CN108488919A - Air conditioner and its control method, device - Google Patents

Abstract

The invention discloses a kind of air conditioner and its control method, devices, air conditioner includes indoor unit, the blower fan module and the auxiliary thermal modules of electricity that indoor unit includes casing, is arranged in casing, casing is equipped with air outlet and air inlet, air inlet forms upper air inlet region and lower air inlet region, air outlet forms outlet air region and lower outlet air region, and method includes the following steps：When air conditioner opens heating mode operation, control blower fan module is opened, and is controlled the auxiliary thermal modules of electricity and worked；The inlet air temperature of the inlet air temperature and lower air inlet region in upper air inlet region is obtained, and temperature gap is obtained according to the inlet air temperature of the inlet air temperature in upper air inlet region and lower air inlet region；When the time that air conditioner opens heating mode operation reaching the first preset time, temperature gap is judged；If temperature gap is more than the first fiducial temperature, controls the auxiliary thermal modules of electricity and be stopped, so that indoor vertical temperature-difference reduces, to be effectively improved indoor thermal comfort.

Description

Air conditioner and its control method, device

Technical field

The present invention relates to air-conditioning technical field, more particularly to a kind of control method of air conditioner, a kind of control of air conditioner Device and a kind of air conditioner.

Background technology

With the development of science and technology and the increasingly improvement of people's living standard, requirement of the people to living environment gradually carry It is high.User is when opening the refrigeration or heat-production functions of air conditioner, it is therefore an objective to and so that indoor temperature is maintained in comfortable range, However when opening heating mode, since the proportion of thermal current is small, it is easy to rise, therefore hot gas is difficult to be delivered to ground, to Lead to the cold phenomenon of hot foot, influences to also increase the power consumption under heating mode while user's comfort.

In the related technology, hanging air conditioner is all made of cross flow fan, wherein for using the extension for erecting money list cross flow fan For wall register, indoor temperature layering is mainly solved by the rotating speed of the radian of the upper bottom leaf of increase or promotion wind turbine Problem.However, aforesaid way has the following disadvantages：The radian of bottom leaf can influence the appearance of complete machine in increase；Promote wind turbine Rotating speed can increase noise, and can improve the speed of air conditioner heat-production by promoting the rotating speed of wind turbine, but might not can be with The problem of improving indoor temperature layering.

Invention content

The present invention is directed at least solve one of the technical problems existing in the prior art.For this purpose, first mesh of the present invention Be propose a kind of control method of air conditioner, not only can effectively reduce indoor higher level and compared with the temperature between low degree Difference alleviates indoor Thermal stratification phenomenon, and so as to improve indoor thermal comfort, and rotating speed and increase without promoting wind turbine go out The appearance of the radian of wind pendulum leaf, the operating noise and air conditioner that effectively reduce air conditioner is unaffected.

Second object of the present invention is to propose a kind of non-transitorycomputer readable storage medium.

Third object of the present invention is to propose a kind of control device of air conditioner.

Fourth object of the present invention is to propose a kind of air conditioner.

The 5th purpose of the present invention is to propose another air conditioner.

To achieve the above object, first aspect present invention embodiment proposes a kind of control method of air conditioner, the sky It includes indoor unit to adjust device, and the indoor unit includes casing, the blower fan module that is arranged in casing and the auxiliary thermal modules of electricity, the casing It is equipped with air outlet extended in the vertical direction and air inlet, the air inlet forms upper air inlet region and lower air inlet region, The air outlet forms outlet air region and lower outlet air region, the described method comprises the following steps：It opens and makes when the air conditioner When heat pattern is run, controls the blower fan module and open, and control the auxiliary thermal modules of electricity and work；Obtain the upper air inlet The inlet air temperature of the inlet air temperature in region and the lower air inlet region, and according to the inlet air temperature in the upper air inlet region and described The inlet air temperature in lower air inlet region obtains temperature gap；Reach first in advance when the time that the air conditioner opens heating mode operation If when the time, judging the temperature gap；If the temperature gap is more than the first fiducial temperature, the electricity is controlled Auxiliary thermal modules are stopped, so that indoor vertical temperature-difference reduces.

