CN203857628U - Air duct structure of air conditioner - Google Patents

Abstract

The utility model provides an air duct structure of an air conditioner. The air duct structure comprises an air duct part and a diversion part rotatablely arranged on the air duct part, wherein the air duct part is provided with an air flow channel; the air flow channel passes through the front and the rear of the air duct part and extends to the other end of the air duct part from one end of the air duct part; the air duct part comprises a mounting plate arranged at one end of the air duct part; the extension of the air flow channel at the end of the air duct part is stopped at the mounting plate; the diversion part is pivoted on the mounting plate, is arranged in the air flow channel of the air duct part and can swing in the air flow channel; the extending direction of the diversion part is the same as that of the air flow channel which extends to the other end of the air duct part from one end of the air duct part. The diversion part is arranged in the air flow channel formed in the air duct part and can swing in the air flow channel, so that the air flow flowing in the air flow channel is disturbed by the diversion part, the air flow blows the human body after being disturbed, and people who are blown by the disturbed air flow feels more comfortable.

Description

Air-conditioning duct structure

Technical field

The utility model belongs to air-conditioning technical field, relates in particular to a kind of air-conditioning duct structure.

Background technology

In existing floor air conditioner, great majority are to adopt centrifugal blower and worm frame, and centrifugal blower and worm frame are arranged on to the bottom of air-conditioning, air-flow is delivered to the heat exchanger place being obliquely installed of top by centrifugal blower, then after the heat exchange of over-heat-exchanger, be expelled to indoorly by the air outlet of air-conditioning, realize refrigeration and the function that heats.

Along with the development of air-conditioning technical, there is centrifugal wind wheel to replace with the air conditioner room unit of tubular wine wheel.And tubular wine wheel is in the rising stage in the application of indoor apparatus of air conditioner, the Duct design of tubular wine wheel in air conditioner casing is also in the design phase, therefore, provide a kind of air channel that is adapted to tubular wine wheel extremely urgent, and the combination of air channel and tubular wine wheel normally designs tubular wine wheel in air channel, and in air channel, design air inlet and air outlet, air-flow is under the promotion of tubular wine wheel, again in conjunction with the effect of wind path wall, air-flow is discharged by the air outlet place in air channel, and the air-flow of discharging is directly discharged under the guiding of air guiding wall, make user experience powerful air-flow and not feel well, therefore, the cooperation comfortableness of this kind of air channel and tubular wine wheel is poor.

Utility model content

The purpose of this utility model is to provide a kind of air-conditioning duct structure, be intended to solve air-flow that the air-conditioning that utilizes tubular wine wheel that exists in prior art discharges and be directly blow and the problem that causes user to do not feel like oneself.

The utility model is to realize like this, a kind of air-conditioning duct structure, it comprises that ducting part and rotation are installed on the conducting element on described ducting part, described ducting part has gas channel, described gas channel connects the front and rear of this ducting part and extends to the other end by one end of this ducting part, described ducting part comprises the installing plate of the one end that is arranged on this ducting part, and described gas channel ends in described installing plate place in the extension of this end of described ducting part; Described conducting element is articulated on described installing plate and is arranged in the gas channel of this ducting part, and can in described gas channel, swing, the bearing of trend of described conducting element is identical to the bearing of trend of the other end in one end of described ducting part with described gas channel.

Further, the end of described conducting element is provided with driving rod, described driving rod passes described installing plate and is articulated on this installing plate, and described air-conditioning duct structure also comprises the motor that drives described conducting element to rotate with respect to described installing plate, and described motor is installed on described installing plate.

Further, described ducting part also comprises another installing plate, and this another installing plate and described installing plate are oppositely arranged, and described gas channel ends in described another installing plate place in the extension of the other end of described ducting part; One end of described conducting element is vertically articulated on described installing plate, and the other end is vertically articulated on described another installing plate.

Further, described conducting element has point and the thick end relative with described point on its cross section, and described point more stretches to described gas channel inside with respect to described thick end.

Further, described ducting part also comprises the spiral case part and the snail tongue that are installed on described installing plate, between described spiral case part and described snail tongue, forms described gas channel, and described conducting element is positioned at the exit of described gas channel.

Further, described conducting element has the first guide face and the second guide face, and described the first guide face and described the second guide face are recessed to described snail tongue by described spiral case part.

