lower surface 42 is helped to form a line and continuous posture.
(3-3) the 3rd wind direction
Wind direction when the 3rd wind direction shown in Fig. 9 (a) is with maximum quantity of wind blow out air.It is being configured to the 3rd wind direction
During blow out air, the second sub-barrier 30 is incorporated in the recess 16g in front of the 16c of flow path upper surface.In the 3rd wind direction
When, when wind direction of front end 43 to the first of the first sub-barrier 40, is moved slightly upward, and the first sub-barrier 40 is taken from blow-off outlet
The posture that the air-flow of 27 blowouts extends up.In three wind directions, wind direction adjust component 50 the wind direction of front end 55 to the first when slightly
Move down, wind direction adjustment component 50 takes the posture for extending the air-flow blown out from blow-off outlet 27 downwards.That is, the first auxiliary gear
Plate 40 and wind direction adjustment component 50 take such posture:More more extend forwards, the air that will easily be blown out with maximum quantity of wind
It is sent in interior space RS.
(3-4) the 4th wind direction
Wind direction when the 4th wind direction shown in Fig. 9 (b) is blow out air under forward direction.It is being configured to the 4th wind direction
During blow out air, the second sub-barrier 30 is incorporated in the recess 16g in front of the 16c of flow path upper surface.In the 4th wind direction
When, when wind direction of front end 43 to the first of the first sub-barrier 40, slightly moves down, and the first sub-barrier 40 is taken from blow-off outlet
The posture that the air-flow of 27 blowouts presses downwards.The first sub-barrier lower surface 42 i.e., at this time more forwards, the ratio reduced downwards
Rate is more more than the first imaginary plane PL1, more than being raised after hanging down before the first imaginary plane PL1.In four wind directions, wind direction adjustment component 50
Slightly moved down during the wind direction of front end 55 to the first, wind direction adjustment component 50, which is taken, guides downwards the air-flow blown out from blow-off outlet 27
Posture.More forwards, the ratio reduced downwards is more more than the second imaginary plane to wind direction adjustment member upper surface 51 i.e., at this time
PL2, more than before the second imaginary plane PL2 hang down after raise.
(3-5) the 5th wind direction
Using under 30 forward direction of the second sub-barrier during blow out air when the 5th wind direction shown in Fig. 9 (c) is refrigeration
One example of wind direction.When being configured to the 5th wind direction blow out air, the second sub-barrier 30 is taken downward with front end 33
The posture that mobile mode is rotated and raised from recess 16g after vertical before out rear.At this time, the second sub-barrier lower surface 32 is in and leans on
Closely by the position in flow path upper surface 16c and the first sub-barrier lower surface 42 face linked up, in being carried out to the air of blowout
After so that from flow path upper surface 16c towards the airflow smooth of the first sub-barrier lower surface 42.
In five wind directions, the front end 43 of the first sub-barrier 40 is such state:Although during than the first wind direction slightly to
Lower movement, but be moved slightly upward during four wind direction of front end 43 to the, the first sub-barrier 40 takes the gas that will be blown out from blow-off outlet 27
Flow the posture slightly pressed downwards.In addition, in five wind directions, it is identical when the posture of wind direction adjustment component 50 is with four wind directions.It is logical
Cross the second sub-barrier 30, the first sub-barrier 40 and wind direction adjustment component 50 take such posture so that with the 4th wind direction
When compare, the air of blowout can be transported to front distant place.
The movement of (3-6) first sub-barrier 40, the second sub-barrier 30 and wind direction adjustment component 50
The position of Fig. 6, Fig. 7, Fig. 8 (a) and the front end 33 of the second sub-barrier 30 shown in Fig. 8 (b) is in than first
The state of the pivot 45 of sub-barrier 40 on the lower.In contrast, the second sub-barrier 30 when being incorporated in recess 16g
Position is to be in the state more top than the pivot 45 of the first sub-barrier 40.The track rotated in the second sub-barrier 30
On, positioned at the position of Fig. 6 to Fig. 8 (b) the first sub-barrier 40 hinder the second sub-barrier 30 turn to Fig. 6 to Fig. 8 (b)
The position of the second shown sub-barrier 30.That is, when the second sub-barrier 30 is incorporated in recess 16g, in the first auxiliary
In the case that baffle 40 is in the position shown in Fig. 6 to Fig. 8 (b), the second sub-barrier 30 and the first sub-barrier 40 collide and
The position shown in Fig. 6 to Fig. 8 (b) can not be turned to.Thus, for example, in the first sub-barrier 40 near the side of shell 11
Formula turn to front state, in other words, the first sub-barrier 40 along in the state of shell 11, first make to be incorporated in recess
The second sub-barrier 30 in 16g rearward turns to the position shown in Fig. 6 to Fig. 8 (b).Then, the first sub-barrier 40 is made
Rearward turn to the position shown in Fig. 6 to Fig. 8 (b).In this way the second sub-barrier 30 and the first sub-barrier 40 into
Row avoids the rotational action interfered with each other, so that the front end 33 of the second sub-barrier 30 can be in than the first sub-barrier 40
The state of the top position of pivot 45 and the shape of the position of pivot 45 on the lower in than the first sub-barrier 40
Changed between state.