The control method of air conditioner according to the ... of the embodiment of the present invention controls wind when air conditioner opens heating mode operation Machine module is opened, and is controlled the auxiliary thermal modules of electricity and worked, and obtains inlet air temperature and the lower air inlet region in upper air inlet region Inlet air temperature, and according to the inlet air temperature in upper air inlet region and it is lower air inlet region inlet air temperature obtain temperature gap, and When air conditioner opens the time that heating mode is run and reaches the first preset time, temperature gap is judged, and in temperature When difference is more than the first fiducial temperature, the auxiliary thermal modules of control electricity are stopped, so that indoor vertical temperature-difference reduces.As a result, not only Indoor higher level can effectively be reduced and compared with the temperature difference between low degree, alleviate indoor Thermal stratification phenomenon, so as to improve room Interior thermal comfort, and rotating speed and increase without promoting wind turbine go out the radian of wind pendulum leaf, effectively reduce the work of air conditioner The appearance for making noise and air conditioner is unaffected.

In addition, the control method of air conditioner according to the above embodiment of the present invention can also have following additional technology special Sign：

According to one embodiment of present invention, when the auxiliary thermal modules of electricity include the first electric auxiliary hot cell and the second auxiliary heat of electricity When unit, the first electric auxiliary hot cell corresponds to the upper outlet air region setting, the second electricity auxiliary hot cell correspond to it is described under Outlet air region is arranged, wherein when the temperature gap is more than the first fiducial temperature, the described first electric auxiliary hot cell of control stops Work, and the described second electric auxiliary hot cell maintenance working condition is controlled, so that the leaving air temp in the upper outlet air region is small Leaving air temp in the lower outlet air region.

According to another embodiment of the invention, when the temperature gap is more than the first fiducial temperature, control described the The power that the power of one electric auxiliary hot cell reduced and/or controlled the described second electric auxiliary hot cell increases, so that the upper wind outlet area The leaving air temp in domain is less than the leaving air temp in the lower outlet air region.

According to one embodiment of present invention, when the temperature gap is less than or equal to the second fiducial temperature, described in control The auxiliary thermal modules of electricity keep current working status, wherein second fiducial temperature is less than first fiducial temperature.

To achieve the above object, second aspect of the present invention embodiment proposes a kind of non-transitory computer-readable storage medium Matter is stored thereon with computer program, which realizes the control method of above-mentioned air conditioner when being executed by processor.

Non-transitorycomputer readable storage medium according to the ... of the embodiment of the present invention, by the control for executing above-mentioned air conditioner Method processed not only can effectively reduce indoor higher level and compared with the temperature difference between low degree, alleviate indoor Thermal stratification phenomenon, So as to improve indoor thermal comfort, and rotating speed and increase without promoting wind turbine go out the radian of wind pendulum leaf, effectively reduce The operating noise of the air conditioner and appearance of air conditioner is unaffected.

To achieve the above object, third aspect present invention embodiment proposes a kind of control device of air conditioner, the sky It includes indoor unit to adjust device, and the indoor unit includes casing, the blower fan module that is arranged in casing and the auxiliary thermal modules of electricity, the casing It is equipped with air outlet extended in the vertical direction and air inlet, the air inlet forms upper air inlet region and lower air inlet region, The air outlet forms outlet air region and lower outlet air region, and described device includes：Control module, for being opened in the air conditioner When opening heating mode operation, controls the blower fan module and open, and control the auxiliary thermal modules of electricity and work；Temperature obtains mould Block, the inlet air temperature of inlet air temperature and the lower air inlet region for obtaining the upper air inlet region, and according to described enterprising The inlet air temperature in wind region and the inlet air temperature in the lower air inlet region obtain temperature gap；The control module is additionally operable to, When the time that the air conditioner opens heating mode operation reaches the first preset time, the temperature gap is judged, and The auxiliary thermal modules of electricity are controlled when the temperature gap is more than the first fiducial temperature to be stopped, so that indoor vertical temperature-difference drop It is low.

