CN103363587B - Indoor apparatus of air conditioner and idle call independent air-feeding parts thereof - Google Patents

Abstract

The invention provides a kind of idle call independent air-feeding parts, it comprises housing and wind wheel assembly, and the outer surface of described housing is sphere, and housing encloses formation one space, and wind wheel assembly is arranged in the space of housing.The present invention also provides a kind of indoor apparatus of air conditioner, to change the above-mentioned idle call independent air-feeding parts of air-out direction in the air channel that it comprises housing, be formed at the air channel in housing and be installed on described housing, idle call independent air-feeding parts are rotating relative to the air-out direction in described air channel.The wind wheel assembly of above-mentioned independent air-feeding parts and the relative position of housing do not change, and independent air-feeding parts are integrally rotating relative to the air-out direction in air channel, the air-out direction in air channel is effectively changed and realizes wide-angle and consentrated air supply.The change of wind direction is caused by the change of wind wheel and position, air channel, and therefore the air current flow of indoor apparatus of air conditioner is smooth and easy, in air current flow process, do not have windage to increase, and does not also have adjoint and raw dew condensation phenomenon.

Description

Indoor apparatus of air conditioner and idle call independent air-feeding parts thereof

Technical field

The invention belongs to air-conditioning technical field, particularly relate to a kind of idle call independent air-feeding parts and apply the indoor apparatus of air conditioner of these independent air-feeding parts.

Background technology

At present, domestic air conditioning indoor set usually as shown in Figure 1, indoor apparatus of air conditioner comprises a housing 100, evaporimeter 101, tubular wine wheel 102, air inlet 103 and air outlet 104, because this indoor apparatus of air conditioner adopts thin and long tubular wine wheel 102 and fixing air channel 105, its air-out direction and air supplying distance are all restricted, although be mostly provided with the wind blade 107 of horizontal direction wind blade 106 and vertical direction.When wind wheel 102 rotates, the snail heart is formed in tubular wine wheel 102 inside, snail tongue 108 and rear snail tongue 109 were separation in the past, its first half is suction area, Lower Half is the district that spues, and collects diffusion blowout, due to the coherence of exit fluid via air channel 105, change air-out direction by change level or orienting vertical wind-guiding vanes 106,107 angle, the effect of its guiding is limited; Adopt wind blade 106,107 to change wind direction simultaneously, wind blade originally also produces very large windage in air channel 105, also owing to coming forcibly changing flow field with wind blade 106,107, easily produce the temperature difference in wind blade 106,107 both sides and then produce condensation.Because air outlet 104 is elongated, cause air-out to disperse, be unfavorable for consentrated air supply.Thus have impact on the comfortableness being conditioned room.

Summary of the invention

The object of the embodiment of the present invention is to provide a kind of idle call independent air-feeding parts, to make its indoor apparatus of air conditioner wind direction of application effectively change and realize wide-angle and consentrated air supply, also avoids the increase of windage and the generation of condensation water in the process of wind-guiding simultaneously.

The embodiment of the present invention realizes like this, a kind of idle call independent air-feeding parts, it comprises housing and wind wheel assembly, the outer surface of described housing is sphere, described housing encloses formation one space, described wind wheel assembly is arranged in the space of described housing, and described idle call independent air-feeding parts can be used as entirety and directly apply on indoor apparatus of air conditioner, and described idle call independent air-feeding parts are rotating relative to the air-out direction in the air channel of described indoor apparatus of air conditioner.

Further, the motor that described wind wheel assembly comprises wind wheel and drives described wind wheel to rotate, described idle call independent air-feeding parts are provided with motor mounting part, and described motor is installed on described motor mounting part, described motor has output shaft, and described output shaft is connected with described wind wheel.

Further, described motor mounting part is arranged at the axis of symmetry place of described housing, and described idle call independent air-feeding parts also comprise the some wind guide vanes being extended to the inner surface of described housing by the peripheral radioactivity of described motor mounting part.

Further, described wind guide vane and described housing are integrated.

Further, described wind wheel has air draught side and air side, and described wind guide vane is positioned at the air side of described wind wheel.