(4) structure of wind direction adjustment component
The end face of the wind direction adjustment component 50 cut off using the I-I lines in Fig. 3 is shown in Figure 10 (a).In Figure 10 (b)
In show from right side wind direction adjustment component 50 side.Figure 11 illustrates in the center of wind direction adjustment component 50
Partial cut and the state from upper right side.Wind direction adjustment component 50 has the tabular for forming wind direction adjustment member upper surface 51
The hollow structure that component is fused with forming the plate-shaped member of wind direction adjustment component lower surface 52.Due to being hollow structure,
Therefore, when adjusting 52 generation stress concentration of member upper surface 51 and wind direction adjustment component lower surface in wind direction, wind direction can be caused
Adjustment component 50 deforms.If wind direction adjustment component 50 deform, such as operate stop when wind direction adjustment component 50 with
Occur big gap between shell 11 and degraded appearance.
Such stress concentration in order to prevent, the recess 60 that part is pivotally supported in the center of wind direction adjustment component 50 are set
There is supported portion 53.As shown in figure 12, using between the upper limb 27a and lower edge 27b of the blow-off outlet 27 for being erected at shell 11
The supported portion 53 that center is pivotally supported part by supporting part 71 is supported to and can rotate.In addition, in wind direction adjustment component 50
Right part 61 and left part 62 are provided with flange 59 of the width more than the thickness of wind direction adjustment component 50 (with reference to Fig. 3).And then
These flanges 59 are provided with supported portion 53.The supported portion 53 of these flanges 59, which is rotatably embedded into, to be set
In the supporting part (not shown) of shell 11.
In the following, component 50 is adjusted to wind direction before the concave part 57 to being arranged at wind direction adjustment component 50 illustrates
Posture and the relation of air-flow illustrate.As shown in Figure 13 (a), indoor apparatus of air conditioner 10 produced in such as the second wind direction along
The air-flow of side wall WL is set, such air-flow is known as the first air-flow CL1.When producing the first air-flow CL1, wind direction adjustment component
Upper surface 51 is rearward rotated relative to vertical guide, takes the front end 55 of wind direction adjustment component 50 positioned at than rear end 56 rearward
The posture of position, is known as the first posture by such posture.
In addition, as shown in Figure 13 (b), in such as the first wind direction, the 3rd wind direction or five wind directions, produce compared to blowout
Such air-flow is known as the second air-flow CL2 by mouth 27 towards the air-flow in front.In the second air-flow CL2 as generation, wind direction
Adjustment component 50 takes wind direction adjustment member upper surface 51 relative to the rotation of vertical face forward and before wind direction adjustment component 50
End 55 is located at the posture by the position of front side than rear end 56, and such posture is known as the second posture.
Enlargedly show that wind direction is adjusted under the blow-off outlet 27 in the state of component 50 takes the first posture in fig. 14
Around edge 27b.Concave part 57 is formed by the step difference of wind direction adjustment component lower surface 52.It is vertical with left and right directions utilizing
In the cross sectional shape that face cuts off wind direction adjustment component 50, downwardly projecting song is described in the front side of wind direction adjustment component lower surface 52
Line, in contrast, rear side depicts curve protruding upward.The structure of component lower surface 52, wind are adjusted according to such wind direction
The rear side for depicting curve protruding upward to adjustment component lower surface 52 is recessed and forms step difference upwards, the upward depression
And the step difference part formed is concave part 57.
When taking the second wind direction of the first posture, wind direction adjustment component 50 is installed into, the lower edge 27b of blow-off outlet 27 into
Enter to being formed in the concave part 57 of wind direction adjustment component lower surface 52.Therefore, with not having in wind direction adjustment component lower surface 52
The situation of concave part 57 is compared, and the front end for correspondingly, making wind direction adjustment component 50 can be entered in concave part 57 with lower edge 27b
55 move further back.As a result, compared with the situation of no concave part 57, due to there is concave part 57, therefore, it is possible to make
Air-flow from the position of higher along set side wall WL.
