CN105698263A - Vertical air conditioner indoor unit with drainage structure - Google Patents
Vertical air conditioner indoor unit with drainage structure Download PDFInfo
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- CN105698263A CN105698263A CN201410702932.0A CN201410702932A CN105698263A CN 105698263 A CN105698263 A CN 105698263A CN 201410702932 A CN201410702932 A CN 201410702932A CN 105698263 A CN105698263 A CN 105698263A
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Abstract
The invention discloses a vertical air conditioner indoor unit with a drainage structure. The vertical air conditioner indoor unit with the drainage structure comprises a cabinet body, wherein a heat exchanger is formed in the cabinet body; an air outlet is formed in a position, which corresponds to the heat exchanger, of the cabinet body; air inducing openings are formed in positions, which are close to side plates of the cabinet, of a roof of the cabinet body; air inducing channels which downwards extend from the air inducing openings along the side plates of the cabinet body are formed in the cabinet body; openings which face the corresponding side plates, on the opposite side, of the cabinet body are formed in the air inducing channels; an induced draft fan is formed on the roof; and an air outlet end of the induced draft fan communicates with the air inducing channels via the air inducing openings. By the vertical air conditioner indoor unit disclosed by the invention, the problems that air discharged from an existing vertical air conditioner indoor unit is not soft enough, and air supply amount is small can be solved.
Description
Technical field
The invention belongs to air-conditioning technique field, specifically, relate to a kind of vertical air-conditioner indoor unit, more specifically, relate to a kind of vertical air-conditioner indoor unit with flow guiding structure。
Background technology
The air-supply process of existing vertical air-conditioner indoor unit is as follows: indoor air is as non-heat exchange wind, enter in indoor set under the effect of internal centrifugal fan, forming heat exchange wind after heat exchanger heat exchange, heat exchange wind blows out from the air outlet cabinet under the effect of centrifugal fan。Thus, the wind that air outlet blows out is entirely heat exchange wind。The sent wind of this air supply mode is entirely the wind after heat exchanger heat exchange, the relative room air temperature difference is bigger, make air-out soft not, it is directly blown onto with user and feels uncomfortable, especially in cooling mode, the leaving air temp of air outlet is relatively low, blows to and feels extremely uncomfortable with user, it is easy to produce air conditioning disease。On the other hand, owing to air inlet mode is single, causing air-supply air quantity less, indoor air circulation speed is slow, and it is long that room air reaches design temperature required time, and power consumption is big。
Summary of the invention
It is an object of the invention to provide a kind of vertical air-conditioner indoor unit with flow guiding structure, to solve the problem that existing vertical air-conditioner indoor unit air-out is soft not, air-supply air quantity is few。
For achieving the above object, the present invention adopts following technical proposals to be achieved:
A kind of vertical air-conditioner indoor unit with flow guiding structure, including cabinet, it is formed with heat exchanger in described cabinet, on described cabinet, the position of corresponding described heat exchanger is formed with air outlet, on the top board of described cabinet, it is formed with air-vent near the side plate position of described cabinet, it is internally formed the side plate along described cabinet at described cabinet, from the air-inducing passage that described air-vent downwardly extends, described air-inducing passage is formed with the opening of another side plate towards described cabinet, described top board is formed with air-introduced machine, the outlet air end of described air-introduced machine connects with described air-inducing passage through described air-vent。
Vertical air-conditioner indoor unit as above, the described opening of described air-inducing passage at the side plate of the close described cabinet of this air-inducing passage and described air outlet near this described between the frame of the side plate of cabinet。
Vertical air-conditioner indoor unit as above, described air-inducing passage has the air inducing chamber from the downward bore convergent of described air-vent。
