CN209605360U - Air deflection assemblies, air conditioner indoor unit and air conditioner - Google Patents

Abstract

Air deflection assemblies, air conditioner indoor unit and air conditioner, are related to field of air conditioning.Air deflection assemblies include wind deflector, first driving device and the second driving device；First driving device drives wind deflector mobile, and the direction that wind deflector is moved with respect to first driving device is in a second direction；Second driving device drives first driving device rotation, and the axis direction that first driving device is rotated relative to the second driving device is along first direction, and along the plate face extending direction of wind deflector, first direction is vertical with second direction for first direction and second direction.Flexibly, the controllability of wind deflector movement is strong for wind deflector movement, so that wind deflector is when installation is to air conditioner indoor unit, in the different aperture of air outlet and in the case that wind deflector be in different water conservancy diversion directions, air-flow can stablized from setting water conservancy diversion direction and exports.

Description

Air deflection assemblies, air conditioner indoor unit and air conditioner

Technical field

The utility model relates to field of air conditioning, it is specifically related to a kind of air deflection assemblies, air conditioner indoor unit and air conditioner.

Background technique

In the prior art, the shell of air conditioner indoor unit and wind deflector are hinged, and wind deflector is located at going out for air conditioner indoor unit At air port, when air conditioner indoor unit is closed, air outlet is closed by wind deflector；When air conditioner indoor unit is opened, wind deflector is around articulated position Rotation, by the blow-off direction of wind deflector guidance air-flow.

However, the articulated position due to wind deflector is fixed, wind deflector can only be rotated around fixed position, by taking wall-hanger as an example, Along the width direction of wind deflector, if housing hinge in the upper end of wind deflector, then wind deflector can only open air outlet, gas from lower end Stream can only export on the downside of wind deflector；If housing hinge is in the lower end of wind deflector, then wind deflector can only open outlet air from upper end Mouthful, air-flow can only be exported from the upside of wind deflector；If housing hinge is in the middle part of wind deflector, then wind deflector is after rotating through, The two sides up and down of wind deflector have mass air flow to pass through, and wind deflector cannot achieve effective guidance to air-flow.

In the case where housing hinge is in the middle part of wind deflector, some wind deflectors of the prior art can after rotating to set angle It is contacted with shell, can be realized ipsilateral outflow of the air-flow from wind deflector, however, the water conservancy diversion of air outlet aperture and wind deflector at this time Direction is fixed, and in the case where air outlet is in other apertures and wind deflector is in other water conservancy diversion directions, wind deflector cannot be with shell Body contact, there are the case where air-flow passes through in the two sides up and down that still will appear wind deflector, still can not achieve air-flow from wind deflector The purpose of ipsilateral outflow, wind deflector, which can not achieve, stablizes water conservancy diversion by direction initialization to air-flow.

Summary of the invention

The main purpose of the utility model is to provide a kind of convenient for flexible motion and the strong air deflection assemblies of controllability.

In order to realize that above-mentioned main purpose, air deflection assemblies provided by the utility model include wind deflector, the first driving Device and the second driving device；First driving device drives wind deflector mobile, the wind deflector side mobile relative to first driving device To in a second direction；Second driving device drives first driving device rotation, and first driving device turns with respect to the second driving device Dynamic axis direction along first direction, first direction and second direction along the plate face extending direction of wind deflector, first direction with Second direction is vertical.

Therefore the utility model passes through the setting and structure design to air deflection assemblies, first driving device driving Wind deflector is moved along plate face extending direction, and the second driving device drives wind deflector rotation, and wind deflector is able to carry out translation and rotation Compound motion, wind deflector movement flexibly, and can control wind-guiding by first driving device and the second driving device respectively The controllability of the movement and rotation of plate, wind deflector movement is strong so that wind deflector is when installation is to air conditioner indoor unit, air outlet not In the case that same aperture and wind deflector is in different water conservancy diversion directions, air-flow can be made to stablize export from setting water conservancy diversion direction.

One Preferable scheme is that, wind deflector is stripe board, length direction of the first direction along wind deflector, second direction edge The width direction of wind deflector.

