CN105509281A - Air guide structure and air conditioner - Google Patents

Abstract

The invention relates to an air guide structure and an air conditioner. The air guide structure comprises air ducts provided with an air outlet (10) and movable parts (6 and 6'), the movable parts (6 and 6') are arranged in the air ducts, are arranged close to the air outlet (10) and can move in the radial direction of the air outlet (10), and the movable parts (6 and 6') are provided with air guide faces and used for changing the flow direction of air in the air ducts. The air ducts with the air outlet and the movable parts with movable positions are arranged, and the movable parts can move in the radial direction of the air outlet and are provided with the air guide faces so that the air in the air ducts can be guided out along the air guide faces. When the air in the air ducts are output along the different air guide faces, the flow direction of the air can be changed, the problem that in the prior art, the air outlet direction is single is solved, and the air guide structure is higher in adaptability and capable of meeting requirements of various working modes.

Description

Air guide structure and air-conditioner

Technical field

The present invention relates to air-conditioning technical field, particularly relate to a kind of air guide structure and air-conditioner.

Background technology

The installation of courtyard machine or ceiling-mounted air conditioner is comparatively complicated, it installs the impact being easily subject to setting height(from bottom) and air exhausting structure, can not control its air-out direction neatly, as shown in Figure 1, its air-out direction is comparatively single, cannot environmentally and air-conditioning work pattern change adjustment air-out direction.Courtyard machine or ceiling-mounted air conditioner, do not take indoor human body activity space, and installation is generally in center, room, utilize higher air-out speed during cooling and warming often, cold/hot blast is delivered to ground, and under human body is in this high wind speed condition for a long time, can feel very ill, when especially heating, the restriction of air-out direction makes hot blast deliver to ground, and comfortableness is poor.

Summary of the invention

The object of the invention is to propose a kind of air guide structure and air-conditioner, to solve the problem that in prior art, air conditioner air-out direction is comparatively single.

For achieving the above object, the invention provides a kind of air guide structure, comprise the air channel and movable piece with air outlet, described movable piece to be arranged in described air channel and to be adjacent to described air outlet and arranges, and can moving radially along described air outlet, described movable piece has wind-guiding face, and the air be provided in air channel changes direction through this wind-guiding face.

Further, described movable piece has wind-guiding face, top and wind-guiding face, bottom in the radial direction at described air outlet, and wind-guiding face, described top and described bottom wind-guiding mask have the surface of different orientation, to form different wind-guiding directions.

Further, the air in air channel can be derived towards level or oblique upper by wind-guiding face, described top.

Further, the air in air channel can be derived downwards by wind-guiding face, described bottom.

Further, the surface in wind-guiding face, described top is level.

Further, the surface in wind-guiding face, described bottom is downward-sloping.

Further, be provided with auxiliary air channel in described movable piece, the two-port in described auxiliary air channel communicates with air channel and indoor environment respectively.

Further, described auxiliary air channel is different from wind-guiding face, described top and wind-guiding face, described bottom on wind-guiding direction.

Further, block is arranged on described air outlet place, and described movable piece is when described air outlet place moves radially, and described block can block described auxiliary air channel.

Further, at least two air channels are arranged in described air outlet place, and described at least two air channels have different wind-guiding directions, one at least two air channels described in described movable piece can block during movement.

Further, also comprising driving mechanism, moving for driving described movable piece.

For achieving the above object, present invention also offers a kind of air-conditioner, comprise above-mentioned air guide structure.

Further, described air-conditioner has refrigeration mode and heating mode, and under described refrigeration mode, described air outlet is set to horizontal air-out; Under described heating mode, described air outlet is set to downward air-out.

Further, described air-conditioner has refrigeration mode and heating mode, and under described refrigeration and heating mode, described air outlet can be set to realize horizontal air-out and downward air-out simultaneously.

Based on technique scheme, the present invention is by arranging the air channel and movable piece radial movable on the air outlet in air channel with air outlet, movable piece has wind-guiding face, the air in air channel can be made to derive along wind-guiding face, when the air in air channel is along different wind-guiding face air-out, the change of air flow can be realized, solve the problem that air-out direction in prior art is single, better adaptability, can meet the demand of various different working modes.

Accompanying drawing explanation

Accompanying drawing described herein is used to provide a further understanding of the present invention, and form a application's part, schematic description and description of the present invention, for explaining the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings:

Fig. 1 is the schematic diagram of air outlet structure of air conditioner in prior art.