(5) structure of the lower edge 27b of blow-off outlet 27
As shown in figure 14, in lower edge 27b formed with the backs 72 rearward retreated, and formed with rearward concave groove
Portion 73.With by lower edge 27b it is straight, cut away vertical as shape or lower edge 27b is shaped so as to downwards
And prominent situation is compared forwards, due to formed with backs 72, therefore, it is possible to make the front end 55 of wind direction adjustment component 50 into
One step rearward moves.In other words, wind direction adjustment member upper surface 51 can be taken to turn to the posture at the rear of vertical guide.Its
As a result, in the second wind direction, compared with not forming the situation of backs 72, wind direction adjustment component 50 can take make air-flow from
First posture of the position of higher along setting side wall WL.
When taking the first posture, there is gap between lower edge 27b and wind direction adjustment component lower surface 52.When cold wind stream
During to the gap, according to environmental condition, condense sometimes in lower edge 27b and wind direction adjustment component 50.Groove portion 73, which plays, to be made
The effect for the air turbulence that the gap produces.Due to the air turbulence that is produced in the gap and air is stirred, so as to be not easy to send out
Raw condensation.
(6) variation
(6-1) variation A
In the above-described embodiment, to passing through feelings of the step difference formed with concave part 57 in wind direction adjustment component lower surface 52
Condition is illustrated, and the inclined end face 57A it is also possible to wind direction adjustment component 50A as shown in Figure 15 and Figure 16 is such, utilizes
Inclined end face 57A forms concave part.In the cross sectional shape for being cut off wind direction adjustment component 50A using the face vertical with left and right directions
In, downwardly projecting gentle curve is described in the front side of wind direction adjustment component lower surface 52A, inclines in contrast, rear side is depicted
Tiltedly larger straight line.The structure of component lower surface 52A is adjusted according to such wind direction, wind direction adjustment component lower surface 52A's
Rear side is by inclined end face 57A formed with concave part.
When wind direction adjustment component 50A takes the first posture, in the blowout opposed with the inclined end face 57A as concave part
The lower edge 27b of mouth 27 is also formed with inclined end face 74.Preferably, rearward rotated and front end 55 in wind direction adjustment component 50A
When rearward moving to greatest extent, the inclined end face 74 as the inclined end face 57A and lower edge 27b of concave part is configured to each other
It is parallel.Alternatively, it is also possible to form in the above embodiment the groove portion 73 illustrated in the inclined end face of lower edge 27b.
(7) feature
(7-1)
Wall-hanging air conditioner indoor unit 10 according to the present embodiment, the first posture is taken in wind direction adjustment component 50,50A
When, the lower edge 27b of blow-off outlet 27 enters wind direction adjustment component 50, the concave part 57 of 50A, the inclined end face as concave part
The concave place of 57A.For example, surrounded as the double dot dash line shown in Figure 10 and Figure 16 and wind direction adjustment component lower surface 52,52A
The space formed be concave part 57, as concave part inclined end face 57A concave place.Due to lower edge 27b enter it is recessed
Concave portion 57, as concave part inclined end face 57A concave place, it is thus possible to increase the scope of rotational action, accordingly, it is capable to
It is enough to relax the current-controlled limitation for being used for ensuring comfort.In addition, in indoor apparatus of air conditioner 10, due to adjusting component in wind direction
Concave part 57, the inclined end face 57A as concave part are not easy to be formed boldly at lower surface 52,52A, therefore, it is possible to well
Keep design.In addition, using such as concave part 57, extend as the front and rear plane of the inclined end face 57A of concave part and formed
Plane shown in double dot dash line.
(7-2)
As shown in figure 14, the shell 11 of indoor apparatus of air conditioner 10 is equipped with and wind direction adjustment part at the lower edge 27b of blow-off outlet 27
The corresponding backs 72 of shape of part lower surface 52, and the backs is formed in and takes wind direction during the first posture to adjust component
The opposed position of the rearward end of 50 wind direction adjustment component lower surface 52.Due to the shape pair with wind direction adjustment component lower surface 52
Should ground be provided with the backs 72, therefore, compared with being not provided with the situation of backs 72, can increase wind direction adjustment component 50 to
The slewing area of rear side.As a result, the degree that can increase with slewing area correspondingly relaxes the air-flow of indoor apparatus of air conditioner 10
The limitation of control.
(7-3)
As shown in figure 14, the gap adjusted wind direction between component 50 and shell 11 is opposed to formed with being arranged at shell
The groove portion 73 of the lower edge 27b of 11 blow-off outlet 27.As a result, can be in gap of the wind direction adjustment component 50 with shell 11
The air-flow of flowing is stirred, and the gap that groove portion 73 suppresses to occur between wind direction adjustment component 50 and shell 11 can be utilized to send out
Raw condensation.
