CN105698351A - Wall-mounted air conditioner with drainage structure - Google Patents

Abstract

The invention discloses a wall-mounted air conditioner with a drainage structure. The wall-mounted air conditioner comprises an indoor unit; a cross-flow fan and a heat exchanger are formed in a shell of the indoor unit; a strip-shaped air outlet is formed in the shell; an induced draft opening is formed in a rear volute forming an air-delivery duct of the cross-flow fan and along the length direction of the air outlet; an induced draft fan is arranged above the shell; the induced draft fan communicates with the induced draft opening through an induced draft passage; the induced draft passage comprises a main drainage tube and a plurality of branch drainage tubes; the main drainage tube extends downwards from the air outlet of the induced draft fan, and extends to the other end from one end of the induced draft opening along the length direction of the induced draft opening; the branch drainage tubes are formed on the main drainage tube corresponding to the induced draft open at intervals; and an opening facing the induced draft opening is formed in one end of each branch drainage tube. By applying the wall-mounted air conditioner disclosed by the invention, the problems that the outlet air of an existing wall-mounted air conditioner is not gentle enough, and volume of supplied air is low can be solved.

Description

A kind of wall-hanging air conditioner with flow guiding structure

Technical field

The invention belongs to air-conditioning technique field, specifically, relate to a kind of wall-hanging air conditioner, more specifically, relate to a kind of wall-hanging air conditioner with flow guiding structure。

Background technology

The air-supply process of the indoor set of existing split type wall-hanging air conditioner is as follows: indoor air is as non-heat exchange wind, enter under the effect of axial-flow fan in indoor set, forming heat exchange wind after heat exchanger heat exchange, heat exchange wind blows out from air outlet under the effect of axial-flow 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 wall-hanging air conditioner with flow guiding structure, to solve the problem that existing wall-hanging air conditioner 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 wall-hanging air conditioner with flow guiding structure, including indoor set, described indoor set includes housing, described housing is formed axial-flow fan and heat exchanger, it is formed with strip air outlet on the housing, on the rear spiral case forming described cross-flow fan air-supply air channel, being formed with air-vent along the length direction of described air outlet, side is provided with air-introduced machine on the housing, and described air-introduced machine is connected with described air-vent by air-inducing passage；Described air-inducing passage includes drain supervisor and many drain arms, described drain supervisor downwardly extend from the air outlet of described air-introduced machine, and extend to the other end along the length direction of described air-vent from one end of described air-vent, described drain supervisor closes with the air outlet of described air-introduced machine near one end of described air-introduced machine and is connected, the relative other end is closed, many described drain branch intervals are formed on the described drain supervisor corresponding with described air-vent, every described drain arm one end connects with described drain supervisor, the relative other end forms the opening towards described air-vent。

Preferably, the spacing of adjacent two described drain arms is 30-100mm。

Wall-hanging air conditioner as above, described drain arm is formed downwards on described drain is responsible for higher than the structure diagonal of the other end forming opening with the one end connected with described drain supervisor。

Preferably, the angular range that described drain arm tilts obliquely is 5 °-30 °。

Preferably, described drain supervisor and described drain arm are flexible pipe。

Wall-hanging air conditioner as above, in the rear on spiral case, it is formed with spiral case opening along the length direction of described air outlet, described spiral case opening is formed with air inducing assembly, described air-vent is several, formed on described air inducing assembly, or formed on described air inducing assembly and described spiral case opening。

Wall-hanging air conditioner as above, in the cross section being perpendicular to described axial-flow fan axis, described spiral case opening has the first end near described air outlet and the second end away from described air outlet, line L1 is formed between described first end and described axial-flow fan axle center, line L2 is formed between described second end and described axial-flow fan axle center, described axial-flow fan axle center is made vertical line to the installed surface on described case and is formed L3, on along L1 to L2 to the direction of L3, angle α is formed between L1 and L2, angle β is formed between L2 and L3, described angle α and described angle β meet: 0 °≤α≤90 °, 0 °≤β≤90 °。

Wall-hanging air conditioner as above, the distance H between described first end and described second end of described spiral case opening meets: 70mm≤H≤150mm。

Wall-hanging air conditioner as above, described air inducing assembly includes the multiple air inducing grids being sequentially arranged at intervals along described rear spiral case trend, is formed with described air-vent between adjacent two air inducing grids。

Wall-hanging air conditioner as above, described air inducing grid include being positioned on described rear spiral case inlet pressure first and towards deviating from second of described supply air duct direction bending, described second is γ with the angle of described L3, and described angle γ meets: 0 °≤γ≤60 °。

Preferably, multiple described air inducing grids are sequentially connected with, and form the described air inducing assembly of integral structure。

Preferably, described air inducing assembly is detachable is assemblied in described spiral case opening part。

