Summary of the invention
The object of the embodiment of the present invention is to provide a kind of indoor apparatus of air conditioner, effectively changes and realize wide-angle and consentrated air supply to make indoor apparatus of air conditioner wind direction, 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 indoor apparatus of air conditioner, it comprises housing and is formed at the exhaust air flue in described housing, it is interior to change the independent air-feeding parts of air-out direction that described indoor apparatus of air conditioner also comprises the exhaust air flue being installed on described housing, and described independent air-feeding parts carry out back rotation in a plane.
Further, described indoor apparatus of air conditioner also comprises another exhaust air flue of being formed in described housing and is installed in another exhaust air flue described to change the independent air-feeding unit of air-out direction, described independent air-feeding unit is identical with described independent air-feeding modular construction, and the plane that described independent air-feeding parts carry out back rotation is different from the plane carrying out back rotation of described independent air-feeding unit.
Further, described independent air-feeding parts comprise housing and are arranged at the wind wheel assembly in space that described housing encloses, and the outer surface of described housing is sphere.
Further, described housing offers air outlet, the housing of described independent air-feeding parts rotates and is installed in described air outlet place.
Further, described housing is provided with ring wall in described air outlet place, and the inner surface of described ring wall is sphere, and the housing of described independent air-feeding parts rotates and is installed on described ring wall, is provided with rotating mechanism between described housing and described ring wall.
Further, described rotating mechanism comprises and is installed in the first shaft member between the relative both sides of described housing and described ring wall and the second shaft member respectively, described first shaft member and described second shaft member form the center of rotation axis that described independent air-feeding parts rotate relative to described ring wall jointly, and described rotating mechanism also comprises the drive unit that described independent air-feeding parts are rotated around described center of rotation axis.
Further, described drive unit comprises and being fixedly installed in described first shaft member with the gear pair driving described first shaft member to rotate and the drive motors that drives described gear pair to rotate; One end of described first shaft member is fixedly installed on described housing, and the other end is movably installed on corresponding ring wall; One end of second shaft member is fixedly installed on described housing, and the other end is movably installed on corresponding ring wall.
Further, the motor that described wind wheel assembly comprises wind wheel and drives described wind wheel to rotate, described 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 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, and 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.
Above-mentioned blower part is as independent parts, and entirety carrys out back rotation relative to the air-out direction in air channel in a plane, makes the air-out direction in air channel effectively change in this plane and realize wide-angle and consentrated air supply.The change of wind direction is that caused by the wind wheel of whole blower part and the change of position, air channel, 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, do not have yet with and raw dew condensation phenomenon.
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 and Fig. 3, the indoor apparatus of air conditioner 110 that first embodiment of the invention provides, it comprises housing 10 and is formed at the exhaust air flue (not shown) in described housing 10, it is interior to change the independent air-feeding parts 20 of air-out direction that described indoor apparatus of air conditioner 110 also comprises the exhaust air flue being installed on described housing 10, and described independent air-feeding parts 20 carry out back rotation in a plane.
Described blower part 20 is arranged in exhaust air flue as separate part, and overall blower part 20 carrys out back rotation relative to the air-out direction of exhaust air flue in a plane, the air-out direction in air channel is made effectively to change in this plane and realize wide-angle and consentrated air supply.The change of wind direction be whole blower part 20 and position, air channel change caused by, 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, do not have yet with and raw dew condensation phenomenon.
In the present embodiment, above-mentioned blower part 20 is rotated up and down relative to exhaust air flue, to realize wide-angle in the vertical direction and consentrated air supply.In other embodiments, above-mentioned blower part 20 can relative to exhaust air flue left-right rotation, to realize wide-angle in the lateral direction and consentrated air supply.
In the present embodiment, described housing 10 offers air outlet 11, described independent air-feeding parts 20 rotate and are installed in described air outlet 11 place.In other embodiments, be installed in exhaust air flue as long as described independent air-feeding parts 20 rotate, and change air-out direction, not necessarily will be arranged on air outlet 11 place.
Please refer to Fig. 4 and Fig. 5, described independent air-feeding parts 20 comprise housing 21 and are arranged at the wind wheel assembly 22 in space 24 that described housing 21 encloses.Described independent air-feeding parts 20 are rotated by housing 21 and are installed in described air outlet 11 place.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.
Described housing 10 is provided with ring wall 12 in described air outlet 11 place, and the housing 21 of described independent air-feeding parts 20 rotates and is installed on described ring wall 12, is provided with rotating mechanism 30 between described housing 21 and described ring wall 12.
In the present embodiment, the outer surface 23 of described housing 21 is sphere, and the inner surface 13 of described ring wall 12 is also 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.
Ring wall 12 is installed on because housing 21 rotates with one heart, when housing 21 rotates relative to ring wall 12, the spherical outer surface 23 of housing 21 can keep same gap all the time with the spherical inner surface 13 of ring wall 12, avoids housing 21 and ring wall 12 in rotation process to interfere.
Described rotating mechanism 30 comprise be installed in described housing 21 respectively jointly form relative to the first shaft member 34 between both sides and described ring wall 12 and the second shaft member 35, described first shaft member 34 and described second shaft member 35 the center of rotation axis that described independent air-feeding parts 20 rotate relative to described ring wall 12, described rotating mechanism 30 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.