Fig. 2 is theoretical air-out direction schematic diagram under air-conditioning heating pattern.

Fig. 3 is theoretical air-out direction schematic diagram under air conditioner refrigerating pattern.

Fig. 4 is the structural representation of an air guide structure of the present invention embodiment.

Fig. 5 is the structural representation of movable piece in air guide structure of the present invention embodiment.

Fig. 6 is the schematic diagram of Fig. 4 embodiment first air-out state.

Fig. 7 is the schematic diagram of Fig. 4 embodiment second air-out state.

Fig. 8 is the schematic diagram of Fig. 4 embodiment the 3rd air-out state.

Fig. 9 is the schematic diagram of Fig. 4 embodiment the 4th air-out state.

Figure 10 is the schematic diagram of an air-conditioner of the present invention embodiment first air-out state.

Figure 11 is the schematic diagram of an air-conditioner of the present invention embodiment second air-out state.

Figure 12 is the schematic diagram of air-conditioner of the present invention embodiment the 3rd air-out state.

Figure 13 is the structural representation of movable piece in another embodiment of air guide structure of the present invention.

Figure 14 is the structural representation of another embodiment of air guide structure of the present invention.

Figure 15 is the sectional view of Figure 14 embodiment.

Figure 16 is the structural representation of driving mechanism in Figure 14.

Figure 17 is the schematic diagram of Figure 14 embodiment first air-out state.

Figure 18 is the schematic diagram of Figure 14 embodiment second air-out state.

In figure: 1-first static element, 2-second static element, 3-tooth bar, 4-gear, 5-motor, 6,6 '-movable piece, 7-installing plate, 8-block, fixture on the downside of 9-, 10-air outlet, 11-assists air channel, wind-guiding face, 12-top, wind-guiding face bottom 13-, fixture on the upside of 14-, 21-drip tray, 22-heat exchanger, 23-air intake passage, 24-fan blade, 25-main motor, 26-air inlet.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in embodiment is clearly and completely described.Obviously, described embodiment is only a part of embodiment of the present invention, instead of whole embodiments.Based on embodiments of the invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

In describing the invention, it will be appreciated that, term " " center ", " transverse direction ", " longitudinal direction ", " front ", " afterwards ", " left side ", " right side ", " on ", D score, " vertically ", " level ", " top ", " end ", " interior ", orientation or the position relationship of the instruction such as " outward " are based on orientation shown in the drawings or position relationship, only the present invention for convenience of description and simplified characterization, instead of indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore limiting the scope of the invention can not be interpreted as.

Inventor finds according to the large quantity research of comfortableness during user's using air-condition device, during for making air conditioner refrigerating and heating, air is with the mode air-out of human body the most comfortable, and as shown in Figures 2 and 3, when heating, air outlet is adjusted to downward air-out in theory, hot blast directly blows to ground, heats faster; During refrigeration, air outlet is adjusted to horizontal air-out, blows farther.

Based on above invention thinking, first the present invention proposes a kind of air guide structure, as shown in Figure 4, this air guide structure comprises the air channel and movable piece 6 with air outlet 10, described movable piece 6 to be arranged in described air channel and to be adjacent to described air outlet 10 and arranges, and can moving radially along described air outlet 10, described movable piece 6 has wind-guiding face, and the air be provided in air channel changes direction through this wind-guiding face.

By arranging, there is the air channel of air outlet 10 and position-movable movable piece 6, this movable piece 6 can move radially along it at air outlet 10 place, movable piece 6 has wind-guiding face, the air be provided in air channel is derived along wind-guiding face, when the air in air channel is along different wind-guiding face air-out, the change of air flow can be realized, solve the problem that air-out direction in prior art is single, adaptability is stronger, can meet the demand of various different working modes.

As shown in Figure 5, movable piece 6 is sliding block type structure, described movable piece 6 has wind-guiding face, top 12 and wind-guiding face, bottom 13 in the radial direction at described air outlet 10, and wind-guiding face, described top 12 and wind-guiding face, described bottom 13 have the surface of different orientation, to form different wind-guiding directions.By the motion of movable piece 6, wind-guiding face, top 12 can cooperatively interact from the inwall of air outlet 10 to form the different air channel of two air-out directions with wind-guiding face, bottom 13 respectively.