Another object of the embodiment of the present invention is to provide a kind of indoor apparatus of air conditioner, to change the above-mentioned idle call independent air-feeding parts of air-out direction in the air channel that it comprises housing, be formed at the air channel in described housing and be installed on described housing, described idle call independent air-feeding parts are rotating relative to the air-out direction in described air channel.

Further, described idle call independent air-feeding parts are rotating relative to the air-out direction in described air channel in the first plane and/or the second plane, and described second plane is different from described first plane.

Further, described idle call independent air-feeding parts are provided with at least two, wherein a part of described idle call independent air-feeding parts are at the first rotation with in surface, and a part of described idle call independent air-feeding parts are at the second rotation with in surface in addition, and described second plane is different from described first plane.

Further, described housing offers air outlet, described idle call independent air-feeding parts rotate and are installed in described air outlet place.

Further, described indoor apparatus of air conditioner comprises evaporimeter, and on the air-out direction in described air channel, described idle call independent air-feeding parts are positioned at before described evaporimeter.

The wind wheel assembly of above-mentioned independent air-feeding parts and the relative position of housing do not change, and independent air-feeding parts are integrally rotating relative to the air-out direction in air channel, the air-out direction in air channel is effectively changed and realizes wide-angle and consentrated air supply.The change of wind direction is caused by the change of wind wheel and position, air channel, and therefore the air current flow of indoor apparatus of air conditioner is smooth and easy, in air current flow process, do not have windage to increase, and does not also have adjoint and raw dew condensation phenomenon.

Accompanying drawing explanation

Fig. 1 is the structural representation of indoor apparatus of air conditioner of the prior art.

Fig. 2 is the three-dimensional exploded view of the indoor apparatus of air conditioner that first embodiment of the invention provides.

Fig. 3 is the three-dimensional exploded view of the blower part of the indoor apparatus of air conditioner of Fig. 2.

Fig. 4 is the three-dimensional exploded view of another angle of the blower part of the indoor apparatus of air conditioner of Fig. 3.

Fig. 5 is the three-dimensional exploded view of the tumbler of the blower part of the indoor apparatus of air conditioner of Fig. 3.

Fig. 6 is the three-dimensional exploded view of another angle of the tumbler of the blower part of the indoor apparatus of air conditioner of Fig. 5.

Fig. 7 shows the three-dimensional exploded view of the blower part with another kind of tumbler.

Fig. 8 shows the three-dimensional exploded view of the blower part with the third tumbler, and wherein the structure of the third tumbler is identical with the structure of the tumbler shown in Fig. 7.

Fig. 9 is the structural representation of the indoor apparatus of air conditioner that second embodiment of the invention provides.

Figure 10 is the top view of the indoor apparatus of air conditioner of Fig. 9.

Figure 11 is the sectional view of the indoor apparatus of air conditioner A-A along the line of Figure 10.

Two blower parts that Figure 12 shows in the indoor apparatus of air conditioner of Fig. 9 are blown in the opposite direction.

Two blower parts that Figure 13 shows in the indoor apparatus of air conditioner of Fig. 9 are all upwards blown.

Two blower parts that Figure 14 shows in the indoor apparatus of air conditioner of Fig. 9 are blown all downwards.

Figure 15 is the sectional view of the another kind of structure of the indoor apparatus of air conditioner A-A along the line of Figure 10.

Figure 16 is the structural representation of the indoor apparatus of air conditioner that third embodiment of the invention provides, and wherein, two blower parts are all towards left air-supply.

Figure 17 shows two blower parts of the indoor apparatus of air conditioner of Figure 16 all towards right air-supply.

Figure 18 shows two blower parts of the indoor apparatus of air conditioner of Figure 16 all towards lower air-supply.

Figure 19 shows two blower parts of the indoor apparatus of air conditioner of Figure 16 all towards upper air-supply.

Detailed description of the invention

In order to make object of the present invention, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

Refer to Fig. 2 to Fig. 4, to change the idle call independent air-feeding parts 20 of air-out direction in the air channel that the indoor apparatus of air conditioner 110 that first embodiment of the invention provides comprises housing 10, be formed at the air channel (sign) in described housing 10 and be installed on described housing 10, described idle call independent air-feeding parts 20 are rotating relative to the air-out direction in described air channel.