Another Preferable scheme is that, first driving device includes first motor, gear and rack gear, and gear is set to the first electricity In the shaft of machine, rack gear is set on wind deflector, wheel and rack engagement.

Therefore rack pinion can be realized wind deflector with respect to the purpose that first motor shell is translatable.

Further embodiment is that wind deflector is slidably mounted on the casing of first motor.

Therefore such wind deflector is more stable relative to the movement of first motor.

Another Preferable scheme is that, the combination of first driving device and the second driving device is equipped with two groups, two group first The combination of driving device and the second driving device is distributed along first direction；The group of two groups of first driving devices and the second driving device In conjunction, the axis of first driving device rotation is overlapped.

Therefore drive wind deflector mobile by two first driving devices in this way, be conducive to wind deflector installation and stablize, Be conducive to mobile stabilization of the wind deflector relative to first driving device；Similarly, two the second driving devices are also beneficial to the first driving The slow-roll stabilization of device and wind deflector.

Another Preferable scheme is that, the second driving device includes the second motor, first driving device and the second motor Shaft connection.

Also one Preferable scheme is that, air deflection assemblies further include push-off device, and push-off device includes driving box and push rod, Second driving device is fixed on push rod, drives box driving push rod stretching motion.

The another object of the utility model be to provide a kind of movement of wind deflector flexibly, controllability it is strong and can be in different water conservancy diversion Stablize the air conditioner indoor unit of water conservancy diversion in the case of direction.

In order to realize above-mentioned another object, air conditioner indoor unit provided by the utility model includes shell and wind-guiding above-mentioned Board group part, shell are equipped with air outlet, and wind deflector is located at air outlet, and the second driving device is mounted on shell.

Therefore the air conditioner indoor unit of the utility model is due to using air deflection assemblies above-mentioned, wind deflector movement spirit Work, controllability are strong, can be in the case where air outlet is in different opening and wind deflector is in different water conservancy diversion directions, wind-guiding board group Part control is realized that air-flow is stablized from direction initialization and is exported；Specifically, when air conditioner indoor unit is opened, by the second driving device band Dynamic wind deflector turns to suitable wind-guiding angle, forms the different opening of air outlet and the different water conservancy diversion directions to air-flow, then Drive wind deflector mobile by first driving device, wind deflector is moved to the state contacted with a side body of air outlet, makes air-flow Under the guidance of wind deflector can only space between wind deflector and another side body of air outlet export, reach air-flow by setting Air-out direction steady flow purpose.

One Preferable scheme is that, air deflection assemblies further include push-off device, and push-off device includes driving box and push rod, the Two driving devices are fixed on push rod；Driving box is fixed with shell, and driving box driving wind deflector stretches out or be retracted to air outlet.

A further object of the utility model be to provide a kind of movement of wind deflector flexibly, controllability it is strong and can be in different water conservancy diversion Stablize the air conditioner of water conservancy diversion in the case of direction.

In order to realize above-mentioned a further object, air conditioner provided by the utility model includes air conditioner indoor unit above-mentioned.

Therefore the air conditioner of the utility model due to use air conditioner indoor unit above-mentioned, wind deflector movement flexibly, can Control property is strong, can be in the case where air outlet is in different opening and wind deflector is in different water conservancy diversion directions, air deflection assemblies control System is realized that air-flow is stablized from direction initialization and is exported；Specifically, being led when air conditioner indoor unit is opened by the drive of the second driving device Aerofoil turns to suitable wind-guiding angle, forms the different opening of air outlet and the different water conservancy diversion directions to air-flow, then by One driving device drives wind deflector mobile, and wind deflector is moved to the state contacted with a side body of air outlet, is leading air-flow Under the guidance of aerofoil can only between wind deflector and another side body of air outlet space export, reach air-flow by setting go out The purpose of wind direction steady flow.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model air deflection assemblies；

Fig. 2 is the partial enlarged view in Fig. 1 at A；

Fig. 3 is the status diagram of the wind deflector closing exhaust passage of the utility model air conditioner indoor unit；

Fig. 4 is the status diagram that the wind deflector of the utility model air conditioner indoor unit is stretched out from exhaust passage；

Fig. 5 is the status diagram one when utility model air conditioner indoor unit is run in a chiller mode；

Fig. 6 is the status diagram two when utility model air conditioner indoor unit is run in a chiller mode；

Fig. 7 is the status diagram one when utility model air conditioner indoor unit is run with heating mode；

Fig. 8 is the status diagram two when utility model air conditioner indoor unit is run with heating mode.