Wherein, the air in air channel can be derived towards level or oblique upper by wind-guiding face, described top 12; Air in air channel can be derived downwards by wind-guiding face, described bottom 13.Like this, by the movement of movable piece 6, can to realize in air channel that air water is flat, oblique upper or derive downwards.

The specific implementation of the guide effect in wind-guiding face, top 12 and wind-guiding face, bottom 13 can be various ways, and such as, the surface in wind-guiding face, described top 12 is levels, or tilts obliquely upward; The surface in wind-guiding face, described bottom 13 is downward-sloping.As shown in Figure 5, wind-guiding face 12, described top level, can make the air water in air channel to clear wind or upwards air-out; Wind-guiding face, described bottom 13 is tilted to down, can make the downward air-out of the air in air channel, and " upwards " here comprises obliquely and straight up, and " downwards " here comprises obliquely and straight down.

In addition, the movable piece 6 of sliding block type structure can also have other versions, and as shown in figure 13, wind-guiding face, described top 12 is tilted to down, can make the downward air-out of the air in air channel; Wind-guiding face, described bottom 13 is level, and the air water in air channel can be made to clear wind.

The wind-guiding face of movable piece 6 can also arrange more, by rotating the switching realized between different wind-guiding face.

For the movable piece 6 of sliding block type structure, movable piece 6 can be positioned at inside, air channel, also can be positioned at outside the outside or air-conditioner shell in air channel.The movable piece 6 of sliding block type structure can be integral ring-shaped structure, also can be the structures such as the linear pattern of segmented.

In order to lead to air-out direction further, the inwall of air outlet 10 also can be set to the form adapted with the wind-guiding face on above-mentioned movable piece 6, to form the better air channel of steering capability.

Can be provided with auxiliary air channel 11 in described movable piece 6, the two-port in described auxiliary air channel 11 communicates with air channel and indoor environment respectively.Auxiliary air channel 11, for expanding blowing area, solves the problem that existing air-conditioner air supply areas is narrow and small.The air-out direction in auxiliary air channel 11 can be identical with the wind-guiding direction in wind-guiding face, bottom 13 with wind-guiding face, top 12, also can be different.Auxiliary air channel can realize multi-angle air-supply and Wide blowing angle, makes air-out mode comfortable more flexibly.

Block 8 is arranged on described air outlet place, and described movable piece 6 is when described air outlet place moves radially, and described block 8 can block described auxiliary air channel 11.The setting position of block 8 can be selected according to actual conditions, and as shown in Fig. 5 and Figure 13, block 8 is arranged at the outside in auxiliary air channel 11.

Multiple auxiliary air channel 11 also can be set, with expanding blowing area.When auxiliary air channel is two or more, its air-out direction can be identical, also can be different.

As shown in Figure 4, air channel is cooperatively interacted with the inwall of air outlet 10 by movable piece 6 and is formed, and when movable piece 6 moves to diverse location, can form the air channel with different air-out direction between the inwall of air outlet 10.Certainly, except can be by the inwall relative set of air outlet 10 can complement each other to form the air channel with different air-out direction from movable piece 6 structure except, can not also transform the inwall of air outlet 10, but directly fixture is set on the inwall of air outlet 10, as long as make the structure of fixture can cooperatively interact with movable piece 6, and the air channel with different air-out direction can be formed.

In another embodiment shown in Figure 14, movable piece 6 ' is baffle-type structure, in this embodiment, at least two air channels are arranged in described air outlet place, described at least two air channels have different wind-guiding directions, one at least two air channels described in described movable piece 6 ' can block during movement.In this embodiment, air channel formed by one or more static element.

When arranging a static element, with movable piece 6 similarly, static element can be provided with wind-guiding face, top and wind-guiding face, bottom, when baffle-type movable piece 6 ' shelters from the air channel formed by wind-guiding face, top and the air channel wall of static element, air is along the air channel air-out formed by wind-guiding face, bottom and the air channel wall of static element; When baffle-type movable piece 6 ' shelters from the air channel formed by wind-guiding face, bottom and the air channel wall of static element, air is along the air channel air-out formed by wind-guiding face, top and the air channel wall of static element.

When arranging multiple static element, mutually form the air channel with different air-out direction between each static element, to make air-out direction more diversified.As shown in figure 14, the first static element 1 and the wall of air outlet form the air channel of horizontal air-out, and the second static element 2 and the wall of air outlet form the air channel of downward air-out.