The control device of air conditioner according to the ... of the embodiment of the present invention passes through control when air conditioner opens heating mode operation Molding block controls blower fan module and opens, and controls the auxiliary thermal modules of electricity and work, and is obtained by temperature acquisition module enterprising The inlet air temperature of the inlet air temperature in wind region and lower air inlet region, and according to the inlet air temperature in upper air inlet region and lower air inlet region Inlet air temperature obtain temperature gap, and by control module air conditioner open heating mode operation time reach first When preset time, temperature gap is judged, and the auxiliary thermal modules of control electricity are stopped when temperature gap is more than the first fiducial temperature It only works, so that indoor vertical temperature-difference reduces.Indoor higher level not only can be effectively reduced as a result, and compared between low degree The temperature difference alleviates indoor Thermal stratification phenomenon, so as to improve indoor thermal comfort, and rotating speed and increase without promoting wind turbine The appearance of the radian for going out wind pendulum leaf, the operating noise and air conditioner that effectively reduce air conditioner is unaffected.

In addition, the control device of air conditioner according to the above embodiment of the present invention can also have following additional technology special Sign：

According to one embodiment of present invention, when the auxiliary thermal modules of electricity include the first electric auxiliary hot cell and the second auxiliary heat of electricity When unit, the first electric auxiliary hot cell corresponds to the upper outlet air region setting, the second electricity auxiliary hot cell correspond to it is described under Outlet air region is arranged, wherein the control module is additionally operable to, and when the temperature gap is more than the first fiducial temperature, controls institute It states the first electric auxiliary hot cell to be stopped, and controls the described second electric auxiliary hot cell maintenance working condition, so that on described The leaving air temp in outlet air region is less than the leaving air temp in the lower outlet air region.

According to one embodiment of present invention, the control module is additionally operable to, and is preset when the temperature gap is more than first When the temperature difference, the power of the described first electric auxiliary hot cell of control reduces and/or controls the power raising of the described second electric auxiliary hot cell, So that the leaving air temp in the upper outlet air region is less than the leaving air temp in the lower outlet air region.

According to one embodiment of present invention, the control module is additionally operable to, when the temperature gap is less than or equal to second It when fiducial temperature, controls the auxiliary thermal modules of the electricity and keeps current working status, wherein second fiducial temperature is less than described the One fiducial temperature.

According to one embodiment of present invention, the indoor unit further includes air treatment module, the air treatment module Including：Shell, the shell are located at the lower section of the casing, and the shell is equipped with air intake and air outlet slit；At air Wind turbine is managed, the air-treatment wind turbine is located in the shell；Humidifying element, the humidifying element are located in the shell；Water tank, institute Water tank is stated to be located in the shell and for supplying water to the humidifying element.

According to one embodiment of present invention, the air treatment module further includes filtering screen, the purification filtering Net is located at the upstream in the shell and positioned at the humidifying element.

According to one embodiment of present invention, the air intake includes indoor wind entrance and fresh air inlet.

According to one embodiment of present invention, the humidifying element is located at the air side of the air-treatment wind turbine.

To achieve the above object, fourth aspect present invention embodiment proposes a kind of air conditioner comprising above-mentioned air-conditioning The control device of device.

Air conditioner according to the ... of the embodiment of the present invention not only can be reduced effectively by the control device of above-mentioned air conditioner Indoor higher level and compared with the temperature difference between low degree, alleviates indoor Thermal stratification phenomenon, so as to improve indoor thermal comfort, And rotating speed and increase without promoting wind turbine go out the radian of wind pendulum leaf, effectively reduce the operating noise and air conditioner of air conditioner Appearance it is unaffected.

To achieve the above object, fifth aspect present invention implementation proposes a kind of air conditioner, and the air conditioner includes interior Machine, the indoor unit includes casing, the blower fan module that is arranged in casing and the auxiliary thermal modules of electricity, the casing are equipped with upper and lower The air outlet and air inlet just upwardly extended, the air inlet form upper air inlet region and lower air inlet region, the outlet air degree of lip-rounding At upper outlet air region and lower outlet air region, the air conditioner further includes memory, processor and is stored on the memory simultaneously The control program for the air conditioner that can be run on the processor, wherein real when the control program is executed by the processor The control method for the air conditioner that existing first aspect present invention embodiment proposes.

Air conditioner according to the ... of the embodiment of the present invention not only can be effective by executing the control method of above-mentioned air conditioner It reduces indoor higher level and compared with the temperature difference between low degree, alleviates indoor Thermal stratification phenomenon, relax so as to improve indoor heat Adaptive, and rotating speed and increase without promoting wind turbine go out the radian of wind pendulum leaf, effectively reduce the operating noise of air conditioner and The appearance of air conditioner is unaffected.