Compared with prior art, advantages of the present invention and having the benefit effect that

The present invention forms air-vent on the rear spiral case in cross-flow fan air-supply air channel, it is provided above air-introduced machine at housing, air-introduced machine is connected with air-vent by air-inducing passage, air-introduced machine is utilized actively to be sent in cross-flow fan air-supply air channel through air-inducing passage and air-vent by substantial amounts of for outside non-heat exchange wind, it is mixed to form with the heat exchange wind in supply air duct and mixes wind, mixing wind delivers to indoor through air outlet, mixing wind is comparatively soft, blow to and with user, can feel more comfortable, improve user's comfortableness experience effect。And, utilize the structure of the present invention to blow, 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。

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 one embodiment of indoor set of the wall-hanging air conditioner of flow guiding structure；

Fig. 2 is the internal structure schematic diagram of Fig. 1；

Fig. 3 is the rearview of Fig. 1；

Fig. 4 is the front view of flow guiding structure in an embodiment；

Fig. 5 is the side view of Fig. 4 flow guiding structure；

Fig. 6 is the axonometric chart of Fig. 4 flow guiding structure；

Fig. 7 is the partial internal structure schematic diagram that the present invention has another embodiment of indoor set of the wall-hanging air conditioner of flow guiding structure；

Fig. 8 is the axonometric chart of part-structure in Fig. 7。

Detailed description of the invention

In order to make the purpose of the present invention, technical scheme and advantage clearly understand, below with reference to drawings and Examples, the present invention is described in further detail。

Referring to the one embodiment of the present of invention shown in Fig. 1 to Fig. 6, the present invention has an embodiment of the indoor set of the wall-hanging air conditioner of flow guiding structure specifically。

Wherein, Fig. 1 is the axonometric chart of this embodiment indoor set；Fig. 2 is Fig. 1 internal structure schematic diagram；Fig. 3 is the rearview of Fig. 1, and Fig. 4, Fig. 5, Fig. 6 are the front view of flow guiding structure, side view and axonometric chart in this embodiment respectively。

In conjunction with Fig. 1 to illustrated in Figure 6, the indoor set 100 of this embodiment wall-hanging air conditioner includes housing 1, is provided with axial-flow fan 3 and heat exchanger 4, is formed with strip air outlet 5 on housing, be formed with main air inlet 9 at the top of housing 1 in housing。When indoor set 100 works on power, under the effect of axial-flow fan 3, indoor non-heat exchange wind enters into enclosure interior from main air inlet 9, and delivers to heat exchanger 4 and carry out heat exchange。Heat exchange wind after heat exchange delivers to air outlet 5 through cross-flow fan air-supply air channel 6, is blown to indoor through air outlet 5 after。

Forming the rear spiral case 7 of supply air duct 6 near housing rear, this rear wall, as housing mounting surface 11, is used for arranging wallboard, and is installed on metope by indoor set 100 by wallboard。Rear spiral case 7 is formed with opening 71。Specifically, this opening 71 is as air-vent, and the length direction along air outlet 5 is formed on rear spiral case 7。Being provided above air-introduced machine 10 at housing 1, this air-introduced machine 10 is connected with the opening 71 as air-vent by air-inducing passage 2。Specifically, in this embodiment, air-introduced machine 10 is arranged on housing 1 upper right, does not block in the non-air intake district of main air inlet 9。And, air-introduced machine 10 is dual suction type centrifugal blower, has two air inlets, and the air intake direction of two air inlets is parallel with housing mounting surface 22, and the air outlet of air-introduced machine 10 is towards rear side。

Having the indoor set 100 of said structure operationally, the heat exchange wind after heat exchanger 4 heat exchange, under the effect of axial-flow fan 3, accelerates to be sent to air outlet 5 through cross-flow fan air-supply air channel 6。Controlling air-introduced machine 10 to work, air-introduced machine 10 will suck outside substantial amounts of non-heat exchange wind, and will be delivered in supply air duct 6 through air-inducing passage 2 and opening 71 by non-for this part heat exchange wind。The non-heat exchange wind of this part forms mixing wind by mixing in supply air duct 6 with the heat exchange wind of flowing in supply air duct 6, and this mixing wind is blown to indoor through air outlet 5。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。Being additionally, since opening 71 to be formed along the length direction of air outlet 5, aperture area is big, it is simple to a large amount of non-heat exchange wind sucked by air-introduced machine 10 is quickly sent in supply air duct 6。Thus, the heat exchange wind comparing simple, mixing wind air quantity is big, increases the air output of air outlet 5。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。