The following is a further explanation of the present invention with reference to the accompanying drawings and embodiments.

Specific embodiment

Air deflection assemblies, air conditioner indoor unit and air conditioner embodiment:

The air deflection assemblies 1 of the present embodiment are installed on the air conditioner indoor unit of the present embodiment, the air conditioner packet of the present embodiment Include the air conditioner indoor unit of the present embodiment.

Referring to figure 3., for the wall-hanging air conditioner indoor unit of the present embodiment, air conditioner indoor unit includes shell 2, in shell 2 Equipped with evaporator 3 and blower 4, shell 2 is equipped with air outlet 21, and air deflection assemblies 1 are set at air outlet 21.

Referring to figure 3., the present embodiment default is described with the state that wind deflector 11 closes air outlet 21, and sets third party To c and fourth direction d, third direction c is identical as the thickness direction of wind deflector 11 under the state, fourth direction d and sets the state Under second direction b it is identical.

Fig. 1 and Fig. 2 is please referred to, Fig. 1 is the air deflection assemblies 1 of the present embodiment, and wind deflector 11 is strip plate body, if wind deflector 11 length direction is first direction a, if the width direction of wind deflector is second direction b.

Fig. 1 to Fig. 4 is please referred to, air deflection assemblies 1 include wind deflector 11 and two groups of driving assemblies, along first direction a, wind-guiding The both ends of plate 11 respectively pass through one group of driving assembly and connect with shell 2.Driving assembly include rack gear 12, gear (not shown), First motor 13, the second motor 14, driving box 16 and push rod 15.It is fixed to drive the shell 2 of box 16 and air conditioner indoor unit, and drives Dynamic box 16 is located in shell 2, and push rod 15 is connect with driving box 16, and driving 16 driving push rod 15 of box stretches out air outlet 21 (referring to figure 4) it or retracts air outlet 21 (referring to Fig. 3).Push rod 15 and the casing of the second motor 14 are fixed, the shaft 141 of the second motor 14 with The casing of first motor 13 is fixed, and 141 axis of shaft of the second motor 14 is along first direction a, the shaft axis of first motor 13 Along third direction c, gear is fixedly mounted in the shaft of first motor 13, and rack gear 12 is fixed on wind deflector 11, rack gear 12 Extending direction is engaged along fourth direction d, wheel and rack 12.It drives 16 driving push rod 15 of box flexible, then drives wind deflector 11 It stretches out or is retracted at the air outlet 21 of shell 2.

Two gears in two groups of driving assemblies are respectively positioned between two gears, and the cooperation of such wheel and rack 12 is not only Have the function of that wind deflector 11 is driven to move relative to the casing of first motor 13 along fourth direction d, and along first direction a, two A gear mesh rack gear 12 forms clamping, is conducive to wheel and rack 12 and engages the installation stabilization for being well conducive to wind deflector 11.

Preferably, leading truck (not shown), wind deflector 11 please are equipped with from the casing referring to Fig. 2, first motor 13 Slidably it is installed on leading truck.Leading truck can be sliding block 18, and sliding block 18 is equipped with the through-hole penetrated through along fourth direction d, Wind deflector 11 is equipped with the slide bar 17 extended along fourth direction d, and slide bar 17 and through-hole correspond, and slide bar 17 is arranged in corresponding In through-hole.The sliding slot extended along fourth direction d can certainly be set on wind deflector 11, and sliding block is slideably embedded in the sliding slot In.The motion state that the setting of leading truck advantageously allows wind deflector 11 is stablized.

Selectively, the transmission combination of first motor 13, gear and rack gear 12 can be using linear motor transmission, ball wire The substitutions such as thick stick transmission.