Movable piece 6 ' can make some of them air channel be in closed condition owing to being blocked, and makes remaining air channel be in opening-wide state owing to not being blocked.When baffle-type movable piece 6 ' block wherein a part of air channel time, air-out is carried out in the air channel that air is never blocked, and is moved by the position of movable piece 6 ', namely achieves the selection of different air-out direction.This baffle-type movable piece 6 ' can be provided with wind-guiding face, also wind-guiding face can not be set.Static element arranges wind-guiding face, the effect changing air flow can be played equally.

As shown in figure 14, air channel can comprise multiple, can respectively can horizontal air-out or air-out downwards, with expanding blowing area.

Air guide structure can also comprise driving mechanism, and movable piece 6 is at the move under influence of driving mechanism.Driving mechanism can make movable piece 6 along diagonal movement, also can move along a straight line, as long as can drive movable piece 6 shift position, and realizes the selection to different air channel when position is moved.

Preferably, movable piece 6 does rectilinear motion under the effect of driving mechanism.

The specific constructive form of driving mechanism can have to be selected comparatively flexibly, such as can adopt gear drive or link-type driving mechanism etc.As shown in Figure 15 and Figure 16, driving mechanism comprises motor 5, installing plate 7, gear 4 and tooth bar 3, motor 5 can select stepper motor, motor 5 and gear 4 are installed on installing plate 7, installing plate 7 is connected with baffle-type movable piece 6, motor 5 driven wheel 4 rotates, and gear 4 and tooth bar 3 engage each other, and do rectilinear motion to drive installing plate 7 and baffle-type movable piece 6 along tooth bar 3.The driving mechanism structure of this version is simple, and be easy to realize, reliability is higher.This driving mechanism coordinates baffle-type movable piece 6, compact conformation, appearance looks elegant, small volume.

The present invention also proposes a kind of air-conditioner, comprises the air guide structure in the various embodiments described above.This air-conditioner can be uphill opening type or ceiling-mounted air conditioner, and its installation can be combined with light fixture, reduces the room area taken.

In addition, air-conditioner also comprises drip tray 21, heat exchanger 22, air intake passage 23, fan blade 24, main motor 25 and air inlet 26, when air-conditioner is started working, under the drive of main motor 25, fan blade 24 starts to rotate, air intake from air inlet 26, and the lower end of fan blade 24 is entered into by heat exchanger 22, and throw away from edge along with the rotation of fan blade 24, enter air outlet 10, along with the motion of movable piece 6, air-out direction changes.

For making user obtain more excellent comfortableness, air-conditioner has refrigeration mode and heating mode, and in cooling mode, air outlet 10 is set to horizontal air-out; In a heating mode, air outlet 10 is set to downward air-out, can certainly under refrigeration and heating mode, and air outlet 10 is set to horizontal air-out simultaneously and downward air-out, only needs the radial position controlling movable piece 6 to realize.

For the movable piece 6 of baffle-type structure, as shown in figure 17, in a heating mode, movable piece 6 moves up, the air channel of horizontal air-out is blocked, and the air channel of air-out is downwards opened wide, to make air along the air channel air-out of downward air-out, make hot-air can arrive ground soon, heating effect is better; As shown in figure 18, in cooling mode, movable piece 6 moves down, and the air channel of downward air-out is blocked, and the air channel of horizontal air-out is opened wide, and to make air along the air channel air-out of horizontal air-out, makes air-supply farther, refrigeration is better.

For the movable piece 6 of sliding block type structure as shown in Figure 5, as shown in Figure 6, in cooling mode, movable piece 6 moves to bottom, the lower surface of movable piece 6 and the upper surface of downside fixture 9 bonded to each other, the upper surface of movable piece 6 coordinates with the lower surface of upside fixture 14 air channel forming horizontal air-out, makes the air water level land air-out in air channel, make air-supply farther, refrigeration is better; As shown in Figure 7, in a heating mode, movable piece 6 moves to the top, the upper surface of movable piece 6 and the lower surface of upside fixture 14 bonded to each other, the lower surface of movable piece 6 coordinates with the upper surface of downside fixture 9 air channel forming downward air-out, make the downward air-out of air, to enable hot-air arrive ground soon, heating effect is better.