Concrete, in this embodiment, air-inducing passage 2 includes drain supervisor 21 and Duo Gen drain arm 22。Wherein, drain supervisor 21 downwardly extend from the air outlet of air-introduced machine 10, and extends to the other end along the length direction of opening 71 from one end of opening 71。Drain supervisor 21 closes with the air outlet of air-introduced machine 10 near one end of air-introduced machine 10 and is connected, and the relative other end is closed。Many drain arm 22 intervals are formed on the drain supervisor 21 corresponding with opening 71, are formed in specifically on the horizontal pipeline section of drain supervisor 21。Every drain arm 22 one end connects with drain supervisor, and the relative other end forms the opening 221 towards opening 71。Wherein, the space D 1 between adjacent two drain arms 22 needs to be defined, because if spacing is excessive, the air-flow entering into opening 71 can be uniform not, if spacing is too small, can cause that again the air-out of drain arm 22 interferes。Preferably, the span of D1 is 30-100mm。Such as, in this embodiment, D1=64mm。

As preferred embodiment, every drain arm 22 is formed downwards to be responsible for 21 one end connected with drain on drain supervisor 21 higher than the structure diagonal of the other end forming opening 221, it is simple to smooth and easy drain。Preferably, drain arm 22 angle obliquely(relative to horizontal line) scope is 5 °-30 °。

And, in this embodiment, drain supervisor 21 and drain arm 22 are flexible pipe, and plasticity is strong, can match along housing 1 inner wall shape, it is simple to be built in the inner space of housing 1, in order to do not increase the volume of housing 1 as far as possible。

It should be noted that the air-introduced machine 10 of this embodiment is centrifugal blower, but it is not limited to this, it is also possible to be axial flow blower or cross flow fan。When selecting different blower fan, drainage channel 2 remains unchanged, only need to according to the air intake of blower fan, air-out direction, reasonable arrangement blower fan position so that blower fan can non-heat exchange wind in suction chamber delivering in drainage channel 2。

Referring to Fig. 7, this figure show the partial internal structure schematic diagram of another embodiment of indoor set that the present invention has the wall-hanging air conditioner of flow guiding structure, has the schematic diagram of the air-vent structure being different from first embodiment of Fig. 1 to Fig. 6 specifically。For simplifying structure, this Fig. 7 illustrate only partial internal structure figure, and the structure of all the other structures internal and air-introduced machine, drainage channel is referred to first embodiment。And, the internal structure schematic diagram shown in Fig. 7 show the sectional view being perpendicular to axial-flow fan 3 axis namely the sectional view being perpendicular to axial-flow fan 3 axis。

Referring to Fig. 7, in combination with the axonometric chart of part-structure in the Fig. 7 shown in Fig. 8, in the indoor set of this second embodiment, on rear spiral case 7, the length direction along air outlet 5 is formed with opening 71, being formed with air inducing assembly 8 on opening 71, air inducing assembly 8 has some air-vents。Corresponding with opening 71, air-vent is also formed along the length direction of air outlet 5。Opening 71 has the first end A of close air outlet 5 and away from the second end B of air outlet 5。That is, the lower edge that straight line is opening 71 at the first end A place, the upper edge that straight line is opening 71 at the second end B place。The axle center of axial-flow fan 3 is C, form line L1 between first end A and axle center C, form line L2 between the second end B and axle center C, and axle center C makes vertical line to housing mounting surface 11 and forms L3(in this Fig. 7, L3 is horizontal line, and overlap with L2), on the direction (being counterclockwise in Fig. 7) along L1 to L2 to L3, between L1 and L2, form angle α, angle β is formed (in this embodiment between L2 and L3, owing to L2 and L3 overlaps, angle is 0 °, thus does not mark β)。Wherein, angle α meets: 0 °≤α≤90 °；And angle β meets: 0 °≤β≤90 °。And, distance H(between the first end A and the second end B namely the length of line segment AB) meet: 70≤H≤150mm。As preferred embodiment, 30 °≤α≤60 °, 20 °≤β≤70 °, 90mm≤H≤120mm。

Limited by the angle of above-mentioned angle α and angle β so that opening 71 is limited to the correct position of rear spiral case 7, both can guarantee that the air velocity distribution at opening 71 place was stable, it is to avoid uneven air-out occurs, ensure that again the maximization of absorbing quantity。Restriction by the restriction of above-mentioned angle and opening two ends distance so that the size of opening 71 is more suitable, both can guarantee that best drainage effect, ensures again stablizing of air velocity distribution。

And, in this embodiment, air inducing assembly 8 includes three air inducing grids, respectively the first air inducing grid the 81, second air inducing grid 82 and the 3rd air inducing grid 83。These three air inducing grid is sequentially arranged at intervals from bottom to top along the trend of rear spiral case 7, it is formed with the first air-vent 84 between first air inducing grid 81 and the second air inducing grid 82, it is formed with the second air-vent 85 between second air inducing grid 82 and the 3rd air inducing grid 83, between the 3rd air inducing grid 83 and the second end B of opening 71, is formed with the 3rd air-vent 86。By arranging air inducing grid, it is ensured that the intensity of the supply air duct 6 that rear spiral case 7 is formed；And, it is simple to control multiple discontinuous air-vent by adjusting two air inducing Grill spaces, it is achieved air inducing uniformity in supply air duct 6。

