CN203454267U - Wall-mounted air conditioner - Google Patents

Abstract

The utility model provides a wall-mounted air conditioner. The wall-mounted air conditioner comprises an outer shell, wherein an air inlet and at least one air outlet are formed in the front portion of the outer shell. The wall-mounted air conditioner further comprises a heat exchanger, a front panel, a centrifugal fan, an air passage, independent air guide components and a controller, wherein the heat exchanger is arranged at the air inlet, the front panel is located in front of the heat exchanger and installed at the air inlet in a rotary mode to open or close the air inlet, the centrifugal fan corresponds to the air inlet and is located at the back of the heat exchanger, the air passage is formed in the outer shell and communicated with the air inlet and the air outlets, the independent air guide components are respectively arranged at the air outlets and feed air at 360 degrees, and the controller controls the work of the centrifugal fan, the independent air guide components and the front panel. The wall-mounted air conditioner has the advantages of low power consumption and convenient and flexible usage of a common wall-mounted air conditioner, further has the advantages of being long in air feeding distance, high in refrigeration and heating speed and good in comfort, and can flexibly achieve multi-dimension and 360-degree fixed-point air feeding.

Description

Wall-hanging air conditioner

Technical field

The utility model belongs to air-conditioning technical field, relates in particular to a kind of wall-hanging air conditioner.

Background technology

Refer to Fig. 1, conventional wall-hanging air conditioner, generally adopts tubular wind wheel 101, from the top of shell 102 or front air intake, from air-out below, its air outlet 103 is generally slender type.The advantage of tubular wind wheel 101 air-supplies is that air-flow is steady, even, and shortcoming is that air supplying distance is little because pressure is low, and blowing range is little, blows not farly, and room cooling and warming speed is slow.Therefore conventional wall-hanging air conditioner is generally used in room or the less occasion of office space, and the height of installation is generally all 2.5 meters of left and right.

The occasion large at spatial area, story height is high, most of central air-conditioning or cabinet-type air conditioner installed, although and cabinet-type air conditioner and central air-conditioning air supplying distance are far away, pressure is large, but have that power consumption is high, the problem of central air-conditioning installation complexity, cabinet-type air conditioner will take ground space etc.

Utility model content

The object of the utility model embodiment is to provide a kind of wall-hanging air conditioner, is intended to solve that the wall-hanging air conditioner air supplying distance existing in prior art is little, blowing range is little, the slow-footed problem of cooling and warming.

The utility model embodiment realizes like this, a kind of wall-hanging air conditioner, it comprises shell, the front face of described shell offers air intake vent and at least one air outlet, described wall-hanging air conditioner also comprises the heat exchanger that is arranged at described air intake vent place, be positioned at described heat exchanger above and rotate and be installed on described air intake vent and sentence the front panel that opens or closes described air intake vent, corresponding with described air intake vent and be positioned at the centrifugal blower below of described heat exchanger, be formed in described shell and be communicated with the air channel of described air intake vent and described air outlet, being arranged at air outlet described in each sentences the independent wind guide component of blowing in 360 degree angles and controls described centrifugal blower, the controller of described independent wind guide component and the action of described front panel.

Further, the quantity of described air outlet is one, and this air outlet is opened in left side or the right side of the front face of described shell.

Further, the quantity of described air outlet is at least two, and described air outlet is distributed in the left and right sides of the front face of described shell, and described air intake vent is between the described air outlet of the left and right sides.

Further, the quantity of described centrifugal blower is at least two, and described at least two centrifugal blowers are faced described air intake vent plane and arranged.

Further, the quantity of described centrifugal blower is two, described wall-hanging air conditioner also comprise by the air-out guiding of a centrifugal blower be wherein positioned at left side air outlet place the first anticentripetal spiral casing and the air-out guiding of an other centrifugal blower is positioned to second anticentripetal spiral casing at the air outlet place on right side.

Further, described wall-hanging air conditioner also comprises the driving mechanism that drives described front panel rotating opening or closure, described air outlet place is provided with relative two assembly walls, and described driving mechanism comprises two motors, two driven wheels and the two transmission corner blocks on two assembly walls that are installed on respectively described air outlet; The output shaft of described two motors is connected on described two driven wheels, and drives described driven wheel to rotate; The opposite end portion of the bottom side of described front panel is provided with 2 first support arms, and the opposite end portion of the top side of described front panel is provided with 2 second support arms; Each driven wheel is outward extended with a rotation section by its peripheral part, and described rotation section is rotationally connected with on described the first support arm; One end of each transmission corner block is rotationally connected with on described the second support arm, and the end face of the other end is provided with some the first teeth and is meshed with the second tooth on described driven wheel.

Further, described wall-hanging air conditioner also comprises and is arranged at described heat exchanger bottom to receive the drip tray of condensed water, described drip tray comprises base plate and the frame being extended in the same way by the surrounding edge of described base plate, and described frame surrounds four sides, bottom of described heat exchanger.

Further, the base plate of described drip tray is tilted towards middle part by its opposite end and forms a low-lying water storage portion, and described wall-hanging air conditioner also comprises a drainpipe that is connected in described water storage portion and the condensed water being stored in described water storage portion is discharged.

Further, described air outlet place is provided with ring wall, described independent wind guide component comprises housing, be arranged on described ring wall and in the first plane, come back rotation the first rotating mechanism, be arranged at the second rotating mechanism of back rotation on described housing and in the second plane and by described the first rotating mechanism and described the second rotating mechanism links together so that the installing rack that described the second rotating mechanism and described housing rotate along with the rotation of described the first rotating mechanism.

Further, described housing has spherical outer surface, and described ring wall has spherical inner surface, and the centre of sphere of the spherical outer surface of described housing overlaps with the centre of sphere of the spherical inner surface of described ring wall.

Further, described housing has axiolitic outer surface, and described ring wall has axiolitic inner surface, and the centre of sphere of the ellipse spherical outer surface of described housing overlaps with the centre of sphere of the ellipse spherical inner surface of described ring wall.