(7-4)
As shown in Figure 15 and Figure 16, due to the inclined end face 57A and shell 11 as concave part of wind direction adjustment component 50A
Inclined end face 74 it is opposite each other in the first posture of wind direction adjustment component 50A, therefore, it is possible to increase wind direction adjustment component
Slewing areas of the 50A to rear side.It can make slewing area with adjusting these inclined end faces of component 50 and shell 11 using wind direction
The degree of increase correspondingly relaxes the current-controlled limitation of indoor apparatus of air conditioner 10.
(7-5)
Compared with being not provided with the situation of concave part 57 in wind direction adjustment component 50, wind direction adjusts the strong of the rearward end of component 50
Spend due to the concave part 57 of the rearward end of wind direction adjustment component 50 and reduce.Flange 59 is set by the sidepiece in concave part 57,
So as to be reinforced wind direction adjustment component 50 using flange 59, the rearward end even in wind direction adjustment component 50 sets concave part
57, it can also suppress the deformation of wind direction adjustment component 50.Wind direction adjustment component 50 is reinforced by using flange 59, so as to
Enough prevent the reduction of the wind direction adjustment function as caused by the deformation of wind direction adjustment component 50, and can prevent since wind direction adjusts
The deformation of component 50 makes design be deteriorated.
Label declaration
10:Indoor apparatus of air conditioner
11:Shell
16:Bottom frame
16b:Swirled air blows out flow path
16c:Flow path upper surface
16d:Flow path lower surface
27:Blow-off outlet
27a:Upper limb
27b:Lower edge
30:Second sub-barrier
40:First sub-barrier
50、50A:Wind direction adjusts component
51:Wind direction adjusts member upper surface
52:Wind direction adjustment component lower surface
55:Front end
56:Rear end
57:Concave part
57A:Inclined end face (example of concave part)
59:Flange
72:Backs
73:Groove portion
Prior art literature
Patent document
Patent document 1:Japanese Unexamined Patent Publication 2007-93092 publications
Claims (5)
1. a kind of wall-hanging air conditioner indoor unit, wherein,
The wall-hanging air conditioner indoor unit possesses:
Shell (11), thereafter face be fixed in setting side wall, rear face described in the ratio in the shell is formed by the position of front side
There is the blow-off outlet (27) of blowout tempered air;
Wind direction adjustment component (50,50A), it has:Close to lower edge (27b) place for the blow-off outlet for being set in the shell
Pivot rear end (56);Front end (55) away from the pivot;To the blow out air blown out from the blow-off outlet
The upper surface (51) that is adjusted of wind direction and opposite side in the upper surface lower surface (52), in the lower surface
Rearward end formed with concave concave part upwards (57,57A),
Wind direction adjustment component is configured to, in generation compared to the blow-off outlet towards the direction of the setting side wall first
During air-flow, can take the upper surface turn to vertical guide rear and the front end positioned at position than the rear end rearward
The first posture put, generation towards the front of the blow-off outlet the second air-flow when, can take the upper surface relative to
Vertical face forward rotate and the front end be located at than the rear end by front side position the second posture, the wind direction adjustment part
Part is installed into, and when taking first posture, the lower edge of the blow-off outlet is entered in the concave part.
2. wall-hanging air conditioner indoor unit according to claim 1, wherein,
The shell is equipped with the shape with the lower surface of wind direction adjustment component in the lower edge of the blow-off outlet
Corresponding backs (72), and the institute of the wind direction adjustment component when backs is formed in and takes first posture
State the opposed position of the rearward end of lower surface.
3. wall-hanging air conditioner indoor unit according to claim 1 or 2, wherein,
The shell is equipped with groove portion (73) in the lower edge of the blow-off outlet, and the groove portion is formed in and takes described
The opposed position of the rearward end of the lower surface of wind direction adjustment component during one posture.
4. wall-hanging air conditioner indoor unit according to claim 1, wherein,
The wind direction adjustment component and the shell are opposite each other when wind direction adjustment component takes first posture
Each position is formed with inclined end face.
5. the wall-hanging air conditioner indoor unit according to any one of Claims 1-4, wherein,
There is flange (59) in the sidepiece of the concave part of wind direction adjustment component,
The shell is pivoted supporting to the flange so that the wind direction adjustment component can rotate in the up-down direction.