As preferred embodiment, each air inducing grid adopts two-part structure。Specifically, for the second air inducing grid 82, it includes first 821 and second 822。Wherein, on first 821 molded line being positioned at rear spiral case 7, be equivalent to a part for rear spiral case 7, and second 822 bends towards deviating from supply air duct 6 direction (for towards housing mounting surface 11 direction in Fig. 7)。And, the angle γ that second is formed between 822 and L3 meets: 0 °≤γ≤60 °。The wind that drainage channel 2 is introduced by two sections of air inducing grid respectively carries out guiding drain so that smooth and easy the entering in supply air duct 6 of air inducing mixes。

And, in this embodiment, three air inducing grids in air inducing assembly 8 are sequentially connected with, and form the air inducing assembly of integral structure, and the air inducing assembly 8 of this integral structure is removably attached to opening 71 place。Thus so that air inducing assembly 8 can assemble as the individual components of indoor set 100, it is simple to processing, assembling and after-sales service。

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 (12)

1. a wall-hanging air conditioner with flow guiding structure, including indoor set, described indoor set includes housing, described housing is formed axial-flow fan and heat exchanger, it is formed with strip air outlet on the housing, it is characterised in that on the rear spiral case forming described cross-flow fan air-supply air channel, be formed with air-vent along the length direction of described air outlet, side is provided with air-introduced machine on the housing, and described air-introduced machine is connected with described air-vent by air-inducing passage；Described air-inducing passage includes drain supervisor and many drain arms, described drain supervisor downwardly extend from the air outlet of described air-introduced machine, and extend to the other end along the length direction of described air-vent from one end of described air-vent, described drain supervisor closes with the air outlet of described air-introduced machine near one end of described air-introduced machine and is connected, the relative other end is closed, many described drain branch intervals are formed on the described drain supervisor corresponding with described air-vent, every described drain arm one end connects with described drain supervisor, the relative other end forms the opening towards described air-vent。

2. wall-hanging air conditioner according to claim 1, it is characterised in that the spacing of adjacent two described drain arms is 30-100mm。

3. wall-hanging air conditioner according to claim 1, it is characterised in that described drain arm is formed downwards on described drain is responsible for higher than the structure diagonal of the other end forming opening with the one end connected with described drain supervisor。

4. wall-hanging air conditioner according to claim 3, it is characterised in that the angular range that described drain arm tilts obliquely is 5 °-30 °。

5. wall-hanging air conditioner according to claim 1, it is characterised in that described drain supervisor and described drain arm are flexible pipe。

6. wall-hanging air conditioner according to any one of claim 1 to 5, it is characterized in that, in the rear on spiral case, it is formed with spiral case opening along the length direction of described air outlet, described spiral case opening is formed with air inducing assembly, described air-vent is several, formed on described air inducing assembly, or formed on described air inducing assembly and described spiral case opening。

7. wall-hanging air conditioner according to claim 6, it is characterized in that, in the cross section being perpendicular to described axial-flow fan axis, described spiral case opening has the first end near described air outlet and the second end away from described air outlet, line L1 is formed between described first end and described axial-flow fan axle center, line L2 is formed between described second end and described axial-flow fan axle center, described axial-flow fan axle center is made vertical line to the installed surface of described housing and is formed L3, on along L1 to L2 to the direction of L3, angle α is formed between L1 and L2, angle β is formed between L2 and L3, described angle α and described angle β meet: 0 °≤α≤90 °, 0 °≤β≤90 °。

8. wall-hanging air conditioner according to claim 7, it is characterised in that the distance H between described first end and described second end of described spiral case opening meets: 70mm≤H≤150mm。

9. wall-hanging air conditioner according to claim 6, it is characterised in that described air inducing assembly includes the multiple air inducing grids being sequentially arranged at intervals along described rear spiral case trend, is formed with described air-vent between adjacent two air inducing grids。

10. wall-hanging air conditioner according to claim 9, it is characterized in that, described air inducing grid include being positioned on described rear spiral case inlet pressure first and towards deviating from second of described supply air duct direction bending, described second is γ with the angle of described L3, and described angle γ meets: 0 °≤γ≤60 °。

11. wall-hanging air conditioner according to claim 9, it is characterised in that multiple described air inducing grids are sequentially connected with, form the described air inducing assembly of integral structure。

12. wall-hanging air conditioner according to claim 11, it is characterised in that described air inducing assembly is detachable is assemblied in described spiral case opening part。