As shown in Figure 8, when movable piece 6 moving member centre position, movable piece 6 is neither bonded to each other with the lower surface of upside fixture 14, not bonded to each other with the upper surface of downside fixture 9 yet, the upper surface of movable piece 6 can coordinate with the lower surface of upside fixture 14 air channel forming horizontal air-out, the lower surface of movable piece 6 can also coordinate with the upper surface of downside fixture 9 air channel forming downward air-out simultaneously, such air both can carry out air-out by horizontal duct, air-out can be carried out again by downward air channel, the wide-angle air-out of multi-angle can be realized, also air-out area can be increased simultaneously.

As shown in Figure 9, when block 8 moves to the position of opening accessory channel 11, air can also carry out air-out by accessory channel 11, its air outlet angle and air-out mode more versatile and flexible, air-out area is also larger.

For air-conditioner, its air-out view is as shown in Figure 10, Figure 11 and Figure 12, and corresponding air exhausting structure as shown in Fig. 6, Fig. 7 and Fig. 8 respectively, its principle is the same, repeats no more here.

By the explanation of the multiple embodiments to air guide structure of the present invention and air-conditioner, can see that air guide structure of the present invention and air-conditioner embodiment solve the single problem of existing air exhausting structure air-out direction, can environmentally or the change of air-conditioning work pattern adjust air-out direction; Increase air supply areas; Compact conformation, handsome in appearance, take up room little.

Finally should be noted that: above embodiment is only in order to illustrate that technical scheme of the present invention is not intended to limit; Although with reference to preferred embodiment to invention has been detailed description, those of ordinary skill in the field are to be understood that: still can modify to the specific embodiment of the present invention or carry out equivalent replacement to portion of techniques feature; And not departing from the spirit of technical solution of the present invention, it all should be encompassed in the middle of the technical scheme scope of request of the present invention protection.

Claims (14)

1. an air guide structure, is characterized in that, comprises the air channel and movable piece (6 with air outlet (10); 6 '), described movable piece (6; 6 ') to be arranged in described air channel and to be adjacent to described air outlet (10) and arrange, and can moving radially along described air outlet (10), described movable piece (6; 6 ') have wind-guiding face, the air be provided in air channel changes direction through this wind-guiding face.

2. air guide structure according to claim 1, is characterized in that, described movable piece (6; 6 ') at described air outlet (10), there is wind-guiding face, top (12) and wind-guiding face, bottom (13) in the radial direction, wind-guiding face, described top (12) and wind-guiding face, described bottom (13) have the surface of different orientation, to form different wind-guiding directions.

3. air guide structure according to claim 2, is characterized in that, the air in air channel can be derived towards level or oblique upper by wind-guiding face, described top (12).

4. air guide structure according to claim 2, is characterized in that, the air in air channel can be derived downwards by wind-guiding face, described bottom (13).

5. air guide structure according to claim 3, is characterized in that, the surface at wind-guiding face, described top (12) is level.

6. air guide structure according to claim 4, is characterized in that, the surface of wind-guiding face, described bottom (13) is downward-sloping.

7. air guide structure according to claim 2, is characterized in that, described movable piece (6; 6 ') be provided with auxiliary air channel (11) in, the two-port of described auxiliary air channel (11) communicates with air channel and indoor environment respectively.

8. air guide structure according to claim 7, is characterized in that, described auxiliary air channel (11) is different from wind-guiding face, described top (12) and wind-guiding face, described bottom (13) on wind-guiding direction.

9. air guide structure according to claim 7, is characterized in that, block (8) is arranged on described air outlet place, described movable piece (6; 6 ') when described air outlet place moves radially, described block (8) can block described auxiliary air channel (11).

10. air guide structure according to claim 1, is characterized in that, at least two air channels are arranged in described air outlet place, and described at least two air channels have different wind-guiding directions, described movable piece (6; 6 ') at least one air channel can be blocked during movement.

11. air guide structures according to any one of claim 1 ~ 10, is characterized in that, also comprise driving mechanism, for driving described movable piece (6; 6 ') move.

12. 1 kinds of air-conditioners, is characterized in that, comprise the air guide structure as described in any one of claim 1 ~ 11.

13. air-conditioners according to claim 12, is characterized in that, described air-conditioner has refrigeration mode and heating mode, and under described refrigeration mode, described air outlet (10) is set to horizontal air-out; Under described heating mode, described air outlet (10) is set to downward air-out.

14. air-conditioners according to claim 12, it is characterized in that, described air-conditioner has refrigeration mode and heating mode, and under described refrigeration and heating mode, described air outlet (10) can be set to realize horizontal air-out and downward air-out simultaneously.