Preferably, described air-vent is two, and the corresponding described air-inducing passage of each described air-vent, two symmetrical formation of described air-vent are on described top board, and two symmetrical formation of described air-inducing passage are inside described cabinet。
Vertical air-conditioner indoor unit as above, described air-inducing passage includes the antetheca near described air outlet, the rear wall near described heat exchanger and connects described antetheca lower end and the diapire of described rear wall lower end, described antetheca and described rear wall extend from the side plate of the close described cabinet of this air-inducing passage to another side plate described, and the end of described antetheca and the end of described rear wall form described opening;Described rear wall is formed to the enlarged portion bent away from described antetheca direction near the upper end of described air-vent。
Preferably, described diapire is near the lower frame of described air outlet。
Preferably, described diapire is formed with guide curve surface。
Vertical air-conditioner indoor unit as above, some flow deflectors have been internally formed it at described air-inducing passage, described flow deflector extends to described antetheca from described rear wall, and is formed inside described air-inducing passage near the incline direction of described opening away from described opening, lower end with upper end。
Vertical air-conditioner indoor unit as above, described air-inducing passage has been internally formed spaced multiple flow deflector from top to bottom, multiple described flow deflectors shift to install on the direction of the described opening of this air-inducing passage along the side plate of the close described cabinet of this air-inducing passage, in adjacent two described flow deflectors, the described flow deflector of top compares the described flow deflector of lower section closer to described opening。
Preferably, in adjacent two described flow deflectors, the water conservancy diversion width of the described flow deflector of top is less than the water conservancy diversion width of the described flow deflector of lower section。
Preferably, multiple described flow deflector unequal-intervals from top to bottom are formed inside described air-inducing passage, and spacing convergent from top to bottom。
Vertical air-conditioner indoor unit as above, being formed with case on described top board, described air-introduced machine is positioned at described case, is formed with air inlet on described case, the air intake of described air-introduced machine connects with described air inlet, and the outlet air end of described air-introduced machine is closed with described air-vent and is connected。
Vertical air-conditioner indoor unit as above, described top board is formed with case, described air-introduced machine is positioned at described case, described case is formed with air inlet, the air intake of described air-introduced machine connects with described air inlet, and the outlet air end of described air-introduced machine is connected with the closing of described air-vent by fan passage。
Preferably, in described fan passage, it is formed with the deflector of the described air-vent that led by the air-flow of described air-introduced machine outlet air end。
Compared with prior art, advantages of the present invention and having the benefit effect that
The present invention forms air-vent on cabinet top board, top board arranges air-introduced machine, air-inducing passage is formed at cabinet medial part, air-introduced machine is utilized actively to be sent in cabinet through air-vent and air-inducing passage by substantial amounts of for outside non-heat exchange wind, non-heat exchange wind being mixed to form with the heat exchange wind after heat exchanger heat exchange and mixes wind, mixing wind delivers to indoor then through air outlet, and mixing wind is comparatively soft, blow to and with user, can feel more comfortable, improve user's comfortableness experience effect。The structure utilizing the present invention is blown, and absorbing quantity is big, significantly increases the air output of air outlet, helps speed up flowing velocity and the uniformity of room air, reduces room air and reach the time needed for design temperature and energy consumption。Also, it is not necessary to change the air exhausting structure of existing vertical air-conditioner indoor unit, it is achieved convenient。
After reading in conjunction with the accompanying the specific embodiment of the present invention, the other features and advantages of the invention will become clearer from。
Accompanying drawing explanation