Further, described ducting part comprises two described snail tongues, these two described snail tongues are respectively the first snail tongue and the second snail tongue, described the first snail tongue is positioned at the relative both sides of described spiral case part with described the second snail tongue, between described the first snail tongue and described spiral case part, form the first gas channel, between described the second snail tongue and described spiral case part, form the second gas channel, the air flow outlet of described the first gas channel is provided with described conducting element; The air flow outlet of described the second gas channel is provided with described conducting element.

Further, described air-conditioning duct structure also comprises the position of splitter being installed on described installing plate; Described position of splitter is positioned at described gas channel, and the air-flow being flowed out by this gas channel is divided into two strands of air-flows, and described conducting element is positioned at the rear of described position of splitter on the flow direction of air-flow, and described conducting element rotatably switches these two strands of air-flows of shutoff.

Further, described position of splitter comprise the first flow distribution plate, the second flow distribution plate and be connected in described the first flow distribution plate and described the second flow distribution plate between and form the notch board of sinking space, described notch board is connected in the inner side of described the first flow distribution plate and the inner side of described the second flow distribution plate, and described conducting element is installed on the sinking space place of described notch board.

Further, described the first flow distribution plate and described the second flow distribution plate are outer expanding shape and arrange.

The utility model with respect to the technique effect of prior art is: in the gas channel forming at ducting part, conducting element is set, and swing in gas channel, make air-flow mobile in this gas channel be subject to the disturbance of conducting element, make air-flow in disturbance after-blow to human body, more feel comfortably cool than the straight human body that blows of air-flow.

Brief description of the drawings

Fig. 1 is the three-dimensional exploded view of the air-conditioner that provides of the utility model embodiment.

Fig. 2 is the stereogram of another angle of the ducting part of the air-conditioner of Fig. 1.

Fig. 3 is the stereogram of an angle again of the ducting part of the air-conditioner of Fig. 1.

Fig. 4 is the front view of the ducting part of the air-conditioner of Fig. 1.

Fig. 5 is the cutaway view of the ducting part A-A along the line of the air-conditioner of Fig. 4.

Fig. 6 is the cutaway view of the ducting part B-B along the line of the air-conditioner of Fig. 4.

Fig. 7 is the front view after the ducting part of the air-conditioner of Fig. 1 is combined with conducting element.

Fig. 8 is that the ducting part of Fig. 7 is combined the cutaway view of rear C-C along the line with conducting element.

Fig. 9 is the stereogram of the conducting element of the air-conditioner of Fig. 1.

Figure 10 is the cutaway view after the ducting part of the air-conditioner of Fig. 1 is combined with position of splitter, conducting element.

Figure 11 is the stereogram of the position of splitter of the air-conditioner of Fig. 1.

Figure 12 is the stereogram of another angle of the position of splitter of Figure 11.

Detailed description of the invention

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.

Refer to Fig. 1, the air-conditioning duct structure applications that the utility model provides is in air-conditioner 100 inside, particularly, this air-conditioner 100 comprises front panel 11, backboard 12, heat exchanger 13, ducting part 10 and is integrated in conducting element 14, position of splitter 15, the tubular wine wheel 16 on this ducting part 10 and the motor 17 that drives tubular wine wheel 16 to rotate.In the utility model, in conducting element 14, position of splitter 15 and tubular wine wheel 16 threes any one or the two even three be all incorporated into and on ducting part 10, be all called air-conditioning duct structure.

In the utility model, air-conditioning duct structure is the master that is combined into ducting part 10 with conducting element 14, and position of splitter 15 also can be installed in this air-conditioning duct structure.

Please refer to Fig. 7 and Fig. 8, described air-conditioning duct structure comprises ducting part 10 and rotates the conducting element 14 being installed on described ducting part 10, described ducting part 10 has gas channel 47, described gas channel 47 connects the front and rear of this ducting part 10 and extends to the other end by one end of this ducting part 10, described ducting part 10 comprises i.e. first installing plate 18 of installing plate 18(of the one end that is arranged on this ducting part 10), described gas channel 47 ends in described installing plate 18 places in the extension of this end of described ducting part 10; Described conducting element 14 is articulated on described installing plate 18 and is arranged in the gas channel 47 of this ducting part 10, and can be in the interior swing of described gas channel 47, the bearing of trend of described conducting element 14 is identical to the bearing of trend of the other end in one end of described ducting part 10 with described gas channel 47.