Described idle call independent air-feeding parts 20 comprise housing 21 and wind wheel assembly 22.The outer surface 23 of described housing 21 is sphere.Described housing 21 encloses formation one space 24.Described wind wheel assembly 22 is arranged in the space 24 of described housing 21.Wind wheel assembly 22 and housing 21 form an independently blower part 20, when carrying out air-supply design at indoor apparatus of air conditioner 110, directly will independently blower part 20 be applied on indoor apparatus of air conditioner 110 as a whole, and be convenient to air-supply design.

The wind wheel assembly 22 of independent air-feeding parts 20 does not change with the relative position of housing 21, and independent air-feeding parts 20 are integrally rotating relative to the air-out direction in air channel, the air-out direction in air channel is effectively changed and realizes wide-angle and consentrated air supply.The change of wind direction is caused by the change of wind wheel and position, air channel, and therefore the air current flow of indoor apparatus of air conditioner 110 is smooth and easy, in air current flow process, do not have windage to increase, and does not also have adjoint and raw dew condensation phenomenon.

The motor 221 that the wind wheel assembly 22 of described independent air-feeding parts 20 comprises wind wheel 220 and drives described wind wheel 220 to rotate.Described blower part 20 is provided with motor mounting part 25.Described motor 221 is installed on described motor mounting part 25.The output shaft 222 of described motor 221 is connected with described wind wheel 220, rotates to drive described wind wheel 220.

In the present embodiment, described wind wheel 220 is axial-flow windwheel or oblique flow wind wheel, and understandably, described wind wheel 220 is not limited to axial-flow windwheel or oblique flow wind wheel these two kinds.

Further, described motor mounting part 25 is arranged at the axis of symmetry place of described housing 21, and described idle call independent air-feeding parts 20 also comprise some wind guide vanes 26 of the inner surface being extended to described housing 21 by the peripheral radioactivity of described motor mounting part 25.Motor mounting part 25 is connected with housing 21 by these wind guide vanes 26, makes motor mounting part 25 be supported in the middle part of the wind path of housing 21.Preferably, described wind guide vane 26 is integrated with described housing 21.

Described wind wheel 220 has air draught side and air side.Described wind guide vane 26 is positioned at the air side of described wind wheel 220, reaches the object changing airflow direction and improve static pressure.

In the present embodiment, described motor mounting part 25 is for having the shell 251 of groove 250.Wind guide vane 26 is connected to placing at the outer of axis of symmetry direction of housing 21 of this shell 251, and the output shaft of motor 221 222 is through being connected with wind wheel 220 bottom the groove 250 of this shell 251.Described independent air-feeding parts 20 also comprise the lid 27 of the openend being installed on described groove 250, and motor 221 is placed in the groove 250 of described motor mounting part 25 by lid 27.

Described indoor apparatus of air conditioner 110 also comprises evaporimeter 28, and on the air-out direction in described air channel, described idle call independent air-feeding parts 20 are positioned at before described evaporimeter 28.To make air-flow first through evaporator 28, and then flow through blower part 20, the air-flow that indoor apparatus of air conditioner 110 is discharged is through the air-flow after heat exchange.

In the present embodiment, described independent air-feeding parts 20 are rotating relative to the air-out direction in described air channel in the first plane and the second plane, and described second plane is different from described first plane, as shown in Figures 2 to 4.Particularly, independent air-feeding parts 20 are relative to air-out direction (the first plane) and left and right (the second plane) rotation up and down in air channel.Blower part 20 is rotated in two Different Plane, to realize the air-supply in two planes.

In other embodiments, described independent air-feeding parts 20 are rotating relative to the air-out direction in described air channel in the first plane or the second plane, and described second plane is different from described first plane.Particularly, independent air-feeding parts 20 are relative to the air-out direction in air channel or (the first plane) rotation (as shown in Figure 8) up and down, or left and right (the second plane) rotates (as shown in Figure 7).Blower part 20, only at a rotation with in surface, is responsible for merely the air-supply in a plane.