Further, described the first rotating mechanism comprises the first axle part and the second axle part that rotates respectively relative two inner sides that are installed in described ring wall, the first drive motors that is fixed at the first gear pair on described the first axle part and drives described the first gear pair to rotate, the common first center of rotation axis that forms of described the first axle part and described the second axle part, described installing rack comprises one first hold-down arm, the opposite end of described the first hold-down arm is individually fixed on described the first axle part and the second axle part, described the first gear pair rotates and drives described the first hold-down arm to rotate around described the first center of rotation axis.

Further, described the second rotating mechanism comprise the relative both sides that are fixed at respectively described housing the 3rd axle part and the 4th axle part, be fixed at the second gear pair and the second drive motors on described the 3rd axle part, described installing rack also comprises one second hold-down arm, and described the second hold-down arm intersects and is fixedly connected with described the first hold-down arm; The opposite end of described the second hold-down arm rotates respectively and is installed on described the 3rd axle part and described the 4th axle part, and forms the second center of rotation axis; Described the second drive motors drives described the second gear pair to rotate around described the second center of rotation axis.

Further, between the inner surface of the opposite end of described the first hold-down arm and corresponding ring wall, be equiped with two vibration damping rubber cushions, wherein a shock-reducing rubber cushion cover is on described the first axle part, and an other shock-reducing rubber cushion cover is on described the second axle part.

Further, described housing has spherical or axiolitic outer surface, and interconnection place of described the first hold-down arm and described the second hold-down arm is positioned at the centre of sphere place of the spherical or ellipse spherical outer surface of described housing.

Further, described housing comprises the first frame portion and is placed on the second frame portion outside described the first frame portion, described the 3rd axle part and described the 4th axle part are installed in the first frame portion of described housing, and the opposite end of described the second hold-down arm stretches between described the first frame portion and described the second frame portion.

When controller control front panel is opened, air-flow carries out heat exchange at air intake vent place and described heat exchanger under the effect of centrifugal blower, then air-flow is discharged by independent wind guide component through air channel, this independent wind guide component can be blown in 360 degree angles, has increased the blowing range of air-conditioner, has improved the comfortableness that user uses, by centrifugal blower, substitute tubular wind wheel as the dynamical element of air-flow, increase the air supplying distance of air-conditioner, thus, improved the cooling and warming speed of air-conditioner.Above-mentioned wall-hanging air conditioner has the little power consumption of conventional wall-hanging air conditioner, and the feature of easy to use and flexible also has air supplying distance far away simultaneously, and the advantage that room cooling and warming speed is fast, comfortableness is good can realize various dimensions, 360 degree fixed point air-supplies neatly.

Accompanying drawing explanation

Fig. 1 is the structure chart of the wall-hanging air conditioner that provides of prior art.

Fig. 2 is the structural representation of the wall-hanging air conditioner that provides of the utility model the first embodiment, and wherein front panel is in open mode.

The structural representation of the front panel of wall-hanging air conditioner that Fig. 3 shows Fig. 2 in closed condition.

Fig. 4 is the structural representation of the wall-hanging air conditioner that provides of the utility model the second embodiment, and wherein front panel is in open mode.

Fig. 5 is the structural representation of the wall-hanging air conditioner that provides of the utility model the 3rd embodiment, and wherein front panel is in open mode.

Fig. 6 shows the two independent wind guide components of wall-hanging air conditioner of Fig. 5 respectively towards the schematic diagram of the left and right sides of air-conditioner wind-guiding.

Fig. 7 shows the two independent wind guide components of wall-hanging air conditioner of Fig. 5 respectively towards the schematic diagram of the middle part of air-conditioner wind-guiding.

Fig. 8 shows the two independent wind guide components of wall-hanging air conditioner of Fig. 5 all towards the schematic diagram of the right side of air-conditioner wind-guiding.

Fig. 9 shows the two independent wind guide components of wall-hanging air conditioner of Fig. 5 all towards the schematic diagram of the left side of air-conditioner wind-guiding.

Figure 10 is the structural representation of the wall-hanging air conditioner that provides of the utility model the 4th embodiment, and wherein front panel is in open mode.

Figure 11 is the perspective exploded view of the wall-hanging air conditioner of Figure 10.

Figure 12 is the front panel of wall-hanging air conditioner and the perspective view of driving mechanism of Figure 11.

Figure 13 is the perspective view of drip tray of the wall-hanging air conditioner of Figure 11.

Figure 14 is the perspective view of independent wind guide component of the wall-hanging air conditioner of Figure 11.

Figure 15 is the perspective view of another angle of independent wind guide component of the wall-hanging air conditioner of Figure 14.

Figure 16 is the three-dimensional exploded view of the first rotating mechanism, the second rotating mechanism and installing rack of independent wind guide component of the wall-hanging air conditioner of Figure 14.

Figure 17 is the three-dimensional exploded view of another angle of the first rotating mechanism, the second rotating mechanism and installing rack of independent wind guide component of the wall-hanging air conditioner of Figure 16.

Figure 18 is another structural representation of housing of the wall-hanging air conditioner of Figure 11.

The related element numbers of above-mentioned each accompanying drawing is detailed as follows:

Tubular wind wheel	101	The second tooth	421c
				Shell
	102	The first independent wind guide component	31c
				Air outlet
	103	The second independent wind guide component	32c
				Wall-hanging air conditioner	100、200、300、400	Housing	33c
Shell
		10、10a、10b、10c	Spherical outer surface	34c
Air intake vent					11、11a、11b、11c	Spherical inner surface	35c
	Air outlet
		12、12a、12b、12c	The first frame portion	330c
	Heat exchanger
		13、13a、13b、13c	The second frame portion	331c
	Front panel
		14、14a、14b、14c	Connecting ring		332c
	Air channel
		15、15a、15b、15c	Wind guide vane	333c
	Centrifugal blower				20、20a、20b、20c	The first rotating mechanism	60c
Independent wind guide component		30、30a、30b、30c	The first axle part	61c
	Fore shell
		16c	The second axle part	62c
	Back cover
		17c	The first gear pair	63c
	Centrifugal wind wheel				25c	The first drive motors	64c
The first anticentripetal spiral casing		21c	The first gear	65c
	The second anticentripetal spiral casing				22c	The 3rd tooth	66c
The first centrifugal blower		23c	Mounting ear					67c