Fig. 1 is the axonometric chart that the present invention has first embodiment of vertical air-conditioner indoor unit of flow guiding structure;
Fig. 2 is one of present invention sectional view of first embodiment of vertical air-conditioner indoor unit with flow guiding structure;
Fig. 3 is that the present invention has the two of the sectional view of first embodiment of vertical air-conditioner indoor unit of flow guiding structure;
Fig. 4 is the axonometric chart that the present invention has second embodiment of vertical air-conditioner indoor unit of flow guiding structure;
Fig. 5 is one of present invention sectional view of second embodiment of vertical air-conditioner indoor unit with flow guiding structure;
Fig. 6 is that the present invention has the two of the sectional view of second embodiment of vertical air-conditioner indoor unit of flow guiding structure;
Fig. 7 is that the present invention has the three of the sectional view of second embodiment of vertical air-conditioner indoor unit of flow guiding structure;
Fig. 8 is the axonometric chart that the present invention has the 3rd embodiment of vertical air-conditioner indoor unit of flow guiding structure;
Fig. 9 is one of present invention sectional view of the 3rd embodiment of vertical air-conditioner indoor unit with flow guiding structure;
Figure 10 is that the present invention has the two of the sectional view of the 3rd embodiment of vertical air-conditioner indoor unit of flow guiding structure;
Figure 11 is the top view that the present invention has the 3rd embodiment of vertical air-conditioner indoor unit of flow guiding structure。
Detailed description of the invention
Below in conjunction with the drawings and specific embodiments, technical scheme is described in further detail。
Refer to first embodiment that the present invention shown in Fig. 1 to Fig. 3 has the vertical air-conditioner indoor unit of flow guiding structure。Wherein, Fig. 1 is the axonometric chart of this embodiment, and Fig. 2 and Fig. 3 is two sectional views of this embodiment。
Anticipate as shown in Figure 1, Figure 2 and Figure 3, the vertical air-conditioner indoor unit 100 of this embodiment includes cabinet 11, cabinet 11 has top board 111, left plate 112, right plate 113, base plate, front panel and back plate (base plate, front panel and back plate do not mark in the drawings), cabinet 11 is formed main air inlet 114 and air outlet 115, has been internally formed centrifugal fan 19 and heat exchanger 18 at cabinet 1。Specifically, main air inlet 114 forms the one or more positions in cabinet back plate bottom, front panel bottom or side plate bottom, and air outlet 115 forms the top at front panel。Heat exchanger 18 is formed inside cabinet 11, the rear of air outlet 115, and is positioned at the top of centrifugal fan 19。This structure is the conventional structure of existing vertical air-conditioner indoor unit, is not specifically described at this and illustrates。
When indoor set 100 works on power, under the effect of centrifugal fan 19, it is internal that indoor non-heat exchange wind enters into cabinet 11 from main air inlet 114, and deliver to heat exchanger 18 and carry out heat exchange。Heat exchange wind after heat exchange will flow to air outlet 115 under the effect of centrifugal fan 19, be blown to indoor through air outlet 115 after。
Additionally, in this embodiment, top board 111 is formed with air-vent, has been internally formed air-inducing passage at cabinet 11, top board 111 is also formed with air-introduced machine。Specifically, air-vent is two, respectively the first air-vent 116 and the second air-vent 117。First air-vent 116 is formed on top board 111, near the position of left plate 112, and the second air-vent 117 is formed on top board 111, near the position of right plate 113。That is, the first air-vent 116 and the second air-vent 117 are formed at the left and right two ends of top board 111, and symmetrical relative to the center of indoor set main body。Air-inducing passage is also two, respectively the first air-inducing passage 12 and the second air-inducing passage 13。Wherein, first air-inducing passage 12 includes the antetheca 121 near air outlet 115 and the rear wall 122 near heat exchanger 18, antetheca 121 and rear wall 122 all downwardly extend along left plate 112 from the first air-vent 116, and lower end that antetheca 121 is positioned below and the lower end that rear wall 122 is positioned below are connected by diapire 123。Antetheca 121 and rear wall 122 also all extend from left plate 112 side plate 113 direction to the right (be extension to the right in fig. 2), and antetheca 121 is positioned at the end of right and rear wall 122 is positioned at the end formation opening 124 of right。Wherein, diapire 123 is near the lower frame 1152 of air outlet 115, that is, near the lower frame 1152 being located proximate to air outlet 115 that downwardly extends of the first air-inducing passage 12, it is impossible to too high, can not be too low。Opening 124 at left plate 112 and air outlet 115 between the left border 1151 of left plate 112, that is, the position that the first air-inducing passage 12 extends to the right can not enter into the dead astern of air outlet 115。The structure of the second air-inducing passage 13 is similar with the first air-inducing passage 12, and is formed inside right plate 113 with the form with the first air-inducing passage 12 symmetry。