When blower part 20 is only in one plane blown, indoor apparatus of air conditioner 110 can apply at least two above-mentioned blower parts 20, make wherein a part of independent air-feeding parts 20 at the first rotation with in surface, a part of independent air-feeding parts 20 are at the second rotation with in surface in addition, described second plane is different from described first plane, thus also can be implemented in the air-supply in two Different Plane.

No matter blower part 20 is blown or to be blown in a plane merely in two planes, and blower part 20 all rotates air outlet 11 place being installed in described housing 10.Particularly, described housing 10 is provided with ring wall 12 in described air outlet 11 place, and the inner surface 13 of described ring wall 12 is sphere, and described housing 21 rotates with one heart and is installed on described ring wall 12." with one heart " mentioned here refers to that the centre of sphere of the sphere of housing 21 overlaps with the centre of sphere of the sphere of described ring wall 12.

Be installed on ring wall 12 because housing 21 rotates with one heart, when housing 21 rotates relative to ring wall 12, the spherical outer surface of housing 21 can keep same gap all the time with the spherical inner surface of ring wall 12, avoids housing 21 and ring wall 12 in rotation process to interfere.

Please refer to Fig. 5 and Fig. 6, blow in two planes for blower part 20, described independent air-feeding parts 20 also comprise tumbler 30.This tumbler 30 comprise be arranged on described ring wall 12 and come in the first plane back rotation the first rotating mechanism 31, be arranged on described housing 21 and in the second plane back rotation the second rotating mechanism 40 and described first rotating mechanism 31 and described second rotating mechanism 40 are linked together installing rack 50 that described second rotating mechanism 40 and described housing 21 are rotated along with the rotation of described first rotating mechanism 31.

Described first rotating mechanism 31 comprises the first drive motors 33 rotating respectively and be installed in first shaft member 34 inside two of described ring wall 12 and the second shaft member 35, be fixed at the first gear pair 32 in described first shaft member 34 and drive described first gear pair 32 to rotate.Described first shaft member 34 and described second shaft member 35 form the first center of rotation axis (namely at the axis of the first rotation with in surface) jointly.Described installing rack 50 comprises one first hold-down arm 51, the opposite end of described first hold-down arm 51 is individually fixed in described first shaft member 34 and the second shaft member 35, and described first gear pair 32 rotates and drives described first hold-down arm 51 to rotate around described first center of rotation axis.

When the first gear pair 32 rotates, because the first gear pair 32 and the first shaft member 34 are fixed, and the first shaft member 34 and the rotation of the second shaft member 35 are installed on ring wall 12, therefore, when first gear pair 32 rotates under the drive of the first drive motors 33, first shaft member 34 and the second shaft member 35 are all rotated relative to ring wall 12, make the first gear pair 32 relative to the first center of rotation axis, and the opposite end of the first hold-down arm 51 is fixedly connected with the second shaft member 35 with the first shaft member 34 respectively, when the first shaft member 34 and the second shaft member 35 are rotated relative to ring wall 12 simultaneously, first hold-down arm 51 rotates relative to the first center of rotation axis.

Described second rotating mechanism 40 comprises the 3rd shaft member (not shown) and the 4th shaft member (not shown), second gear pair 43 and second drive motors 44 be fixed in described 3rd shaft member of the relative both sides being fixed at described housing 21 respectively.Described installing rack 50 also comprises one second hold-down arm 52, and described second hold-down arm 52 intersects with described first hold-down arm 51 and is fixedly connected with; The opposite end of described second hold-down arm 52 rotates respectively and is installed in described 3rd shaft member and described 4th shaft member, and forms the second center of rotation axis (namely at the axis of the second rotation with in surface); Described second drive motors 44 drives described second gear pair 43 to rotate around described second center of rotation axis.

Opposite end due to the second hold-down arm 52 rotates respectively and is installed in the 3rd shaft member and the 4th shaft member, and the 3rd shaft member and the 4th shaft member are fixedly connected on housing 21, and it is rotating for making between housing 21 and the second hold-down arm 52.When the second gear pair 43 rotates under the drive of the second drive motors 44, second gear pair 43 and the 3rd shaft member are rotated together with relative to the corresponding end of the second hold-down arm 52 being, 4th shaft member is rotated relative to the corresponding end of the second hold-down arm 52 simultaneously, thus, housing 21 can at the second rotation with in surface relative to the second hold-down arm 52.