The second centrifugal blower	24c	The second rotating mechanism	70c
				The first air outlet	121c	The second gear pair	71c
The second air outlet	122c	The second drive motors	72c
				The first air channel	151c	The second gear	73c
The second air channel	152c	The 4th tooth	74c
				Actuator	26c	Lug		75c
The first support arm	141c	Installing rack	80c
				The second support arm	142c	The first hold-down arm	81c
Ring wall
		123c	Support arm		82c
Driving mechanism						40c	Fixing ear	83c
	Assembly wall
		18c	The second hold-down arm	84c
	Motor
		41c	Fixed arm	85c
	Driven wheel				42c	Vibration damping rubber cushion	86c
Transmission corner block		43c	Drip tray					50c
	First end				431c	Base plate			51c
The second end		432c	Frame					52c
	The first tooth				433c	Water storage portion	53c
Rotation section
		420c	Drainpipe	54c

The specific embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.

Core technology scheme of the present utility model is: wall-hanging air conditioner comprises shell, and the front face of described shell offers air intake vent and at least one air outlet.Described wall-hanging air conditioner also comprises the heat exchanger that is arranged at described air intake vent place, be positioned at described heat exchanger above and rotate and be installed on described air intake vent and sentence the front panel that opens or closes described air intake vent, corresponding with described air intake vent and be positioned at the centrifugal blower below of described heat exchanger, be formed in described shell and be communicated with the air channel of described air intake vent and described air outlet, being arranged at air outlet described in each sentences the independent wind guide component of blowing in 360 degree angles and controls described centrifugal blower, the controller of described independent wind guide component and the action of described front panel.

When controller control front panel is opened, air-flow carries out heat exchange at air intake vent place and described heat exchanger under the effect of centrifugal blower, then air-flow is discharged by independent wind guide component through air channel, this independent wind guide component can be blown in 360 degree angles, has increased the blowing range of air-conditioner, has improved the comfortableness that user uses, by centrifugal blower, substitute tubular wind wheel as the dynamical element of air-flow, increase the air supplying distance of air-conditioner, thus, improved the cooling and warming speed of air-conditioner.

Above-mentioned wall-hanging air conditioner has the little power consumption of conventional wall-hanging air conditioner, and the feature of easy to use and flexible also has air supplying distance far away simultaneously, and the advantage that room cooling and warming speed is fast, comfortableness is good can realize various dimensions, 360 degree fixed point air-supplies neatly.

Here the meaning that said independent wind guide component is blown in 360 degree angles is that independent wind guide component can be at loopback wind on both direction at least, particularly, independent wind guide component can be blown up and down, also can blow left and right, understandably, independent wind guide component can carry out loopback wind in two crossing directions, is not limited in the direction of two quadratures of upper and lower and left and right.

The wind that independent wind guide component is sent is in a three-dimensional scope, as the scope that people's eyes are seen, when independent wind guide component is blown left, in a three-dimensional scope in left side, by wind, covered, when independent wind guide component is blown to the right, in a three-dimensional scope on right side, by wind, covered, when independent wind guide component is upwards blown, in a three-dimensional scope of upside, by wind, covered, when independent wind guide component is blown downwards, in a three-dimensional scope of downside, by wind, covered, according to user's air-supply demand, can control by controller (air-conditioner) air supply direction of independent wind guide component, thus, independent wind guide component can cover wind in the 360 degree angles in air outlet the place ahead.

By four embodiment, introduce in detail above-mentioned core technology scheme below.

Please refer to Fig. 2 and Fig. 3, the wall-hanging air conditioner 100 that the utility model the first embodiment provides comprises shell 10, and the front face of described shell 10 offers air intake vent 11 and air outlet 12.Described wall-hanging air conditioner 100 also comprises the heat exchanger 13 that is arranged at described air intake vent 11 places, be positioned at described heat exchanger 13 above and rotate and be installed on described air intake vent 11 and sentence the front panel 14 that opens or closes described air intake vent 11, corresponding with described air intake vent 11 and be positioned at the centrifugal blower 20 below of described heat exchanger 13, be formed in described shell 10 and be communicated with the air channel 15 of described air intake vent 11 and described air outlet 12, being arranged at described air outlet 12 sentences the independent wind guide component 30 of blowing in 360 degree angles and controls described centrifugal blower 20, the controller (not shown) of described independent wind guide component 30 and 14 actions of described front panel.

In the present embodiment, air intake vent 11 is one, air outlet 12 is one, centrifugal blower 20 is one, independent wind guide component 30 is one, this air outlet 12 is opened in the left side of the front face of described shell 10, and said left side refers to that hypothesis people stands in the back of air-conditioner 100 and towards air-conditioner 10, air outlet 12 is positioned at people's left-hand side here.

Refer to Fig. 4, the wall-hanging air conditioner 200 that the utility model the second embodiment provides comprises shell 10a, and the front face of described shell 10a offers air intake vent 11a and air outlet 12a.Described wall-hanging air conditioner 200 also comprises the heat exchanger 13a that is arranged at described air intake vent 11a place, be positioned at described heat exchanger 13a above and rotate and be installed on described air intake vent 11a and sentence the front panel 14a that opens or closes described air intake vent 11a, corresponding with described air intake vent 11a and be positioned at the centrifugal blower 20a below of described heat exchanger 13a, be formed in described shell 10a and be communicated with the air channel 15a of described air intake vent 11a and described air outlet 12a, being arranged at described air outlet 12a sentences the independent wind guide component 30a blowing in 360 degree angles and controls described centrifugal blower 20a, the controller (not shown) of described independent wind guide component 30a and described front panel 14a action.