The additional aspect and advantage of the present invention will be set forth in part in the description, and will partly become from the following description Obviously, or practice through the invention is recognized.

Description of the drawings

The above-mentioned and/or additional aspect and advantage of the present invention will become in the description from combination following accompanying drawings to embodiment Obviously and it is readily appreciated that, wherein：

Fig. 1 is the structural schematic diagram of air conditioner indoor unit according to an embodiment of the invention；

Fig. 2 is the structural schematic diagram of air conditioner indoor unit in accordance with another embodiment of the present invention；

Fig. 3 is the structural representation of the first wind turbine and the second wind turbine in air conditioner indoor unit according to an embodiment of the invention Figure；

Fig. 4 is the structural schematic diagram of the auxiliary thermal modules of electricity in air conditioner indoor unit according to an embodiment of the invention；

Fig. 5 is the structural schematic diagram of air treatment module in air conditioner indoor unit according to an embodiment of the invention；

Fig. 6 is the flow chart of the control method of air conditioner according to the ... of the embodiment of the present invention；

Fig. 7 is the block diagram of the control device of air conditioner according to the ... of the embodiment of the present invention.

Specific implementation mode

The embodiment of the present invention is described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning to end Same or similar label indicates same or similar element or element with the same or similar functions.Below with reference to attached The embodiment of figure description is exemplary, and is only used for explaining the present invention, and is not considered as limiting the invention.

In the description of the present invention, it is to be understood that, term "center", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom" "inner", "outside", " up time The orientation or positional relationship of the instructions such as needle ", " counterclockwise ", " axial direction ", " radial direction ", " circumferential direction " be orientation based on ... shown in the drawings or Position relationship is merely for convenience of description of the present invention and simplification of the description, and does not indicate or imply the indicated device or element must There must be specific orientation, with specific azimuth configuration and operation, therefore be not considered as limiting the invention.In addition, limit There is the feature of " first ", " second " to can explicitly or implicitly include one or more this feature surely.The present invention's In description, unless otherwise indicated, the meaning of " plurality " is two or more.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " installation ", " phase Even ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected；It can Can also be electrical connection to be mechanical connection；It can be directly connected, can also indirectly connected through an intermediary, Ke Yishi Connection inside two elements.For the ordinary skill in the art, above-mentioned term can be understood at this with concrete condition Concrete meaning in invention.

Below with reference to the accompanying drawings come the control method of the air conditioner proposed according to embodiments of the present invention is described, non-transitory calculates The control device and air conditioner of machine readable storage medium storing program for executing, air conditioner.

The concrete structure of air conditioner according to the ... of the embodiment of the present invention is described referring initially to Fig. 1-Fig. 5 below.

As Figure 1-Figure 4, air conditioner according to the ... of the embodiment of the present invention includes indoor unit 1000, and indoor unit 1000 includes machine Shell 100, the blower fan module 400 being arranged in casing 100 and the auxiliary thermal modules 600 of electricity, casing 100 is equipped with to be prolonged in the up-down direction The air inlet 110 and air outlet 120 stretched, air inlet 110 form upper air inlet region A1 and lower air inlet region A2,120 shape of air outlet At upper outlet air region B1 and lower outlet air region B2.

Specifically, it as shown in Figure 1, unistage type cross flow fan can be used in blower fan module 400, by motor 410 and can specifically pass through It flows wind wheel 420 to constitute, drives tubular wine wheel 420 to rotate by controlling motor 410, to blow to outside.

Further, as shown in Figure 1, indoor unit according to the ... of the embodiment of the present invention 1000 further include it is multiple go out wind pendulum leaf group 200, multiple outlet air drive components (being not specifically illustrated), multiple air inlet adjustment components 700 and multiple air inlet drive components be not (specific Display), it is multiple go out wind pendulum leaf group 200 be arranged at air outlet 120, and it is multiple go out wind pendulum leaf group 200 in above-below direction sequence arrange Cloth, it is multiple go out wind pendulum leaf group 200 can be two, respectively on go out wind pendulum leaf group 210 and under go out wind pendulum leaf group 220, by upper Go out wind pendulum leaf group 210 and under go out wind pendulum leaf group 220 and divide air outlet 120 for upper outlet air region B1 and lower outlet air region B2.It is multiple Air inlet adjustment component 700 is arranged at air inlet 110, and multiple air inlet adjustment components 700 in above-below direction arrange by sequence, multiple Air inlet adjustment component 700 can be two, respectively upper air inlet adjusting part 710 and lower air inlet adjustment component 720, by enterprising Wind adjusting part 710 and lower air inlet adjustment component 720 divide air inlet 110 for upper air inlet region A1 and lower air inlet region A2.It needs It is noted that pendulum leaf group and air inlet adjustment component number can also be 3,4 or more, here only shown Example property explanation, specific number are not limited.