Be fixedly connected with because the second hold-down arm 52 intersects with the first hold-down arm 51, when the first hold-down arm 51 rotates relative to the first center of rotation axis, the second hold-down arm 52, housing 21, wind wheel assembly 22 and the second rotating mechanism 40 rotate thereupon.Thus, the rotation in the rotation in the first plane and the second plane is connected, thus realize the rotation air-supply in two Different Plane.

Be equiped with two vibration damping rubber cushions 36 between the opposite end of described first hold-down arm 51 and the inner surface of corresponding ring wall 12, wherein a vibration damping rubber cushion 36 is placed in described first shaft member 34, and an other vibration damping rubber cushion 36 is placed in described second shaft member 35.Vibration damping rubber cushion 36 plays the object of vibration damping, noise reduction.

Described first hold-down arm 51 and interconnection place of described second hold-down arm 52 are positioned at the centre of sphere place of the spherical outer surface of described housing 21, when rotating to make the first hold-down arm 51 and when the second hold-down arm 52 rotates, the spherical outer surface of housing 21 and the spherical inner surface of ring wall 12 keep constant gap.

In the present embodiment, can not interfere with ring wall 12 to make the installation of the 3rd shaft member and the 4th shaft member, described housing 21 comprises the first frame portion 210 and is placed on the second frame portion 211 outside described first frame portion 210, described 3rd shaft member and described 4th shaft member are installed in the first frame portion 210 of described housing 21, and the opposite end of described second hold-down arm 52 stretches between described first frame portion 210 and described second frame portion 211.In other embodiments, housing 21 can not comprise the first frame portion 210 and the second frame portion 211, only there is a Rotating fields, gap design between housing 21 and ring wall 12 obtains slightly large, or the 3rd shaft member and the 4th shaft member part of stretching out housing 21 reduce, the interference problem of the 3rd shaft member, the 4th shaft member and ring wall 12 can be solved too.

In the present embodiment, two vibration damping rubber cushion (not shown) are equiped with between the opposite end of described second hold-down arm 52 and the second frame portion 211 of described housing 21, wherein a shock-reducing rubber cushion cover is in described 3rd shaft member, and an other shock-reducing rubber cushion cover is in described 4th shaft member.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 36.

Show blower part please refer to Fig. 7 and Fig. 8, Fig. 7 to blow in the second plane, and Fig. 8 shows blower part blows in the first plane.Fig. 7 is identical with the structure of rotating mechanism illustrated in fig. 8, and the direction only set by rotating mechanism is different.Below be only described in detail for the rotating mechanism shown in Fig. 7.

Blower part is only blown in a plane, between described housing 21 and described ring wall 12, is provided with rotating mechanism (sign).Described rotating mechanism comprises the first shaft member 34 and the second shaft member 35 between relative both sides and described ring wall 12 being installed in described housing 21 respectively.Described first shaft member 34 and described second shaft member 35 form the center of rotation axis that described independent air-feeding parts 20 rotate relative to described ring wall 12 jointly.Described rotating mechanism also comprises the drive unit 60 that described independent air-feeding parts 20 are rotated around described center of rotation axis.

Described drive unit 60 comprises and being fixedly installed in described first shaft member 34 with the gear pair 61 driving described first shaft member 34 to rotate and the drive motors 62 that drives described gear pair 61 to rotate.One end of described first shaft member 34 is fixedly installed on described housing 21, and the other end is movably installed on corresponding ring wall 12; One end of second shaft member 35 is fixedly installed on described housing 21, and the other end is movably installed on corresponding ring wall 12.The output shaft of described drive motors 62 is provided with gear 63, and described gear 63 is meshed with described gear pair 61.

When drive motors 62 rotates, gear 63 driven gear on it secondary 61 rotates, gear pair 61 can drive the first shaft member 34 to rotate relative to ring wall 12, simultaneously, second shaft member 35 also can be rotated relative to ring wall 12, thus, housing 21 rotates with the centre of sphere relative to ring wall 12, realizes the air-supply in a plane.