In the gas channel 47 that ducting part 10 forms, conducting element 14 is set, and in the interior swing of gas channel 47, makes air-flow mobile in this gas channel 47 be subject to the disturbance of conducting element, make air-flow in disturbance after-blow to human body, more feel comfortably cool than the straight human body that blows of air-flow.

In addition, conducting element 14 plays the effect of a shunting and water conservancy diversion to the air-flow in gas channel 47, can realize by the swing of conducting element 14 effect that flow is divided.

Please refer to Fig. 9, the end of described conducting element 14 is provided with driving rod 64, and described driving rod 64 passes described the first installing plate 18 and is articulated on this first installing plate 18.

Please refer to Fig. 1, described air-conditioning duct structure also comprises the motor 140 that drives described conducting element 14 to rotate with respect to described the first installing plate 18, and described motor 140 is installed on described the first installing plate 18.

Described ducting part 10 also comprises i.e. the second installing plate 19 of another installing plate 19(), this another installing plate 19 is oppositely arranged with described installing plate 18, and described gas channel 47 ends in described another installing plate 19 places in the extension of the other end of described ducting part 10; One end of described conducting element 14 is vertically articulated on described installing plate 18, and the other end is vertically articulated on described another installing plate 19, conducting element 14 is rotated and be installed between described the first installing plate 18 and described the second installing plate 19.

The pivot joint of conducting element 14 and the second installing plate 19 is passed the second installing plate 19 and be articulated on the second installing plate 19 by the described driving rod 64 of the other end of conducting element 14.

Please refer to Fig. 8 and Fig. 9, described conducting element 14 has point 65 and the thick end 66 relative with described point 65 on its cross section, and described point 65 more stretches to described gas channel 47 inside with respect to described thick end 66.

Described ducting part 10 also comprises the spiral case part 20 and the snail tongue 46 that are installed on described the first installing plate 18, between described spiral case part 20 and described snail tongue 46, form described gas channel 47, this gas channel 47 has air flow inlet 48 and air stream outlet 49, and described conducting element 14 is positioned at air stream outlet 49 places of described gas channel 47.

In the present embodiment, spiral case part 20 and snail tongue 46 are all installed between described the first installing plate 18 and described the second installing plate 19.

Meanwhile, the installation position 25 that described the first installing plate 18 and described the second installing plate 19 are provided with to install tubular wine wheel 16 in described air flow inlet 48 places.

In the present embodiment, described ducting part 10 comprises two described snail tongues 46, these two described snail tongues 46 are respectively the first snail tongue 21 and the second snail tongue 22, described the first snail tongue 21 is positioned at the relative both sides of described spiral case part 20 with described the second snail tongue 22, between described the first snail tongue 21 and described spiral case part 20, form the first gas channel 23, between described the second snail tongue 22 and described spiral case part 20, form the second gas channel 24.The air flow outlet of described the first gas channel 23 is provided with described conducting element 14; The air flow outlet of described the second gas channel 24 is provided with described conducting element 14.

Similarly, described the first installing plate 18 and described the second installing plate 19 are all in the porch of described the first gas channel 23 and the described installation position 25 that is provided with to install tubular wine wheel 16, the porch of described the second gas channel 24.

In other embodiments, on ducting part 10, can only form a gas channel 47 by spiral case part 20 and a snail tongue 46, and at air stream outlet 49 places of gas channel 47, described conducting element 14 is set, realize equally water conservancy diversion and realize turbulent effect.Conducting element 14 at the interior the utility model of can realizing equally of an independent gas channel 47 in order to realize the effect of air outlet place flow perturbation.

No matter be several gas channels, structure and the conducting element 14 of conducting element 14 itself are all identical with the annexation of ducting part 10.

In the time only having a gas channel 47, described conducting element 14 has the first guide face 67 and the second guide face 68, described the first guide face 67 is recessed to described snail tongue 46 by described spiral case part 20 with described the second guide face 68, in the time having two gas channels (i.e. the first gas channel 23 and the second gas channel 24), the first guide face 67 of each conducting element 14 is recessed to corresponding described snail tongue by described spiral case part 20 with described the second guide face 68, particularly, the first guide face 67 of the conducting element 14 on the left side is recessed to the first snail tongue 21 by described spiral case part 20 with described the second guide face 68, the first guide face 67 of the conducting element 14 on the right is recessed to the second snail tongue 22 by described spiral case part 20 with described the second guide face 68.