When described drive motors 62 works, this drive motors 62 driven gear secondary 61 rotates, because gear pair 61 and the first shaft member 34 are fixing, when gear pair 61 rotates, the first shaft member 34 is rotated relative to the ring wall 12 of correspondence, now, the second shaft member 35 is also rotate relative to the ring wall 12 of correspondence, now, the center of rotation axis that housing 21 and wind wheel assembly 22 are formed around the first shaft member 34 and the second shaft member 35 rotates, thus makes blower part 20 at a rotation with in surface.
The output shaft of described drive motors 62 is provided with gear 63, and described gear 63 is meshed with described gear pair 61, rotates to make drive motors 62 driven gear secondary 61.Described gear pair 61 is roughly in fan-shaped, and its one end is fixedly connected in the first shaft member 34, and one end is provided with tooth 610 in addition, and this tooth 610 is meshed with the gear 63 of drive motors 62.
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 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.
Please again consult Fig. 2, described indoor apparatus of air conditioner 110 also comprises evaporimeter 28, and on the air-out direction in described air channel, described 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, indoor apparatus of air conditioner 110 is the air-conditioning 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.
In the present embodiment, can not interfere with ring wall 12 to make the installation of the first shaft member 34 and the second shaft member 35, 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 first shaft member 34 and described second shaft member 35 are installed in the second frame portion 211 of described housing 21, in other embodiments, housing 21 can not comprise the two-layer structure in the first frame portion 210 and the second frame portion 211, only have a Rotating fields, the first shaft member 34 and the second shaft member 35 are installed on layer structure.
In order to reduce vibration and the noise of blower part 20 and ring wall 12, between the outside of housing 21 and ring wall 12, be provided with two vibration damping rubber cushions 36, 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.
The position of the wind wheel 220 of the blower part 20 of indoor apparatus of air conditioner 110 of the present invention, motor 221, housing 21 can not become in rotation process, rotates with integral form, realizes the object effectively changing wind direction.
In the present embodiment, an air outlet 11 is only offered in housing 10, a blower part 20 is only set, in other embodiments, indoor apparatus of air conditioner 110 also comprises another exhaust air flue of being formed in described housing 10 and is installed on to change the independent air-feeding unit of air-out direction in another exhaust air flue described, and described independent air-feeding unit is identical with described independent air-feeding parts 20 structure.The plane that described independent air-feeding parts 20 carry out back rotation is different from the plane carrying out back rotation of described independent air-feeding unit.Particularly, housing 10 can offer another one air outlet, described independent air-feeding unit is arranged at this other air outlet place.
Please refer to Fig. 6, the indoor apparatus of air conditioner 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 blower part 20 that the plane that the blower part 20a of the indoor apparatus of air conditioner of the second embodiment carrys out back rotation is different from the indoor apparatus of air conditioner 110 of the first embodiment carrys out the plane of back rotation, the blower part 20a of the indoor apparatus of air conditioner of the second embodiment is arranged between housing 21 and ring wall 12 after rotating mechanism 30 90-degree rotation by the blower part 20 of the indoor apparatus of air conditioner 110 of the first embodiment and is formed, or the blower part 20 of the indoor apparatus of air conditioner 110 of the first embodiment can be obtained the blower part 20a of the indoor apparatus of air conditioner of the second embodiment relative to ring wall 12 90-degree rotation.
In the present invention, about the blower part 20a of the indoor apparatus of air conditioner of the second embodiment carrys out back rotation wind-guiding, carrys out back rotation wind-guiding under in the blower part 20 of the indoor apparatus of air conditioner 110 of the first embodiment.
Please refer to Fig. 7 to Fig. 9, the indoor apparatus of air conditioner 130 that third embodiment of the invention provides shows the wall hanging type air conditioner indoor unit 130 that make use of two above-mentioned blower part 20b and formed, the housing 10b of indoor apparatus of air conditioner 130 offers two air outlet 11b, each air outlet 11b place is provided with an above-mentioned blower part 20b.Understandably, the plane carrying out back rotation of these two blower part 20b can be the same or different.Fig. 7 shows two blower part 20b and blows towards heterochiral direction, and this blower part 20b is the blower part 20a shown in Fig. 6.Fig. 8 and Fig. 9 shows two blower part 20b and blows all upward or all down, and this blower part 20b is the blower part 20 shown in Fig. 3.Understandably, housing 10b can offer the air outlet 11b more than two, each air outlet 11b arranges a blower part 20b, these the blower part 20b set by all air outlet 11b can be the blower part 20a shown in Fig. 6 and Fig. 3,20 combination.
Please refer to Figure 10 to Figure 13, the indoor apparatus of air conditioner 140 that fourth embodiment of the invention provides shows the floor air conditioner indoor machine 140 that make use of two above-mentioned blower part 20c and formed, the housing 10c of indoor apparatus of air conditioner 140 offers two air outlet 11c, each air outlet 11c place is provided with an above-mentioned blower part 20c.Understandably, the plane carrying out back rotation of these two blower part 20c can be the same or different.Figure 10 and Figure 11 shows two blower part 20c and blows towards the direction of left and right, and this blower part 20c is the blower part 20a shown in Fig. 6.Figure 12 and Figure 13 respectively illustrates two blower part 20c and blows down and upward, and this blower part 20c is the blower part 20 shown in Fig. 3.Understandably, housing 10c can offer the air outlet 11c more than two, each air outlet 11c arranges a blower part 20c, these the blower part 20c set by all air outlet 11c can be the blower part 20a shown in Fig. 6 and Fig. 3,20 combination.
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.