Blow in single plane, housing 21 can be the double-decker comprising the first frame portion 210 and the second frame portion 211, also can be single layer structure.For the double-decker of housing 21, the first shaft member 34 and the second shaft member 35 are all fixedly installed in the layer structure (i.e. the second frame portion 211) of described housing 21.

In the present embodiment, be provided with two vibration damping rubber cushions 36 between the layer structure of described housing 21 and described ring wall 12, wherein a vibration damping rubber cushion 36 is placed in described first shaft member 34, and an other vibration damping rubber cushion 36 is placed in described second shaft member 35.Vibration damping rubber cushion 36 plays the object of vibration damping, noise reduction.

Indoor apparatus of air conditioner 110 shown in Fig. 2 is the indoor apparatus of air conditioner 110 of top air-out, and described housing 10 only offers an air outlet 11, and the surrounding of described housing 10 offers air inlet 14.Described evaporimeter 28 is arranged roughly in the form of a ring along described air inlet 14, to make to enter air-flow in housing 10 by air inlet 14 and evaporimeter 28 carries out heat exchange.

Understandably, described housing 10 can offer more than two or two air outlets 11, and each air outlet 11 place arranges an above-mentioned blower part 20, so makes indoor apparatus of air conditioner 110 realize more Wide blowing angle.For multiple air outlet 11, each air outlet 11 all can be arranged on the blower part of air-supply in two Different Plane, each air outlet 11 all can be arranged on the blower part of air-supply in single plane, also the blower part of blowing in the first plane can be arranged in a part of air outlet 11 place, some air outlet 11 places are arranged on the blower part of air-supply in the second plane, such as, the combination of the blower part shown in Fig. 7 and Fig. 8.In a word according to air-supply demand, the blower part that air outlet 11 is placed can be air-supply in two planes, also can be air-supply in single plane, also can the air-supply in two different single planes combine.

Please refer to Fig. 9 to Figure 11, the indoor apparatus of air conditioner 120 that second embodiment of the invention provides is roughly the same with the indoor apparatus of air conditioner 110 that the first embodiment provides, its difference is: the indoor apparatus of air conditioner 120 that the second embodiment provides is on-hook, and the indoor apparatus of air conditioner 110 that the first embodiment provides is air-conditionings of top air-out; The indoor apparatus of air conditioner 120 that second embodiment provides is arranged side by side two air outlet 11a, and a blower part 20a is installed at each air outlet 11 place; Described evaporimeter 28a is obliquely installed the inlet air side in described blower part 20a, and described evaporimeter 28a is in line, and is Fin and tube evaporator.

In the indoor apparatus of air conditioner 120 of the second embodiment, blower part 20a can be blower part as shown in Figure 3 and Figure 4, also can be the blower part as shown in Fig. 7 and/or Fig. 8.For the air-supply shown in Figure 12, these two blower parts can be all the blower part shown in Fig. 3 and Fig. 4, also two blower parts can be the blower part shown in Fig. 7.For the air-supply shown in Figure 13 and Figure 14, these two blower parts can be all the blower part shown in Fig. 3 and Fig. 4, also two blower parts can be the blower part shown in Fig. 8.Certainly, one of them in two blower parts can be the blower part shown in Fig. 8, and another one can be the blower part shown in Fig. 7, and that is a blower part is responsible for left and right air-supply, and another one blower part is responsible for blowing up and down.Blower part shown in Fig. 3, Fig. 7 and Fig. 8 according to air-supply demand, can combinationally use by designer.

Figure 15 shows the another kind of structure of section of the indoor apparatus of air conditioner 120 that the second embodiment provides, cross-section structure wherein shown in Figure 15 is roughly the same with the cross-section structure shown in Figure 11, and its difference is: the evaporimeter 28 that Figure 15 adopts is micro-channel parallel flow evaporator.Understandably, the evaporimeter 28a that the indoor apparatus of air conditioner 120 that the second embodiment provides adopts can be the evaporimeter of the many foldings arranged around the inlet air side of blower part.