In the present embodiment, air intake vent 11a is one, air outlet 12a is one, centrifugal blower 20a is one, independent wind guide component 30a is one, this air outlet 12a is opened in the right side of the front face of described shell 10a, and said right side refers to that hypothesis people stands in the back of air-conditioner 200 and towards air-conditioner 200, air outlet 12a is positioned at people's right-hand side here.

Refer to Fig. 5, the wall-hanging air conditioner 300 that the utility model the 3rd embodiment provides comprises shell 10b, and the front face of described shell 10b offers air intake vent 11b and air outlet 12b.Described wall-hanging air conditioner 300 also comprises the heat exchanger 13b that is arranged at described air intake vent 11b place, be positioned at described heat exchanger 13b above and rotate and be installed on described air intake vent 11b and sentence the front panel 14b that opens or closes described air intake vent 11b, corresponding with described air intake vent 11b and be positioned at the centrifugal blower 20b below of described heat exchanger 13b, be formed in described shell 10b and be communicated with the air channel 15b of described air intake vent 11b and described air outlet 12b, being arranged at each air outlet 12b sentences the independent wind guide component 30b blowing in 360 degree angles and controls described centrifugal blower 20b, the controller (not shown) of described independent wind guide component 30b and described front panel 14b action.

In the present embodiment, the quantity of described air outlet 12b is two, air intake vent 11b is one, these two air outlet 12b are distributed in the left and right sides of the front face of described shell 10b, described air intake vent 11b is between the described air outlet 12b of the left and right sides, here said left side is identical with the implication on the implication on right side and the left side in the first embodiment and the right side in the second embodiment, at this, does not add and repeats, and the implication on this left side and right side is applicable to other embodiment equally.Corresponding to two air outlet 12b in the present embodiment, independent wind guide component 30b is also two.

In other embodiments, the quantity of air outlet 12b can be more than two, and these air outlets 12b is distributed in the left and right sides of the front face of described shell 10b, and described air intake vent 11b is between the described air outlet 12b of the left and right sides.

In the present embodiment, the quantity of centrifugal blower 20b is one.

Please refer to Fig. 6 to Fig. 9, two independent wind guide component 30b can blow in the opposite direction, and the independent wind guide component 30b in left side is towards left side wind-guiding, and the independent wind guide component 30b on right side is towards right side wind-guiding, as shown in Figure 6; Two independent wind guide component 30b also can blow in opposite directions, and the independent wind guide component 30b in left side is towards right side wind-guiding, and the independent wind guide component 30b on right side is towards left side wind-guiding, as shown in Figure 7; Two independent wind guide component 30b are all towards right air-supply, and as shown in Figure 8, two independent wind guide component 30b are all towards left air-supply, as shown in Figure 9; Understandably, two independent wind guide component 30b wind-guiding up and down.

By the cooperation of two independent wind guide component 30b, can make the air supplying distance of air-conditioner 300 farther, also can realize at synchronization and freeze or heat to different regions, also can realize the air supply direction of adjusting two independent wind guide component 30b for the air-supply demand of different people, can allow user that different individual demands is set, improve the cooling or heating effect of air-conditioner 300, promoted user's body sense comfortableness.

Refer to Figure 10, the wall-hanging air conditioner 400 that the utility model the 4th embodiment provides comprises shell 10c, and the front face of described shell 10c offers air intake vent 11c and air outlet 12c.Described wall-hanging air conditioner 200 also comprises the heat exchanger 13c that is arranged at described air intake vent 11c place, be positioned at described heat exchanger 13c above and rotate and be installed on described air intake vent 11c and sentence the front panel 14c that opens or closes described air intake vent 11c, corresponding with described air intake vent 11c and be positioned at the centrifugal blower 20c below of described heat exchanger 13c, be formed in described shell 10c and be communicated with the air channel 15c of described air intake vent 11c and described air outlet 12c, being arranged at each air outlet 12c sentences the independent wind guide component 30c blowing in 360 degree angles and controls described centrifugal blower 20c, the controller (not shown) of described independent wind guide component 30c and described front panel 14c action.

In the present embodiment, the quantity of described air outlet 12c is two, and air intake vent 11c is one, and these two air outlet 12c are distributed in the left and right sides of the front face of described shell 10c, and described air intake vent 11c is between the described air outlet 12c of the left and right sides.Corresponding to two air outlet 12c in the present embodiment, independent wind guide component 30c is also two.

In other embodiments, the quantity of air outlet 12c can be more than two, and these air outlets 12c is distributed in the left and right sides of the front face of described shell 10c, and described air intake vent 11c is between the described air outlet 12c of the left and right sides.

In the present embodiment, the quantity of centrifugal blower 20c is two, and these centrifugal blowers 20c faces described air intake vent 11c plane and arranges, rather than overlapping arranging.

In other embodiments, the quantity of centrifugal blower 20c can be more than two, and these centrifugal blowers 20c faces described air intake vent 11c plane and arranges, rather than overlapping arranging.

Please refer to Figure 11, described wall-hanging air conditioner 400 also comprise by the air-out guiding of a centrifugal blower 20c be wherein positioned at left side air outlet 12c place the first anticentripetal spiral casing 21c and by the lead second anticentripetal spiral casing 22c at the air outlet 12c place that is positioned at right side of the air-out of an other centrifugal blower 20c.

Described the first anticentripetal spiral casing 21c and described the second anticentripetal spiral casing 22c have been divided into two parts by described air channel 15c, and a part is the first air channel 151c by the air outlet 12c air-out in left side, and a part is the second air channel 152c by the air outlet 12c air-out on right side.

For convenience, the centrifugal blower 20c that is positioned at the first air channel 151c is defined as to the first centrifugal blower 23c, the centrifugal blower 20c that is positioned at the second air channel 152c is defined as to the second centrifugal blower 24c, the independent wind guide component 30c that is positioned at left side is defined as to the first independent wind guide component 31c, the independent wind guide component 30c that is positioned at right side is defined as to the second independent wind guide component 32c, the air outlet 12c in left side is defined as to the first air outlet 121c, the air outlet 12c on right side is defined as to the second air outlet 122c.