It is stretched first by 16 driving push rod 15 of driving box along third direction c when air conditioner indoor unit is opened to Fig. 8 referring to figure 4. Out, push rod 15 drives wind deflector 11 to extend out to outside air outlet 21, then drives wind deflector 11 to turn to properly by the second motor 14 Wind-guiding angle, and wind deflector 11 driven by first motor 13 b is mobile in a second direction, make the one of wind deflector 11 and air outlet 21 Side body 2 (along the upper side body 23 or lower side body 22 of fourth direction d) contact, and then make air-flow under the guidance of wind deflector 11 Space export between wind deflector 11 and another side body 2 of air outlet 21, is conducive to the outlet air side for making air-flow according to setting To flowing.

When air-conditioning is run in a chiller mode, referring to figure 5. and Fig. 6 along fourth direction d needs air-flow from wind deflector 11 Upside blow out (rain type outlet air), wind deflector 11 extend out to air outlet 21 it is outer after, drive 11 turns of wind deflector by the second motor 14 Dynamic, the one end of wind deflector 11 cooperated with the upper side body 23 of air outlet 21 is rotated to the direction far from air outlet 21, wind deflector 11 one end cooperated with the lower side body 22 of air outlet 21 is rotated to the direction close to air outlet 21, at this time wind deflector 11 with go out There is larger space between the upper side body 23 in air port 21, but still stayed between wind deflector 11 and the lower side body 22 of air outlet 21 Have a gap, therefore first motor 13, gear and rack gear 12 be set, from first motor 13 drive wind deflector 11 in a second direction b to The lower side body 22 of air outlet 21 is mobile, until wind deflector 11 is contacted with the lower side body 22 of air outlet 21, in this way, wind deflector 11 Gap between the lower side body 22 of air outlet 21 is obviously reduced, and most air-flows is from wind deflector 11 and air outlet 21 Upper side body 23 between space outflow, convenient for forming rain type outlet air.

Specifically, Fig. 5 and Fig. 6 shows as two states possible when air-conditioning is run in a chiller mode, along four directions Into d, Fig. 5 and Fig. 6, the lower end of wind deflector 11 is contacted with the lower side body 22 of air outlet 21, also, the shape compared to Fig. 6 State, wind deflector 11 raises up in Fig. 5, and degree is larger, and the aperture of air outlet 21 is smaller in Fig. 5, and the air-out direction degree that raises up is larger； I other words wind deflector 11 is different to wind-guiding direction difference, the aperture of air outlet 21 of air-flow under the two states of Fig. 5 and Fig. 6, And the two states downstream of Fig. 5 and Fig. 6 can be stablized from the upside of wind deflector 11 and flow out under the guidance of wind deflector 11.

Similarly, when air-conditioning is run with heating mode, Fig. 7 and Fig. 8 is please referred to, along fourth direction d, needs air-flow from wind-guiding The downside of plate 11 blows out (blanket type outlet air), after wind deflector 11 is extend out to outside air outlet 21, drives wind deflector by the second motor 14 The one end of 11 rotations, wind deflector 11 cooperated with the lower side body 22 of air outlet 21 is rotated to the direction far from air outlet 21, is led The one end of aerofoil 11 cooperated with the upper side body 23 of air outlet 21 is rotated to the direction close to air outlet 21, at this time wind deflector 11 There is larger space between the lower side body 22 of air outlet 21, but between wind deflector 11 and the upper side body 23 of air outlet 21 still So there are gaps, and the two sides up and down of wind deflector 11 is caused to have air-flow outflow, are unfavorable for achieving the purpose that stable water conservancy diversion；Therefore it sets Set first motor 13, gear and rack gear 12, from first motor 13 drive wind deflector 11 in a second direction b to the upside of air outlet 21 Shell 23 is mobile, until wind deflector 11 is contacted with the upper side body 23 of air outlet 21；In this way, wind deflector 11 and air outlet 21 is upper Gap between side body 23 is obviously reduced, most air-flows from the lower side body 22 of wind deflector 11 and air outlet 21 it Between space outflow, convenient for forming blanket type outlet air.