Corresponding with two air-vents and two air-inducing passages, the air-introduced machine on top board 111 is also two, is the first air-introduced machine 14 and the second air-introduced machine 15 respectively。Wherein, the first air-introduced machine 14 is positioned at above the first air-vent 116, and its outlet air end is towards the first air-vent 116, it is preferable that closes with the first air-vent 116 and is connected, and connects with the first air-inducing passage 12 through the first air-vent 116。Second air-introduced machine 15 is positioned at above the second air-vent 117, and its outlet air end is towards the second air-vent 117, and connects with the second air-inducing passage 13 through the second air-vent 117。In this embodiment, the first air-introduced machine 14 is preferably centrifugal blower, and this centrifugal blower is placed in the first case 16。First case 16 offers air inlet (in figure for mark), the air intake of centrifugal blower air inlet on the first case 16 and ft connection。Similar, the second air-introduced machine 15 is preferably centrifugal blower, and this centrifugal blower is placed in the second case 17。Second case 17 offers air inlet (in figure for mark), the air intake of centrifugal blower air inlet on the second case 17 and ft connection。Air inlet can arrange air-inlet grille, to keep the aesthetic property of indoor set entirety。Drainage screen can also be set at air-inlet grille place, the non-heat exchange wind introduced is filtered。By the first air-introduced machine 14 and the second air-introduced machine 15 are placed in case so that air-introduced machine is isolated with external environment condition, reduce the noise of air-introduced machine itself, also can ensure that the use safety of air-introduced machine。And, by the rectified action of case, extraneous air can enter in corresponding air-inducing passage smoothly。
When indoor set 100 works, control the first air-introduced machine 14 and the second air-introduced machine 15 works on power, air-introduced machine can non-heat exchange wind in suction chamber, and this non-heat exchange wind is delivered in the first air-inducing passage 13 and the second air-inducing passage 14, finally it is blown into cabinet 11 from the opening of two air-inducing passages internal, is into specifically between heat exchanger 18 and air outlet 115。The non-heat exchange wind of this part forms mixing wind by mixing in cabinet 11 with the heat exchange wind after heat exchanger 18 heat exchange, and this mixing wind is blown to indoor through air outlet 115。Mixing wind is non-heat exchange wind and heat exchange wind to be mixed, and proper temperature is comparatively soft, blows to and can feel more comfortable with user, improves user's comfortableness experience effect。It is additionally, since two air-introduced machines of use actively air inducing, it is possible to introduce substantial amounts of non-heat exchange wind。Thus, the heat exchange wind comparing simple, mixing wind air quantity is big, increases the air output of air outlet 115。Thus, help speed up flowing velocity and the uniformity of room air, reduce room air and reach the time needed for design temperature and energy consumption。
Adopt said structure to realize mixed ventilation, it is not necessary to the air outlet of change traditional vertical indoor apparatus of air conditioner, do not increase cabinet 11 internal volume, simple in construction, it is achieved convenient。
The air-introduced machine of this first embodiment is except adopting centrifugal blower, it would however also be possible to employ axial flow blower or cross flow fan。When adopting different types of blower fan, keep air-vent and air-inducing passage constant, the case of blower fan and periphery thereof only according to the outlet and inlet direction feature of blower fan, need to be adjusted so that blower fan can suck the non-heat exchange wind of outside and be sent in air-inducing passage。