Please refer to Figure 10 to Figure 12, described air-conditioning duct structure also comprises the position of splitter 15 being installed on described installing plate 18; Described position of splitter 15 is positioned at described gas channel 47, and the air-flow being flowed out by this gas channel 47 is divided into two strands of air-flows, described conducting element 14 is positioned at the rear of described position of splitter 15 on the flow direction of air-flow, rotatable these the two strands of air-flows of shutoff that switch of described conducting element 14.

Position of splitter 15 is installed between described the first installing plate 18 and described the second installing plate 19, and described position of splitter 15 is positioned at described air stream outlet 49 places of described gas channel 47.

In the gas channel 47 forming, position of splitter 15 is set between by spiral case part 20 and snail tongue 46, original one air-flow is divided into two strands of air-flows, two strands of air-flows are discharged by the relative both sides of position of splitter 15, so original one air-flow air-out direction can be changed into relative two side air-outs by position of splitter 15, not only increase the air-out direction of air-flow, but also air outlet that can corresponding increase air-flow, simultaneously, in the process of shunting, can there is individual cushioning effect to original that strand of air-flow, and the flow direction of original air-flow is changed to some extent, expand blowing range.

In the present embodiment, for the ducting part 10 of two gas channels, position of splitter 15 is two,, the air flow outlet of described the first gas channel 23 is installed described position of splitter 15, and the air-flow of this first gas channel 23 is divided into main air 50 and secondary air flow 51; The air flow outlet of described the second gas channel 24 is provided with described position of splitter 15, and the air-flow of this second gas channel 24 is divided into the 3rd strand of air-flow 52 and the 4th strand of air-flow 53.

Please refer to Figure 11 and Figure 12, further, described position of splitter 15 comprise the first flow distribution plate 54, the second flow distribution plate 55 and be connected in described the first flow distribution plate 54 and described the second flow distribution plate 55 between and form the notch board 57 of sinking space 56, described notch board 57 is connected in the inner side of described the first flow distribution plate 54 and the inner side of described the second flow distribution plate 55, and described conducting element 14 is installed on sinking space 56 places of described notch board 57.The thick end 66 of described conducting element 14 is at the bottommost of the sinking space 56 of described notch board 57, and pivot joint axis between conducting element 14 and the first installing plate 18 and the second installing plate 19 is in the thick end 66 of this conducting element 14.

Further, described the first flow distribution plate 54 is outer expanding shape with described the second flow distribution plate 55 and arranges.

Please refer to Fig. 5 and Fig. 6, described spiral case part 20 comprises first diversion division 29 in the exit that is positioned at described the first gas channel 23 and described the second gas channel 24 and is connected in the second diversion division 30, the first diversion divisions 29 on described the first diversion division 29 the outlet position that is positioned at ducting part 10.Described the second diversion division 30 comprises two arc plates 31 of opposing setting, two described arc plates 31 arch upward direction inwardly, described the first diversion division 29 comprises two arc deflectors 32, arching upward of two described deflectors 32 is in outward direction, one side of two described deflectors 32 is connected with two described arc plates 31, and the opposite side of two described deflectors 32 interconnects.

Described the first snail tongue 21 is symmetrical arranged with respect to described spiral case part 20 with described the second snail tongue 22, described the first snail tongue 21 comprise in order to the first tongue 34 of the periphery adjacency of tubular wine wheel 16 and the first main part 35 being connected with described the first tongue 34, described the second snail tongue 22 comprise in order to the second tongue 36 of the periphery adjacency of tubular wine wheel 16 and the second main part 37 being connected with described the second tongue 36, described the first main part 35 extends out extension with described the second main part 37 with respect to described spiral case part 20.It between described the first main part 35 and described the second main part 37, is the air-out direction expansion towards whole ducting part 10.

Please refer to Fig. 2 and Fig. 3, further, distance between two described arc plates 31 is first reduced to increase by described the first diversion division 29 to the direction of described the second diversion division 30 again, the part increasing again in distance between two described arc plates 31 is provided with some fixed heads 33, and described in each, fixed head 33 is perpendicular to the length direction of described spiral case part 20.One of them object that arranges of these fixed heads 33 is the intensity of strengthening between two arc plates 31, and another one object is for the bonnet of fixed cap at described the second diversion division 30 rear portions is installed.