Specifically, Fig. 7 and Fig. 8 shows the possible two states when air-conditioning is run with heating mode, along fourth direction The upper end of wind deflector 11 is contacted with the upper side body 23 of air outlet 21 in d, Fig. 7 and Fig. 8, also, the state compared to Fig. 7, The degree that has a down dip of wind deflector 11 is larger in Fig. 8, and the aperture of air outlet 21 is smaller in Fig. 8, and air-out direction has a down dip larger；It that is to say It says, wind deflector 11 is all different the wind-guiding direction of air-flow, the aperture of air outlet 21 under the two states of Fig. 7 and Fig. 8, but Fig. 7 And Fig. 8 two states downstream can be stablized from the downside of wind deflector 11 and flow out under the guidance of wind deflector 11.

Therefore, the air conditioner indoor unit of the utility model and air conditioner be not only able to achieve blanket type outlet air but also be able to achieve rain type Wind blows out most air-flows under the guidance of wind deflector 11 by direction initialization, goes out convenient for user to air conditioner indoor unit Wind direction carries out stable control.

Also, the aperture that the second motor 14 drives the rotation of wind deflector 11 to different angle to correspond to air outlet 21 is different, wind-guiding Plate 11 is also different to the water conservancy diversion direction of air-flow, the air conditioner indoor unit of the utility model, is in different opening in air outlet 21 and leads Aerofoil 11 is in the case of different water conservancy diversion directions, can by first motor 13 driving wind deflector 11 in a second direction b move to and Shell 2 contacts, and then makes the ipsilateral outflow of the slave wind deflector 11 of steady air current, and air-flow is under the same lateral plates guidance of wind deflector 11 It is flowed out along direction initialization, the air-out direction of air conditioner is stablized.

Finally it is emphasized that the above is only the preferred embodiment of the present invention, it is not limited to this reality With novel, for those skilled in the art, the utility model can have various change and change, all in the utility model Spirit and principle within, any modification, equivalent substitution, improvement and etc. done should be included in the protection model of the utility model Within enclosing.

Claims (10)

1. air deflection assemblies, including wind deflector；

It is characterized by:

The air deflection assemblies further include first driving device and the second driving device；

The first driving device drives the wind deflector mobile, the wind deflector side mobile relative to the first driving device To in a second direction；

Second driving device drives the first driving device rotation, relatively described second driving of the first driving device The axis direction of device rotation along first direction, prolong by the plate face of the first direction and the second direction along the wind deflector Direction is stretched, the first direction is vertical with the second direction.

2. air deflection assemblies according to claim 1, it is characterised in that:

The wind deflector is stripe board, and the first direction is along the length direction of the wind deflector, and the second direction is described in The width direction of wind deflector.

3. air deflection assemblies according to claim 1, it is characterised in that:

The first driving device includes first motor, gear and rack gear, and the gear is set in the shaft of the first motor, The rack gear is set on the wind deflector, and the gear is engaged with the rack gear.

4. air deflection assemblies according to claim 3, it is characterised in that:

The wind deflector is slidably mounted on the casing of the first motor.

5. air deflection assemblies according to claim 1, it is characterised in that:

The combination of the first driving device and second driving device is equipped with two groups, first driving device described in two groups and institute The combination for stating the second driving device is distributed along the first direction；

In the combination of first driving device and second driving device described in two groups, the axis of the first driving device rotation Line is overlapped.

6. air deflection assemblies according to claim 1, it is characterised in that:

Second driving device includes the second motor, and the first driving device is connect with the shaft of second motor.

7. air deflection assemblies according to any one of claims 1 to 6, it is characterised in that:

The air deflection assemblies further include push-off device, and the push-off device includes driving box and push rod, the second driving dress It sets and is fixed on the push rod, the driving box drives the push rod stretching motion.

8. air conditioner indoor unit, including shell, the shell is equipped with air outlet；

It is characterized by:

It further include such as air deflection assemblies as claimed in any one of claims 1 to 6, the wind deflector is located at the air outlet, described Second driving device is installed on the housing.

9. air conditioner indoor unit according to claim 8, it is characterised in that:

It is characterized by:

The air deflection assemblies further include push-off device, and the push-off device includes driving box and push rod, the second driving dress It sets and is fixed on the push rod；

The driving box is fixed with the shell, and the driving box drives the wind deflector to stretch out or be retracted to the air outlet.

10. air conditioner, it is characterised in that:

Including air conditioner indoor unit as claimed in claim 8 or 9.