Refer to second embodiment that the present invention shown in Fig. 4 to Fig. 7 has the vertical air-conditioner indoor unit of flow guiding structure。Wherein, Fig. 4 is the axonometric chart of this embodiment, and Fig. 5 to Fig. 7 is three sectional views of this embodiment。
Anticipate as shown in Figures 4 to 7, the vertical air-conditioner indoor unit 200 of this embodiment includes cabinet 21, cabinet 21 has top board 211, left plate 212, right plate 213, base plate, front panel and back plate (base plate, front panel and back plate do not mark in the drawings), cabinet 21 is formed main air inlet 214 and air outlet 215, has been internally formed centrifugal fan 29 and heat exchanger 28 at cabinet 21。Specifically, main air inlet 214 forms the one or more positions in cabinet back plate bottom, front panel bottom or side plate bottom, and air outlet 215 forms the top at front panel。Heat exchanger 28 is formed inside cabinet 21, the rear of air outlet 215, and is positioned at the top of centrifugal fan 29。This structure is the conventional structure of existing vertical air-conditioner indoor unit, is not specifically described at this and illustrates。
Additionally, in this embodiment, top board 211 is formed with air-vent, has been internally formed air-inducing passage at cabinet 21, top board 211 is also formed with air-introduced machine。Specifically, air-vent is two, respectively the first air-vent 216 and the second air-vent 217。First air-vent 216 is formed on top board 211, near the position of left plate 212, and the second air-vent 217 is formed on top board 211, near the position of right plate 213。That is, the first air-vent 216 and the second air-vent 217 are formed at the left and right two ends of top board 211, and symmetrical relative to the center of indoor set main body。Air-inducing passage is also two, respectively the first air-inducing passage 22 and the second air-inducing passage 23。Wherein, first air-inducing passage 22 includes the antetheca 221 near air outlet 215 and the rear wall 222 near heat exchanger 28, antetheca 221 and rear wall 222 all downwardly extend along left plate 212 from the first air-vent 216, and lower end that antetheca 221 is positioned below and the lower end that rear wall 222 is positioned below are connected by diapire 223。Antetheca 221 and rear wall 222 also all extend from left plate 212 side plate 213 direction to the right (be extension to the right in Figure 5), and antetheca 221 is positioned at the end of right and rear wall 222 is positioned at the end formation opening 224 of right。Wherein, diapire 223 is near the lower frame 2152 of air outlet 215, that is, near the lower frame 2152 being located proximate to air outlet 215 that downwardly extends of the first air-inducing passage 22, it is impossible to too high, can not be too low。Opening 224 at left plate 212 and air outlet 215 between the left border 2151 of left plate 212, that is, the position that the first air-inducing passage 22 extends to the right can not enter into the dead astern of air outlet 215。The structure of the second air-inducing passage 23 is similar with the first air-inducing passage 22, and is formed inside right plate 213 with the form with the first air-inducing passage 22 symmetry。
In this embodiment, top board 211 is provided with an air-introduced machine 24。Specifically, air-introduced machine 24 is above top board 211, between the first air-vent 216 and the second air-vent 217。This air-introduced machine 24 is double; two air-out type centrifugal blowers, lies in a horizontal plane in above top board 211, and air intake is upwards。Air-introduced machine 24 is outside arranges case 25, and this case 25 is by air-introduced machine 24 and external environment condition isolation。Being formed with air inlet (not marking in figure) on case 25, the air intake of air-introduced machine 24 is through air inlet and ft connection。Being also formed with fan passage 26 in case 25, this fan passage about 26 extends, and closes with the first air-vent 216 and the second air-vent 217 respectively and is connected。The outlet air end of air-introduced machine 24 connects with fan passage 26, and then is connected with the first air-inducing passage 22 within cabinet 21 and the second air-inducing passage 23 respectively by fan passage 26。Fan passage 26 is preferably provided with deflector 27。In this embodiment, fan passage 26 arranged on left and right sides is each provided with two deflectors 27, utilize deflector 27 that the outlet air end air-flow of air-introduced machine 24 is uniformly directed to the air-vent of both sides, be then blown to cabinet 21 equably from the air-inducing passage of both sides internal, carry out Homogeneous phase mixing with heat exchange wind。