So, the first centrifugal blower 23c and the first independent wind guide component 31c are in the first air channel 151c, and the second centrifugal blower 24c and the second independent wind guide component 32c are in the second air channel 152c.

In the present embodiment, the size of the first centrifugal blower 23c and the second centrifugal blower 24c and diameter is identical or not identical, the first centrifugal blower 23c is identical or not identical with the working speed of the second centrifugal blower 24c, and the leaving air temp at the first air outlet 121c and the second air outlet 122c place is identical or not identical.Controller can regulate separately temperature and the air quantity at the first air outlet 121c and the second air outlet 122c place, the temperature at the first air outlet 121c and the second air outlet 122c place and air quantity can arrange according to user's demand, make the applicable user's of air-conditioner various demands.

In the 4th embodiment, described shell 10c is assembled by fore shell 16c and back cover 17c, and understandably, shell 10c is assembled by fore shell 16c and back cover 17c, goes in first, second, third embodiment.

In the 4th embodiment, the actuator 26c that described the first centrifugal blower 23c comprises centrifugal wind wheel 25c and drives this centrifugal wind wheel 25c to rotate, this actuator 26c is installed on the back cover 17c of described shell 10c, the pivot center of this actuator 26c is perpendicular to back cover 17c, the second centrifugal blower 24c is identical with the first centrifugal blower 23c, understandably, the structure of the first centrifugal blower 23c goes in first, second, third embodiment.

In the 4th embodiment, this fore shell 16c and back cover 17c surround the first centrifugal blower 23c, the second centrifugal blower 24c, the first anticentripetal spiral casing 21c, the second anticentripetal spiral casing 22c, the first independent wind guide component 31c and the second independent wind guide component 32c in it.

Please refer to Figure 12, in the 4th embodiment, described wall-hanging air conditioner 400 also comprises the driving mechanism 40c that drives described front panel 14c rotating opening or closure.Described air outlet 12c place is provided with relative two assembly wall 18c.Described driving mechanism 40c comprises two motor 41c, two driven wheel 42c and the two transmission corner block 43c on the two assembly wall 18c that are installed on respectively described air outlet 12c; It is upper that the output shaft of described two motor 41c is connected in described two driven wheel 42c, and drive described driven wheel 42c to rotate; The opposite end portion of the bottom side of described front panel 14c is provided with 2 first support arm 141c, and the opposite end portion of the top side of described front panel 14c is provided with 2 second support arm 142c; Each driven wheel 42c is outward extended with a rotation section 420c by its peripheral part, and described rotation section 420c is rotationally connected with on described the first support arm 141c; It is upper that the first end 431c of each transmission corner block 43c is rotationally connected with described the second support arm 142c, and the end face of the second end 432c is provided with some the first tooth 433c and is meshed with the second tooth 421c on described driven wheel 42c.

When motor 41c forward rotation, motor 41c drives driven wheel 42c to rotate (clockwise rotating), the second end 432c of transmission corner block 43c swings in shell 10c, and the first end 431c of transmission corner block 43c shell 10c swing dorsad, meanwhile, the first support arm 141c swings in described shell 10c, the second support arm 142c dorsad shell 10c swings, front panel 14c opens, and when motor 41c rotates backward, front panel 14c closes.When air-conditioner 400 is shut down, front panel 14c is closed condition.When air-conditioner 400 operation, front panel 14c opens, air-conditioner 400 front air intakes; When air-conditioner 400 is not worked, front panel 14c is closed condition, and overall appearance is generous.

Driving mechanism 40c in the 4th embodiment is equally applicable to first, second, third embodiment.

Please refer to Figure 13, in the 4th embodiment, described wall-hanging air conditioner 400 also comprises and is arranged at described heat exchanger 13c bottom to receive the drip tray 50c of condensed water.Described drip tray 50c comprises base plate 51c and the frame 52c being extended in the same way by the surrounding edge of described base plate 51c, and described frame 52c surrounds four sides, bottom of described heat exchanger 13c.The base plate 51c of described drip tray 50c is tilted towards middle part by its opposite end and forms a low-lying 53c of water storage portion, and described wall-hanging air conditioner 400 also comprises a drainpipe 54c who is connected in the described water storage 53c of portion and the condensed water being stored in the described water storage 53c of portion is discharged.

Drip tray 50c and drainpipe 54c in the 4th embodiment are equally applicable to first, second, third embodiment.

Please refer to Figure 14 and Figure 15, described the first air outlet 121c, the second air outlet 122c place are provided with ring wall 123c.Each independent wind guide component 30c comprises housing 33c, be arranged at described ring wall 123c upper and in the first plane, come back rotation the first rotating mechanism 60c, be arranged at the second rotating mechanism 70c of back rotation on described housing 33c and in the second plane and by described the first rotating mechanism 60c and described the second rotating mechanism 70c links together so that the installing rack 80c that described the second rotating mechanism 70c and described housing 33c rotate along with the rotation of described the first rotating mechanism 60c.Here said " independence " refer to this wind guide component 30c can do independent parts use on air-conditioner 400.

Independent wind guide component 30c as an integral installation on the ring wall 123c at air outlet 12c place, particularly, independent wind guide component 30c carrys out back rotation by the first rotating mechanism 60c in the first plane, by the connection of the second rotating mechanism 70c and installing rack 80c, in the second plane, carry out back rotation, thereby independent wind guide component 30c integral body is rotated at air outlet 12c place and change air-out direction, air-out direction is effectively changed, rotation in two planes of independent wind guide component 30c realizes Wide blowing angle, independent wind guide component 30c can be positioned to realize and concentrate air-supply in a certain rotation direction.The change of air-out wind direction is that independent wind guide component 30c is due to the change of the turned position at air outlet 12c place, rather than wind blade realizes by arranging, therefore the air current flow of air-conditioner 400 is smooth and easy, in air current flow process, do not have windage to increase, do not follow and raw condensation phenomenon yet.