Please refer to Fig. 4 to Fig. 6, in the present embodiment, the upright projection of described spiral case part 20 on described the second installing plate 19 is in the profile of described the second installing plate 19; In the upright projection of described spiral case part 20 on described the second installing plate 19, the front portion of described spiral case part 20 is greater than the rear portion of described spiral case part 20 and the beeline of the corresponding profile of described the second installing plate 19 with the beeline of the corresponding profile of described the second installing plate 19, and described secondary air flow 51 collects in the front portion of described spiral case part 20 with described the 3rd strand of air-flow 52.Between the corresponding profile of the front portion of spiral case part 20 and the second installing plate 19, form certain space 28, can make two strands of air-flows converge at these 28 places, space.

Further, the upright projection of the rear portion of described spiral case part 20 on described the first installing plate 18 stretched out outside the corresponding profile of described the first installing plate 18, and the upright projection of the front portion of described spiral case part 20 on described the first installing plate 18 is in the corresponding profile of described the first installing plate 18.

Preferably, the length direction of the length direction of conducting element 14, position of splitter 15 is parallel to the length direction of described spiral case part 20, and the length direction of snail tongue 46 is all parallel with the length direction of spiral case part 20.Conducting element 14, position of splitter 15, snail tongue 46 and spiral case part 20 are all vertical with the first installing plate 18 and the second installing plate 19.

Please refer to Fig. 2 to Fig. 6, described ducting part 10 is connected with the first rib 26 between described the first snail tongue 21 and described spiral case part 20, described ducting part 10 is connected with the second rib 27 between described the second snail tongue 22 and described spiral case part 20, and described the first rib 26 and described the second rib 27 are symmetricly set in the relative both sides of described spiral case part 20.The object that the first rib 26 and the second rib 27 are set is the intensity of strengthening between spiral case part 20 and the first snail tongue 21 and the second snail tongue 22, avoids producing and swinging under the impact of the air-flow of discharging at tubular wine wheel 16.

The bearing of trend of the first rib 26 and the second rib 27 is perpendicular to the length direction of described spiral case part 20, the first snail tongue 21 and the second snail tongue 22, and the first rib 26 and the second rib 27 are horizontally set between spiral case part 20 and corresponding snail tongue.In the present embodiment, the quantity of the first rib 26 is two, and the setting of being separated by between two the first ribs 26, and preferably, two the first ribs 26 are uniform on the length direction of ducting part 10.Understandably, the quantity of the first rib 26 can be multiple, the setting of the quantity of the first rib 26 does not increase windage as target to reach on the basis of strengthening the intensity between spiral case part 20 and the first snail tongue 21, and multiple the first ribs 26 are uniform on the length direction of ducting part 10.

In the present embodiment, the quantity of the second rib 27 is two, and the setting of being separated by between two the second ribs 27, and preferably, two the second ribs 27 are uniform on the length direction of ducting part 10.Understandably, the quantity of the second rib 27 can be multiple, the setting of the quantity of the second rib 27 does not increase windage as target to reach on the basis of strengthening the intensity between spiral case part 20 and the second snail tongue 22, and multiple the second ribs 27 are uniform on the length direction of ducting part 10.

Described the first rib 26 is connected between the connecting portion between the position of close described the first tongue 34 of described the first main part 35 and deflector 32 and the arc plate 31 of a side of described spiral case part 20.Described the second rib 27 is connected between the connecting portion between the position of close described the second tongue 36 of described the second main part 37 and deflector 32 and the arc plate 31 of the opposite side of described spiral case part 20.

Further, described ducting part 10 comprises the first connecting plate 38 on described the first main part 35 that is connected in described the first snail tongue 21 and is connected in the second connecting plate 39 on described second main part 37 of described the second snail tongue 22, described the first connecting plate 38 surrounds the first cavity 40 with described the first snail tongue 21, here said the first cavity 40 is not the cavity of sealing, described the second connecting plate 39 surrounds the second cavity 41 with described the second snail tongue 22, and said the second cavity 41 is not the cavity of sealing here.Described the first connecting plate 38 and described the second connecting plate 39 are all connected between described the first installing plate 18 and described the second installing plate 19.The first connecting plate 38 and the second connecting plate 39 be the air-out direction of whole ducting part 10 extension dorsad all.