This embodiment realizes the beneficial effect etc. of the principle of mixed ventilation, generation, is all referred to the description of above-mentioned first embodiment。
Same, the air-introduced machine of this second embodiment is except adopting centrifugal blower, it would however also be possible to employ axial flow blower or cross flow fan。When adopting different types of blower fan, keep air-vent and air-inducing passage constant, case and the fan passage of blower fan and periphery thereof only according to the outlet and inlet direction feature of blower fan, need to be adjusted so that blower fan can suck the non-heat exchange wind of outside and be sent in two air-inducing passages in left and right。
Refer to the 3rd embodiment that the present invention shown in Fig. 8 to Figure 11 has the vertical air-conditioner indoor unit of flow guiding structure。Wherein, Fig. 8 is the axonometric chart of this embodiment, and Fig. 9 and Figure 10 is two sectional views of this embodiment, and Figure 11 is the top view of giant embodiment。
Meaning as shown in Figs. 8 to 11, similar with second embodiment, the vertical air-conditioner indoor unit 300 of the 3rd embodiment includes cabinet 31, cabinet 31 has top board 311, left plate 312, right plate 313, base plate, front panel and back plate, cabinet 31 is formed main air inlet, air outlet, being internally formed centrifugal fan, heat exchanger etc. at cabinet 31, these structures are similar with Fig. 2 embodiment, do not repeat。
Same, similar with second embodiment, the 3rd embodiment is formed with two air-vents on top board 31, respectively the first air-vent 316 and the second air-vent 317。First air-inducing passage 32 corresponding with the first air-vent 316 and second air-inducing passage 33 corresponding with the second air-vent 317 it is internally formed at cabinet 31。Above top board 311, being formed with air-introduced machine 34 between the first air-vent 316 and the second air-vent 317, this air-introduced machine 34 is placed in case, and is connected with two air-vents by fan passage。The part-structure of air-vent, air-inducing passage, case and fan passage etc., position relationship and assembly relation are identical with above-mentioned second embodiment, and something in common does not also repeat, and is specifically referred to the description of above-mentioned second embodiment。
2 points are essentially consisted in second embodiment difference:
One, in the 3rd embodiment, air-introduced machine 34 is BI centrifugal blower, and centrifugal blower main body tilts backwards, at an angle to the horizontal direction。By adopting BI centrifugal blower, it is possible to make outer gas stream more stably enter after fan action in the first air-vent 316 and the second air-vent 317。
Its two, air-inducing passage structure is incomplete same。
For the first air-inducing passage 32, in the 3rd embodiment, first air-inducing passage 32 is from its first corresponding downward bore convergent of air-vent 316, so that air-flow in the first air-inducing passage 32 from its opening 324 blow out time, being easier to concentrate to the air outlet place on cabinet 31, being sufficiently mixed with heat exchange wind thus contributing to non-heat exchange wind。And, first air-inducing passage 32 forms the oriented direction away from antetheca 321 namely the enlarged portion 3221 bent near the direction of cabinet 31 back plate near the rear wall 322 of heat exchanger in the upper end near the first air-vent 316, by forming this enlarged portion 3221, heat exchanger can be dodged open, the heat exchange wind making heat exchanger fully blows out, and also helps in the smooth and easy introducing of air-out of air-introduced machine 34 to the first air-inducing passage 32。
Additionally, in the 3rd embodiment, diapire 323 inner face of the first air-inducing passage 32 is guide curve surface。And, inside the first air-inducing passage 32, it is also formed with some flow deflectors。Specifically, two flow deflectors are internally formed it at the first air-inducing passage 32, respectively the first flow deflector 325 and the second flow deflector 326。The two flow deflector with the first flow deflector 325 upper, the second flow deflector 326 under structure formed up and down inside the first air-inducing passage 32。Each flow deflector all extends to antetheca 321 from rear wall 322, and keep away mouth 324 with upper end, lower end is formed inside the first air-inducing passage 32 near the incline direction of opening 324。And, along the left plate of cabinet 31 to the direction of the opening 324 of this first air-inducing passage 32, two flow deflectors shift to install。