Particularly, described housing 33c has spherical outer surface 34c, and described ring wall 123c has spherical inner surface 35c, and the centre of sphere of the spherical outer surface 34c of described housing 33c overlaps with the centre of sphere of the spherical inner surface 35c of described ring wall 123c.When the first rotating mechanism 60c and/or the second rotating mechanism 70c work, the spherical inner surface 35c of the spherical outer surface 34c of housing 33c and ring wall 123c can keep same gap all the time, avoid housing 33c and ring wall 123c in rotation process to interfere, in addition, gap between the spherical inner surface 35c of the spherical outer surface 34c of housing 33c and ring wall 123c can be done very littlely, guarantees the seal request between housing 33c and ring wall 123c.

Understandably, the outer surface 34c of described housing 33c is axiolitic, the inner surface 35c of described ring wall 123c is axiolitic, the centre of sphere of the ellipse spherical outer surface 34c of described housing 33c overlaps with the centre of sphere of the ellipse spherical inner surface 35c of described ring wall 123c, when the first rotating mechanism 60c and/or the second rotating mechanism 70c work, the ellipse spherical outer surface 34c of housing 33c and the ellipse spherical inner surface 35c of ring wall 123c can keep same gap all the time, avoid housing 33c and ring wall 123c in rotation process to interfere, in addition, gap between the ellipse spherical outer surface 34c of housing 33c and the ellipse spherical inner surface 35c of ring wall 123c can be done very littlely, guarantee the seal request between housing 33c and ring wall 123c.

Please refer to Figure 16 and Figure 17, described the first rotating mechanism 60c comprises respectively and to rotate the first drive motors 64c that is installed in the first axle part 61c relative to two inner sides of described ring wall 123c and the second axle part 62c, is fixed at the first gear pair 63c on described the first axle part 61c and drives described the first gear pair 63c to rotate.Described the first axle part 61c and described the second axle part 62c be common forms the first center of rotation axis axis of the first rotation with in surface ().Described installing rack 80c comprises one first hold-down arm 81c, the opposite end of described the first hold-down arm 81c is individually fixed in described the first axle part 61c and the second axle part 62c is upper, and described the first gear pair 63c rotates and drives described the first hold-down arm 81c to rotate around described the first center of rotation axis.

When the first gear pair 63c rotates, because the first gear pair 63c and the first axle part 61c fix, and the first axle part 61c and the second axle part 62c rotation are installed on ring wall 123c, therefore, when the first gear pair 63c rotates under the drive of the first drive motors 64c, the first axle part 61c and the second axle part 62c all rotate with respect to ring wall 123c, make the first gear pair 63c with respect to the first center of rotation axis, and the opposite end of the first hold-down arm 81c is fixedly connected with the second axle part 62c with the first axle part 61c respectively, when the first axle part 61c and the second axle part 62c rotate with respect to ring wall 123c simultaneously, the first hold-down arm 81c rotates with respect to the first center of rotation axis.

The first gear 65c is installed on the output shaft of described the first drive motors 64c.Described the first gear 65c is meshed with described the first gear pair 63c.When the first drive motors 64c work, the first gear 65c rotates and drives the first gear pair 63c to rotate.

Described the first gear pair 63c is fan-shaped, and it is upper that the first axle part 61c is fixed in its fan-shaped one end, and the end face of the other end is provided with some the 3rd tooth 66c, and described the first gear 65c is meshed with described the 3rd tooth 66c.The end corresponding to described the first gear pair 63c of the first hold-down arm 81c is provided with two support arm 82c.Described two support arm 82c are stretched out by this end of the first hold-down arm 81c, and the free end of two support arm 82c inwardly forms two fixing ear 83c mutually in the face of bending.Described the first drive motors 64c is provided with two mounting ear 67c, the two mounting ear 67c of described the first drive motors 64c corresponding with described two fixedly ear 83c by fixture (not shown), be connected so that the first drive motors 64c is fixedly installed on described support arm 82c.Now, described the first gear 65c is between described two support arm 82c.Described fixture can be the conventional mounting articles such as screw, rivet.

Described the second rotating mechanism 70c comprise the relative both sides that are fixed at respectively described housing 33c the 3rd axle part (not shown) and the 4th axle part (not shown), be fixed at the second gear pair 71c and the second drive motors 72c on described the 3rd axle part.Described installing rack 80c also comprises one second hold-down arm 84c, and described the second hold-down arm 84c intersects and is fixedly connected with described the first hold-down arm 81c; The opposite end of described the second hold-down arm 84c rotates respectively and is installed on described the 3rd axle part and described the 4th axle part, and forms the second center of rotation axis axis of the second rotation with in surface (); Described the second drive motors 72c drives described the second gear pair 71c to rotate around described the second center of rotation axis.

Because the opposite end of the second hold-down arm 84c rotates respectively, be installed on the 3rd axle part and the 4th axle part, and the 3rd axle part and the 4th axle part are that to be fixedly connected on housing 33c upper, it is rotating making between housing 33c and the second hold-down arm 84c.When the second gear pair 71c rotates under the drive of the second drive motors 72c, the second gear pair 71c and the 3rd axle part rotate together with respect to the corresponding end of the second hold-down arm 84c being, the 4th axle part rotates relative to the corresponding end of the second hold-down arm 84c simultaneously, thus, housing 33c can be at the second rotation with in surface with respect to the second hold-down arm 84c.

The second gear 73c is installed on the output shaft of described the second drive motors 72c.Described the second gear 73c is meshed with described the second gear pair 71c.When the second drive motors 72c work, the second gear 73c rotates and drives the second gear pair 71c to rotate.

Described the second gear pair 71c is fan-shaped, and its fan-shaped one end is fixed on the 3rd axle part, and the end face of the other end is provided with some the 4th tooth 74c, and described the second gear 73c is meshed with described the 4th tooth 74c.The fan-shaped central angle of described the second gear pair 71c is greater than the fan-shaped central angle of the first gear pair 63c.

In order to make the second gear pair 71c not hinder the rotation of housing 33c, the second gear pair 71c bending is dome shape, and the radian of the second gear pair 71c bending is consistent with the crooked radian of corresponding housing 33c.