As shown in Figure 1, each go out wind pendulum leaf group include it is multiple in above-below direction it is spaced go out wind pendulum leaf, for example, on Go out wind pendulum leaf group 210 include 5 in above-below direction it is spaced go out wind pendulum leaf 211, under go out wind pendulum leaf group 220 include 5 Upper and lower directions it is spaced go out wind pendulum leaf 221, that is, above going out wind pendulum leaf group 210, to go out the structure of wind pendulum leaf group 220 under identical, And include 5 in above-below direction it is spaced go out wind pendulum leaf.

In some embodiments, above go out wind pendulum leaf group 210 and under go out the structure of wind pendulum leaf group 220 can be different, for example, on Going out the number for going out wind pendulum leaf 211 of wind pendulum leaf group 210, to go out the number for going out wind pendulum leaf 221 of wind pendulum leaf group 220 under different；Or Person, the size for going out wind pendulum leaf 211 for above going out wind pendulum leaf group 210 go out the size for going out wind pendulum leaf 221 of wind pendulum leaf group 220 not under Together；The shape for going out wind pendulum leaf 211 for going out wind pendulum leaf group 210 on alternatively, goes out the shape for going out wind pendulum leaf 221 of wind pendulum leaf group 220 under Shape is different.Wherein, the shape for going out wind pendulum leaf can have any shape, for example, ligulate, it is rectangular, round, oval or it is other not Regular shape etc..Due to it is multiple go out wind pendulum leaf group 200 mainly realize pendulum wind action, so concrete structure is not limited.

Multiple outlet air drive components respectively with it is multiple go out wind pendulum leaf group 200 correspond coordinate, each outlet air drive component For drive go out accordingly in wind pendulum leaf group it is multiple go out wind pendulum leaf rotation, for example, each outlet air drive component can drive accordingly Go out in wind pendulum leaf group it is multiple go out wind pendulum leaf rotated between 0~180 degree, to adjust air-out direction and leaving air temp.

In some embodiments, each air inlet adjustment component may include multiple air inlet pendulum spaced in above-below direction Leaf, concrete structure is similar to wind pendulum leaf group is gone out, and is just no longer described in detail here.And in some other embodiments, each air inlet adjustment Component can either enter the wind the multiple air inlet drive components of switch gate for air-inlet grille and be switched respectively with multiple air-inlet grilles or air inlet Door corresponds cooperation, and each drive component of entering the wind is for driving corresponding air-inlet grille or air inlet switch gate rotation, for example, often A air inlet drive component can drive corresponding air-inlet grille or air inlet switch gate to be rotated between 0~180 degree, to adjust air inlet wind Amount.

As shown in Figure 1, indoor unit 1000 according to the ... of the embodiment of the present invention further includes indoor heat exchanger 300, indoor heat exchanger 300 are located in casing 100, are exchanged heat by indoor heat exchanger 300, to realize indoor refrigeration or heating.

In some other embodiments, two-part or multisection type can be used in blower fan module 400, as shown in Fig. 2-Fig. 3, wind Machine module 400 may include the first wind turbine 411 and the second wind turbine 412, and the first wind turbine 411 and the second wind turbine 412 are cross flow fan, First wind turbine 411 includes first motor 4111 and upper tubular wine wheel 4112, and the second wind turbine 412 includes that the second motor 4121 is passed through under Flow wind wheel 4122.Correspondingly, air inlet 110 includes upper and lower directions extension and mutually independent upper air inlet 111 and lower air inlet 112, air outlet 120 includes upper and lower directions extension and mutually independent upper air outlet 121 and lower air outlet 122, wherein upper air inlet Mouth 111 forms upper air inlet region A1, and lower air inlet 112 forms lower air inlet region A2, the upper outlet air region of the formation of upper air outlet 121 B1, lower air outlet 122 form lower outlet air region B2.