Further, described the first connecting plate 38 is extended with the first mounting bar 42 in its free end side outside described the first cavity 40, described the second connecting plate 39 is extended with the second mounting bar 43 in its free end side outside described the second cavity 41, and the object that exists of this first mounting bar 42 and the second mounting bar 43 is by the two, ducting part 10 to be installed on backboard 12.In the present embodiment, described the first mounting bar 42 is concordant with described the second mounting bar 43.The length direction of the first mounting bar 42 is parallel with the length direction of described spiral case part 20, and the length direction of the second mounting bar 43 is parallel with the length direction of described spiral case part 20.

The arranged outside of described the first connecting plate 38 has some the first ribs 44, and described in each, the first rib 44 is laterally connected to described the first mounting bar 42, some the first rib 44 parallel interval settings, and this first rib 44 has been strengthened the installation strength of the first mounting bar 42; The arranged outside of described the second connecting plate 39 has some the second ribs 45, and described in each, the second rib 45 is laterally connected to described the second mounting bar 43, some the second rib 45 parallel interval settings, and this second rib 45 has been strengthened the installation strength of the second mounting bar 43.The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all any amendments 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 (10)

1. an air-conditioning duct structure, it is characterized in that: described air-conditioning duct structure comprises that ducting part and rotation are installed on the conducting element on described ducting part, described ducting part has gas channel, described gas channel connects the front and rear of this ducting part and extends to the other end by one end of this ducting part, described ducting part comprises the installing plate of the one end that is arranged on this ducting part, and described gas channel ends in described installing plate place in the extension of this end of described ducting part; Described conducting element is articulated on described installing plate and is arranged in the gas channel of this ducting part, and can in described gas channel, swing, the bearing of trend of described conducting element is identical to the bearing of trend of the other end in one end of described ducting part with described gas channel.

2. air-conditioning duct structure as claimed in claim 1, it is characterized in that: the end of described conducting element is provided with driving rod, described driving rod passes described installing plate and is articulated on this installing plate, described air-conditioning duct structure also comprises the motor that drives described conducting element to rotate with respect to described installing plate, and described motor is installed on described installing plate.

3. air-conditioning duct structure as claimed in claim 2, it is characterized in that: described ducting part also comprises another installing plate, this another installing plate and described installing plate are oppositely arranged, and described gas channel ends in described another installing plate place in the extension of the other end of described ducting part; One end of described conducting element is vertically articulated on described installing plate, and the other end is vertically articulated on described another installing plate.

4. the air-conditioning duct structure as described in claim 1-3 any one, it is characterized in that: described conducting element has point and the thick end relative with described point on its cross section, and described point more stretches to described gas channel inside with respect to described thick end.

5. the air-conditioning duct structure as described in claim 1-3 any one, it is characterized in that: described ducting part also comprises the spiral case part and the snail tongue that are installed on described installing plate, between described spiral case part and described snail tongue, form described gas channel, described conducting element is positioned at the exit of described gas channel.

6. air-conditioning duct structure as claimed in claim 5, is characterized in that: described conducting element has the first guide face and the second guide face, and described the first guide face and described the second guide face are recessed to described snail tongue by described spiral case part.

7. air-conditioning duct structure as claimed in claim 5, it is characterized in that: described ducting part comprises two described snail tongues, these two described snail tongues are respectively the first snail tongue and the second snail tongue, described the first snail tongue is positioned at the relative both sides of described spiral case part with described the second snail tongue, between described the first snail tongue and described spiral case part, form the first gas channel, between described the second snail tongue and described spiral case part, form the second gas channel, the air flow outlet of described the first gas channel is provided with described conducting element; The air flow outlet of described the second gas channel is provided with described conducting element.

8. the air-conditioning duct structure as described in claim 1-3 any one, is characterized in that: described air-conditioning duct structure also comprises the position of splitter being installed on described installing plate; Described position of splitter is positioned at described gas channel, and the air-flow being flowed out by this gas channel is divided into two strands of air-flows, and described conducting element is positioned at the rear of described position of splitter on the flow direction of air-flow, and described conducting element rotatably switches these two strands of air-flows of shutoff.

9. air-conditioning duct structure as claimed in claim 8, it is characterized in that: described position of splitter comprise the first flow distribution plate, the second flow distribution plate and be connected in described the first flow distribution plate and described the second flow distribution plate between and form the notch board of sinking space, described notch board is connected in the inner side of described the first flow distribution plate and the inner side of described the second flow distribution plate, and described conducting element is installed on the sinking space place of described notch board.

10. air-conditioning duct structure as claimed in claim 9, is characterized in that: described the first flow distribution plate and described the second flow distribution plate are outer expanding shape and arrange.