The end corresponding to described the second gear pair 71c of the second hold-down arm 84c is provided with a fixed arm 85c.Described the second drive motors 72c is provided with two lug 75c, and the two lug 75c of described the second drive motors 72c are connected with described fixed arm 85c by fixture (not shown), so that the second drive motors 72c is fixedly installed on described fixed arm 85c.Described fixture can be the conventional mounting articles such as screw, rivet.

Because the second hold-down arm 84c intersects and is fixedly connected with the first hold-down arm 81c, when the first hold-down arm 81c rotates with respect to the first center of rotation axis, the second hold-down arm 84c, housing 33c and the second rotating mechanism 70c rotate thereupon.Thus, rotation in the first plane and the rotation in the second plane are connected, thereby realize two rotations air-supplies in Different Plane.

Between the inner surface of the opposite end of described the first hold-down arm 81c and corresponding ring wall 123c, be equiped with two vibration damping rubber cushion 86c, to be wherein placed on described the first axle part 61c upper for a vibration damping rubber cushion 86c, and an other vibration damping rubber cushion 86c is placed on described the second axle part 62c.Particularly, be placed on vibration damping rubber cushion 86c on the first axle part 61c between described the first gear pair 63c and described ring wall 123c, be placed on vibration damping rubber cushion 86c on the second axle part 62c between the corresponding end and described ring wall 123c of described the first hold-down arm 81c.Vibration damping rubber cushion 86c plays the object of vibration damping, noise reduction.

When the outer surface 34c of housing 33c is while being spherical, interconnection place of described the first hold-down arm 81c and described the second hold-down arm 84c is positioned at the centre of sphere place of the spherical outer surface 34c of described housing 33c, so that the first hold-down arm 81c is when rotate and when the second hold-down arm 84c rotates, the spherical inner surface 35c of the spherical outer surface 34c of housing 33c and ring wall 123c keeps constant gap.When the outer surface 34c of housing 33c is ellipsoid shape, interconnection place of described the first hold-down arm 81c and described the second hold-down arm 84c is positioned at the centre of sphere place of the ellipse spherical outer surface 34c of described housing 33c, so that the first hold-down arm 81c is when rotate and when the second hold-down arm 84c rotates, the spherical inner surface 35c of the spherical outer surface 34c of housing 33c and ring wall 123c keeps constant gap.

Please again consult Figure 14 and Figure 15, in the 4th embodiment, for the installation of the 3rd axle part and the 4th axle part can not interfered with ring wall 123c, described housing 33c comprises the first 330c of frame portion and is placed on the second 331c of frame portion outside described the first 330c of frame portion, described the 3rd axle part and described the 4th axle part are installed in the first 330c of frame portion of described housing 33c, and the opposite end of described the second hold-down arm 84c stretches between described the first 330c of frame portion and described the second 331c of frame portion.In other embodiments, housing 33c can not comprise the first 330c of frame portion and the second 331c of frame portion, only there is one deck structure, gap design between housing 33c and ring wall 123c obtains slightly large, or the 3rd axle part and the 4th axle part part of stretching out housing 33c dwindle, can solve too the interference problem of the 3rd axle part, the 4th axle part and ring wall 123c.

In the 4th embodiment, between the second 331c of frame portion of the opposite end of described the second hold-down arm 84c and described housing 33c, be equiped with two vibration damping rubber cushion (not shown), wherein a shock-reducing rubber cushion cover is on described the 3rd axle part, and an other shock-reducing rubber cushion cover is on described the 4th axle part.Shock-reducing rubber paves the object of vibration damping, noise reduction.The vibration damping rubber cushion at this place can be identical with above-mentioned vibration damping rubber cushion 86c.

In the 4th embodiment, in the first 330c of frame portion of housing 33c, be provided with connecting ring 332c and by the peripheral radioactivity of described connecting ring 332c, extended to some wind guide vane 333c of the inner surface of described the first 330c of frame portion, the object that wind guide vane 333c is set is used for wind-guiding, understandably, in the first 330c of frame portion of housing 33c, any structure can be set, it is empty making the middle part of the first 330c of frame portion, as shown in figure 18.

When described independent wind guide component 30c rotates with respect to air outlet 12c, part-structure can extend out to the outside of air outlet 12c, for changing direction and the air-supply region of air-supply, effectively guarantees air-supply wind speed and direction, thereby guarantees the comfortableness of air-conditioner.

The structure of the described independent wind guide component 30c of above-mentioned the 4th embodiment goes in first, second, third embodiment.

The utility model wall-hanging air conditioner 300,400 is owing to having adopted independent wind guide component 30b, the 30c of centrifugal blower 20b, 20c and the left and right sides, can allow the air supplying distance of air-conditioner 300,400 farther, also can realize at synchronization and give refrigeration that different region refrigeration or different regions realize different temperatures, heat etc.Different people is in the different area office of same room with them, can realize with remote controller the personalized cooling and warming demand of same air-conditioning, such as, user's first is controlled left side air outlet 12c facing to oneself blowing in a-quadrant with remote controller, and the temperature that left side air outlet 12c is set is 24 degree, Wind Volume operation.User's second is afraid of cold, synchronization can control with remote controller right side air outlet 12c oblique oneself above blow, the leaving air temp that right side air outlet 12c is set is the operation of 27 degree, middle air quantity.

The wall-hanging air conditioner 100,200,300,400 of the various embodiments described above increases air supplying distance, can allow user that different individual demands is set, and has improved the cooling or heating effect of air-conditioner 100,200,300,400, has promoted user's body sense comfortableness.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all any modifications of doing within spirit of the present utility model and principle, be equal to and replace and improvement etc., within all should being included in protection domain of the present utility model.

Claims (16)

1. a wall-hanging air conditioner, it comprises shell, it is characterized in that: the front face of described shell offers air intake vent and at least one air outlet, described wall-hanging air conditioner also comprises the heat exchanger that is arranged at described air intake vent place, be positioned at described heat exchanger above and rotate and be installed on described air intake vent and sentence the front panel that opens or closes described air intake vent, corresponding with described air intake vent and be positioned at the centrifugal blower below of described heat exchanger, be formed in described shell and be communicated with the air channel of described air intake vent and described air outlet, being arranged at air outlet described in each sentences the independent wind guide component of blowing in 360 degree angles and controls described centrifugal blower, the controller of described independent wind guide component and the action of described front panel.