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2015178771A JP6065076B1 (en) | 2015-09-10 | 2015-09-10 | Wall-mounted air conditioning indoor unit |
JP2015-178771 | 2015-09-10 | ||
PCT/JP2016/076197 WO2017043493A1 (en) | 2015-09-10 | 2016-09-06 | Wall mounting air-conditioning indoor unit |
Publications (1)
Publication Number | Publication Date |
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CN108027164A true CN108027164A (en) | 2018-05-11 |
Family
ID=57890432
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201680051293.3A Pending CN108027164A (en) | 2015-09-10 | 2016-09-06 | Wall-hanging air conditioner indoor unit |
Country Status (5)
Country | Link |
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EP (1) | EP3348930A4 (en) |
JP (1) | JP6065076B1 (en) |
CN (1) | CN108027164A (en) |
AU (1) | AU2016319452B8 (en) |
WO (1) | WO2017043493A1 (en) |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
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JP6485515B1 (en) | 2017-09-27 | 2019-03-20 | ダイキン工業株式会社 | Air conditioning indoor unit |
JP7082293B2 (en) * | 2019-09-17 | 2022-06-08 | ダイキン工業株式会社 | Air conditioning indoor unit and air conditioner |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN1906447A (en) * | 2003-11-28 | 2007-01-31 | 夏普株式会社 | Air conditioner |
JP2007093092A (en) * | 2005-09-28 | 2007-04-12 | Fujitsu General Ltd | Air-conditioner |
CN102954539A (en) * | 2011-08-18 | 2013-03-06 | 三菱电机株式会社 | indoor unit for air-conditioning apparatus and air-conditioning apparatus including same |
CN103827594A (en) * | 2011-09-30 | 2014-05-28 | 大金工业株式会社 | Air-conditioning indoor unit |
CN104603550A (en) * | 2012-08-28 | 2015-05-06 | 大金工业株式会社 | Indoor air-conditioning unit |
Family Cites Families (7)
Publication number | Priority date | Publication date | Assignee | Title |
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JP3379303B2 (en) * | 1995-10-17 | 2003-02-24 | 松下電器産業株式会社 | Indoor unit of air conditioner |
JP3482766B2 (en) * | 1996-05-20 | 2004-01-06 | 株式会社富士通ゼネラル | Air conditioner |
JP4149173B2 (en) * | 2002-02-08 | 2008-09-10 | シャープ株式会社 | Blower |
JP4458826B2 (en) * | 2003-11-28 | 2010-04-28 | シャープ株式会社 | Air conditioner |
JP2010091260A (en) * | 2008-09-09 | 2010-04-22 | Daikin Ind Ltd | Air conditioner |
JP5408318B1 (en) * | 2012-09-13 | 2014-02-05 | ダイキン工業株式会社 | Air conditioning indoor unit |
WO2014199590A1 (en) * | 2013-06-12 | 2014-12-18 | パナソニックIpマネジメント株式会社 | Air conditioner |
-
2015
- 2015-09-10 JP JP2015178771A patent/JP6065076B1/en active Active
-
2016
- 2016-09-06 WO PCT/JP2016/076197 patent/WO2017043493A1/en active Application Filing
- 2016-09-06 EP EP16844354.7A patent/EP3348930A4/en not_active Withdrawn
- 2016-09-06 AU AU2016319452A patent/AU2016319452B8/en not_active Ceased
- 2016-09-06 CN CN201680051293.3A patent/CN108027164A/en active Pending
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1906447A (en) * | 2003-11-28 | 2007-01-31 | 夏普株式会社 | Air conditioner |
JP2007093092A (en) * | 2005-09-28 | 2007-04-12 | Fujitsu General Ltd | Air-conditioner |
CN102954539A (en) * | 2011-08-18 | 2013-03-06 | 三菱电机株式会社 | indoor unit for air-conditioning apparatus and air-conditioning apparatus including same |
CN103827594A (en) * | 2011-09-30 | 2014-05-28 | 大金工业株式会社 | Air-conditioning indoor unit |
CN104603550A (en) * | 2012-08-28 | 2015-05-06 | 大金工业株式会社 | Indoor air-conditioning unit |
EP2891847A1 (en) * | 2012-08-28 | 2015-07-08 | Daikin Industries, Ltd. | Indoor air-conditioning unit |
Also Published As
Publication number | Publication date |
---|---|
AU2016319452B2 (en) | 2019-07-18 |
JP2017053565A (en) | 2017-03-16 |
EP3348930A4 (en) | 2018-09-12 |
AU2016319452B8 (en) | 2019-08-08 |
AU2016319452A1 (en) | 2018-04-19 |
WO2017043493A1 (en) | 2017-03-16 |
JP6065076B1 (en) | 2017-01-25 |
EP3348930A1 (en) | 2018-07-18 |
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Application publication date: 20180511 |