Specifically, the first flow deflector 325 above compares the second flow deflector 326 of being positioned below closer to opening 324。As preferred embodiment, the water conservancy diversion width of the first flow deflector 325 is less than the water conservancy diversion width of the second flow deflector 326。And, the effect of the diapire 323 with guide curve surface is similar with two flow deflectors, therefore, it is possible to think and be formed with three flow deflectors in the first air-inducing passage 32。For the air-inducing passage with three and above flow deflector, it is preferable that multiple flow deflectors unequal-interval from top to bottom is formed inside air-inducing passage, and spacing convergent from top to bottom。Thereby, it is possible to it is internal that the non-heat exchange wind in the first air-inducing passage 32 is evenly directed to cabinet 32 in the vertical direction。
The air-introduced machine that this embodiment adopts is BI centrifugal blower, but is not limited to this, it would however also be possible to employ FC centrifugal blower。
This embodiment realizes the beneficial effect etc. of the principle of mixed ventilation, generation, is all referred to the description of above-mentioned first embodiment。
Above example is only in order to illustrate technical scheme, but not is limited;Although the present invention being described in detail with reference to previous embodiment, for the person of ordinary skill of the art, still the technical scheme described in previous embodiment can be modified, or wherein portion of techniques feature is carried out equivalent replacement;And these amendments or replacement, do not make the essence of appropriate technical solution depart from the spirit and scope of present invention technical scheme required for protection。
Claims (14)
1. a vertical air-conditioner indoor unit with flow guiding structure, including cabinet, it is formed with heat exchanger in described cabinet, on described cabinet, the position of corresponding described heat exchanger is formed with air outlet, it is characterized in that, on the top board of described cabinet, it is formed with air-vent near the side plate position of described cabinet, it is internally formed the side plate along described cabinet at described cabinet, from the air-inducing passage that described air-vent downwardly extends, described air-inducing passage is formed with the opening of another side plate towards described cabinet, described top board is formed with air-introduced machine, the outlet air end of described air-introduced machine connects with described air-inducing passage through described air-vent。
2. vertical air-conditioner indoor unit according to claim 1, it is characterised in that the described opening of described air-inducing passage at the side plate of the close described cabinet of this air-inducing passage and described air outlet near this described between the frame of the side plate of cabinet。
3. vertical air-conditioner indoor unit according to claim 2, it is characterised in that described air-inducing passage has the air inducing chamber from the downward bore convergent of described air-vent。
4. vertical air-conditioner indoor unit according to claim 1, it is characterized in that, described air-vent is two, the corresponding described air-inducing passage of each described air-vent, two symmetrical formation of described air-vent are on described top board, and two symmetrical formation of described air-inducing passage are inside described cabinet。
5. vertical air-conditioner indoor unit according to any one of claim 1 to 4, it is characterized in that, described air-inducing passage includes the antetheca near described air outlet, the rear wall near described heat exchanger and connects described antetheca lower end and the diapire of described rear wall lower end, described antetheca and described rear wall extend from the side plate of the close described cabinet of this air-inducing passage to another side plate described, and the end of described antetheca and the end of described rear wall form described opening;Described rear wall is formed to the enlarged portion bent away from described antetheca direction near the upper end of described air-vent。
6. vertical air-conditioner indoor unit according to claim 5, it is characterised in that described diapire is near the lower frame of described air outlet。
7. vertical air-conditioner indoor unit according to claim 5, it is characterised in that be formed with guide curve surface on described diapire。