2. wall-hanging air conditioner as claimed in claim 1, is characterized in that: the quantity of described air outlet is one, and this air outlet is opened in left side or the right side of the front face of described shell.

3. wall-hanging air conditioner as claimed in claim 1, is characterized in that: the quantity of described air outlet is at least two, and described air outlet is distributed in the left and right sides of the front face of described shell, and described air intake vent is between the described air outlet of the left and right sides.

4. the wall-hanging air conditioner as described in claim 1-3 any one, is characterized in that: the quantity of described centrifugal blower is at least two, and described at least two centrifugal blowers are faced described air intake vent plane and arranged.

5. wall-hanging air conditioner as claimed in claim 3, it is characterized in that: the quantity of described centrifugal blower is two, described wall-hanging air conditioner also comprise by the air-out guiding of a centrifugal blower be wherein positioned at left side air outlet place the first anticentripetal spiral casing and the air-out guiding of an other centrifugal blower is positioned to second anticentripetal spiral casing at the air outlet place on right side.

6. the wall-hanging air conditioner as described in claim 1-3,5 any one, it is characterized in that: described wall-hanging air conditioner also comprises the driving mechanism that drives described front panel rotating opening or closure, described air outlet place is provided with relative two assembly walls, and described driving mechanism comprises two motors, two driven wheels and the two transmission corner blocks on two assembly walls that are installed on respectively described air outlet; The output shaft of described two motors is connected on described two driven wheels, and drives described driven wheel to rotate; The opposite end portion of the bottom side of described front panel is provided with 2 first support arms, and the opposite end portion of the top side of described front panel is provided with 2 second support arms; Each driven wheel is outward extended with a rotation section by its peripheral part, and described rotation section is rotationally connected with on described the first support arm; One end of each transmission corner block is rotationally connected with on described the second support arm, and the end face of the other end is provided with some the first teeth and is meshed with the second tooth on described driven wheel.

7. the wall-hanging air conditioner as described in claim 1-3,5 any one, it is characterized in that: described wall-hanging air conditioner also comprises and is arranged at described heat exchanger bottom to receive the drip tray of condensed water, described drip tray comprises base plate and the frame being extended in the same way by the surrounding edge of described base plate, and described frame surrounds four sides, bottom of described heat exchanger.

8. wall-hanging air conditioner as claimed in claim 7, it is characterized in that: the base plate of described drip tray is tilted towards middle part by its opposite end and forms a low-lying water storage portion, described wall-hanging air conditioner also comprises a drainpipe that is connected in described water storage portion and the condensed water being stored in described water storage portion is discharged.

9. the wall-hanging air conditioner as described in claim 1-3,5 any one, it is characterized in that: described air outlet place is provided with ring wall, described independent wind guide component comprises housing, be arranged on described ring wall and in the first plane, come back rotation the first rotating mechanism, be arranged at the second rotating mechanism of back rotation on described housing and in the second plane and by described the first rotating mechanism and described the second rotating mechanism links together so that the installing rack that described the second rotating mechanism and described housing rotate along with the rotation of described the first rotating mechanism.

10. wall-hanging air conditioner as claimed in claim 9, is characterized in that: described housing has spherical outer surface, and described ring wall has spherical inner surface, and the centre of sphere of the spherical outer surface of described housing overlaps with the centre of sphere of the spherical inner surface of described ring wall.

11. wall-hanging air conditioners as claimed in claim 9, it is characterized in that: described housing has axiolitic outer surface, described ring wall has axiolitic inner surface, and the centre of sphere of the ellipse spherical outer surface of described housing overlaps with the centre of sphere of the ellipse spherical inner surface of described ring wall.

12. wall-hanging air conditioners as claimed in claim 9, it is characterized in that: described the first rotating mechanism comprises the first axle part and the second axle part that rotates respectively relative two inner sides that are installed in described ring wall, the first drive motors that is fixed at the first gear pair on described the first axle part and drives described the first gear pair to rotate, the common first center of rotation axis that forms of described the first axle part and described the second axle part, described installing rack comprises one first hold-down arm, the opposite end of described the first hold-down arm is individually fixed on described the first axle part and the second axle part, described the first gear pair rotates and drives described the first hold-down arm to rotate around described the first center of rotation axis.

13. wall-hanging air conditioners as claimed in claim 12, it is characterized in that: described the second rotating mechanism comprise the relative both sides that are fixed at respectively described housing the 3rd axle part and the 4th axle part, be fixed at the second gear pair and the second drive motors on described the 3rd axle part, described installing rack also comprises one second hold-down arm, and described the second hold-down arm intersects and is fixedly connected with described the first hold-down arm; The opposite end of described the second hold-down arm rotates respectively and is installed on described the 3rd axle part and described the 4th axle part, and forms the second center of rotation axis; Described the second drive motors drives described the second gear pair to rotate around described the second center of rotation axis.

14. wall-hanging air conditioners as claimed in claim 12, it is characterized in that: between the inner surface of the opposite end of described the first hold-down arm and corresponding ring wall, be equiped with two vibration damping rubber cushions, wherein a shock-reducing rubber cushion cover is on described the first axle part, and an other shock-reducing rubber cushion cover is on described the second axle part.

15. wall-hanging air conditioners as claimed in claim 13, it is characterized in that: described housing has spherical or axiolitic outer surface, interconnection place of described the first hold-down arm and described the second hold-down arm is positioned at the centre of sphere place of the spherical or ellipse spherical outer surface of described housing.

16. wall-hanging air conditioners as claimed in claim 13, it is characterized in that: described housing comprises the first frame portion and is placed on the second frame portion outside described the first frame portion, described the 3rd axle part and described the 4th axle part are installed in the first frame portion of described housing, and the opposite end of described the second hold-down arm stretches between described the first frame portion and described the second frame portion.

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