Please refer to Figure 16 to Figure 19, the indoor apparatus of air conditioner 130 that third embodiment of the invention provides is roughly the same with the indoor apparatus of air conditioner 110 that the first embodiment provides, and its main difference part is: the indoor apparatus of air conditioner 130 that the 3rd embodiment provides is floor air conditioner (cabinet-type air conditioner); The indoor apparatus of air conditioner 130 that 3rd embodiment provides is arranged side by side two air outlet 11b, each air outlet 11b place's installation blower part 20b.

In the indoor apparatus of air conditioner 130 of the 3rd embodiment, blower part 20b can be blower part as shown in Figure 3 and Figure 4, also can be the blower part as shown in Fig. 7 and/or Fig. 8.For the air-supply shown in Figure 16 and Figure 17, these two blower part 20b can be all the blower part shown in Fig. 3 and Fig. 4, also two blower parts can be the blower part shown in Fig. 7.For the air-supply shown in Figure 18 and Figure 19, these two blower part 20b can be all the blower part shown in Fig. 3 and Fig. 4, also two blower parts can be the blower part shown in Fig. 8.Certainly, one of them in two blower parts can be the blower part shown in Fig. 8, and another one can be the blower part shown in Fig. 7, and that is a blower part is responsible for left and right air-supply, and another one blower part is responsible for blowing up and down.Blower part shown in Fig. 3, Fig. 7 and Fig. 8 according to air-supply demand, can combinationally use by designer.

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, all any amendments done within the spirit and principles in the present invention, equivalent replacement and improvement etc., all should be included within protection scope of the present invention.

Claims (10)

1. idle call independent air-feeding parts, it is characterized in that: described idle call independent air-feeding parts comprise housing and wind wheel assembly, the outer surface of described housing is sphere, described housing encloses formation one space, described wind wheel assembly is arranged in the space of described housing, described idle call independent air-feeding parts can be used as entirety and directly apply on indoor apparatus of air conditioner, and described idle call independent air-feeding parts are rotating relative to the air-out direction in the air channel of described indoor apparatus of air conditioner.

2. idle call independent air-feeding parts as claimed in claim 1, it is characterized in that: the motor that described wind wheel assembly comprises wind wheel and drives described wind wheel to rotate, described idle call independent air-feeding parts are provided with motor mounting part, described motor is installed on described motor mounting part, described motor has output shaft, and described output shaft is connected with described wind wheel.

3. idle call independent air-feeding parts as claimed in claim 2, it is characterized in that: described motor mounting part is arranged at the axis of symmetry place of described housing, described idle call independent air-feeding parts also comprise the some wind guide vanes being extended to the inner surface of described housing by the peripheral radioactivity of described motor mounting part.

4. idle call independent air-feeding parts as claimed in claim 3, is characterized in that: described wind guide vane and described housing are integrated.

5. the idle call independent air-feeding parts as described in claim 3 or 4, it is characterized in that: described wind wheel has air draught side and air side, described wind guide vane is positioned at the air side of described wind wheel.

6. an indoor apparatus of air conditioner, it comprises housing and is formed at the air channel in described housing, it is characterized in that: described indoor apparatus of air conditioner also comprise be installed on described housing air channel in change the idle call independent air-feeding parts as described in any one of claim 1-5 of air-out direction, described idle call independent air-feeding parts are rotating relative to the air-out direction in described air channel.

7. indoor apparatus of air conditioner as claimed in claim 6, is characterized in that: described idle call independent air-feeding parts are rotating relative to the air-out direction in described air channel in the first plane and/or the second plane, and described second plane is different from described first plane.

8. indoor apparatus of air conditioner as claimed in claim 6, it is characterized in that: described idle call independent air-feeding parts are provided with at least two, wherein a part of described idle call independent air-feeding parts are at the first rotation with in surface, a part of described idle call independent air-feeding parts are at the second rotation with in surface in addition, and described second plane is different from described first plane.

9. the indoor apparatus of air conditioner as described in any one of claim 6-8, is characterized in that: described housing offers air outlet, and described idle call independent air-feeding parts rotate and are installed in described air outlet place.

10. the indoor apparatus of air conditioner as described in any one of claim 6-8, is characterized in that: described indoor apparatus of air conditioner comprises evaporimeter, and on the air-out direction in described air channel, described idle call independent air-feeding parts are positioned at before described evaporimeter.