8. vertical air-conditioner indoor unit according to claim 5, it is characterized in that, some flow deflectors have been internally formed it at described air-inducing passage, described flow deflector extends to described antetheca from described rear wall, and is formed inside described air-inducing passage near the incline direction of described opening away from described opening, lower end with upper end。
9. vertical air-conditioner indoor unit according to claim 8, it is characterized in that, described air-inducing passage has been internally formed spaced multiple flow deflector from top to bottom, multiple described flow deflectors shift to install on the direction of the described opening of this air-inducing passage along the side plate of the close described cabinet of this air-inducing passage, in adjacent two described flow deflectors, the described flow deflector of top compares the described flow deflector of lower section closer to described opening。
10. vertical air-conditioner indoor unit according to claim 9, it is characterised in that in adjacent two described flow deflectors, the water conservancy diversion width of the described flow deflector of top is less than the water conservancy diversion width of the described flow deflector of lower section。
11. vertical air-conditioner indoor unit according to claim 9, it is characterised in that multiple described flow deflector unequal-intervals from top to bottom are formed inside described air-inducing passage, and spacing convergent from top to bottom。
12. vertical air-conditioner indoor unit according to claim 1, it is characterized in that, described top board is formed with case, described air-introduced machine is positioned at described case, described case is formed with air inlet, the air intake of described air-introduced machine connects with described air inlet, and the outlet air end of described air-introduced machine is closed with described air-vent and is connected。
13. vertical air-conditioner indoor unit according to claim 1, it is characterized in that, described top board is formed with case, described air-introduced machine is positioned at described case, described case is formed with air inlet, the air intake of described air-introduced machine connects with described air inlet, and the outlet air end of described air-introduced machine is connected with the closing of described air-vent by fan passage。
14. vertical air-conditioner indoor unit according to claim 13, it is characterised in that be formed with the deflector of the described air-vent that led by the air-flow of described air-introduced machine outlet air end in described fan passage。
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| CN201410702932.0A CN105698263A (en) | 2014-11-29 | 2014-11-29 | Vertical air conditioner indoor unit with drainage structure |
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| CN106196286A (en) * | 2016-07-29 | 2016-12-07 | 青岛海尔空调器有限总公司 | Cabinet air-conditioner and mixed wind method |
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| CN106196286A (en) * | 2016-07-29 | 2016-12-07 | 青岛海尔空调器有限总公司 | Cabinet air-conditioner and mixed wind method |
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| CN106152462A (en) * | 2016-08-23 | 2016-11-23 | 美的集团武汉制冷设备有限公司 | Kation anion generator and air-conditioner |
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| CN106152462B (en) * | 2016-08-23 | 2022-03-01 | 美的集团武汉制冷设备有限公司 | Positive and negative ion generator and air conditioner |
| CN106091315B (en) * | 2016-08-23 | 2019-05-31 | 青岛海尔空调器有限总公司 | A kind of vertical air conditioner and wind deflector slide-and-guide position-limit mechanism |
| CN106247450A (en) * | 2016-08-23 | 2016-12-21 | 青岛海尔空调器有限总公司 | A kind of vertical air conditioner and wind deflector slide-and-guide supporting mechanism |
| WO2020052609A1 (en) * | 2018-09-13 | 2020-03-19 | 青岛海尔空调器有限总公司 | Jet flow apparatus for column air conditioner and column air conditioner having same |
| WO2020052568A1 (en) * | 2018-09-13 | 2020-03-19 | 青岛海尔空调器有限总公司 | Cabinet air conditioner and method for controlling same |
| WO2020052566A1 (en) * | 2018-09-13 | 2020-03-19 | 青岛海尔空调器有限总公司 | Jet device for cabinet type air conditioner and cabinet type air conditioner having same |
| WO2020052596A1 (en) * | 2018-09-13 | 2020-03-19 | 青岛海尔空调器有限总公司 | Cabinet air conditioner and method for controlling same |
| WO2020052565A1 (en) * | 2018-09-13 | 2020-03-19 | 青岛海尔空调器有限总公司 | Jet flow apparatus for column air conditioner and column air conditioner having same |
| CN109724158A (en) * | 2018-12-13 | 2019-05-07 | 青岛海尔空调器有限总公司 | Vertical air-conditioner indoor unit |
| WO2020119046A1 (en) * | 2018-12-13 | 2020-06-18 | 青岛海尔空调器有限总公司 | Vertical air conditioner indoor unit |
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