Further, as shown in Fig. 2, indoor unit according to the ... of the embodiment of the present invention 1000 further includes the first indoor heat exchanger 310 and second indoor heat exchanger 320, the first indoor heat exchanger 310 correspond to upper air inlet 111 and be arranged, the second indoor heat exchanger 320 Corresponding lower air inlet 112 is arranged, and upper tubular wine wheel 4112 corresponds to upper air outlet 121 and is arranged, and lower tubular wine wheel 4122 goes out under corresponding to Air port 122 is arranged, and drives upper tubular wine wheel 4112 to rotate by controlling first motor 4111, will enter from upper air inlet 111 First indoor heat exchanger 310, and from the wind of the first indoor heat exchanger 310 heat exchange outflow, sent out from upper air outlet 121；Pass through control Making the second motor 4121 drives lower tubular wine wheel 4122 to rotate, and will enter the second indoor heat exchanger 320 from lower air inlet 112, And it from the wind of the second indoor heat exchanger 320 heat exchange outflow, is sent out from lower air outlet 122.

That is, unistage type tubular wine wheel is divided into two sections formula, and every section of tubular wine wheel is by corresponding motor It is driven, and every section of tubular wine wheel is correspondingly provided with air inlet and outlet and indoor heat exchanger, it is corresponding to be driven by motor Tubular wine wheel gets in heat exchanger from different air inlets, and is sent out from different air outlets, to realize segmented up and down Air-supply.Wherein, the structure per segmentation tubular wine wheel can be identical as unistage type tubular wine wheel shown in FIG. 1, specifically here just no longer It is described in detail.

In some embodiments, the blade of upper tubular wine wheel 4112 and lower tubular wine wheel 4122 can be straight-tooth, can also It is helical teeth, upper tubular wine wheel 4112 and lower tubular wine wheel 4122 can be single, or multiple rows of.Due to upper tubular wine wheel 4112 and lower tubular wine wheel 4122 be realize send wind action, so concrete structure is not limited.

As shown in Fig. 2, first motor 4111 and the second motor 4121 can close on setting, it is possible thereby to effectively reduce electric wire The wiring difficulty on road, and in some other embodiments, first motor 4111 and the second motor 4121 can be arranged distant from, it is specific this In be not limited.First motor 4111 and the second motor 4121 can be direct current generator or AC induction motor.

In some embodiments, electric auxiliary thermal modules 600 may include one or more electric auxiliary hot cell, as shown in figure 4, electric Auxiliary thermal modules 600 may include 610 and second electric auxiliary hot cell 620 of the first electric auxiliary hot cell, the first electric auxiliary hot cell 610 and second Electric auxiliary hot cell 620 corresponds to different air outlet settings, to be heated respectively to the wind come out from different indoor heat exchangers, It is sent out again from different air outlets.

As shown in Fig. 1-Fig. 2 and Fig. 5, indoor unit 1000 according to the ... of the embodiment of the present invention further includes air treatment module 500, Air treatment module 500 includes shell 510, air-treatment wind turbine 520 and air-treatment part 530, and shell 510 is located at casing 100 Lower section, shell 510 is equipped with air outlet slit 511 and air intake, and air intake may include that indoor wind entrance 512 and fresh air enter Mouth 513.Air-treatment wind turbine 520 and air-treatment part 530 are respectively provided in shell 510, and air-treatment wind turbine 520 includes motor 521 and centrifugal wind wheel 522, drive centrifugal wind wheel 522 to operate by controlling motor 521, will from indoor wind entrance 512 and/or The wind that fresh air inlet 513 enters introduces air-treatment part 530, and is sent out from air outlet slit 511.Air-treatment part 530 includes water Case 531 and humidifying element 532, water tank 531 are located at the top of humidifying element 532 to supply water to humidifying element 532, are incited somebody to action by humidifying element 532 Water in water tank 531 is oriented to air.

In some embodiments, air-treatment part 530 further includes sink (not specifically illustrated), and water tank 531 is located on sink To supply water into sink, humidifying element 532 is located in sink so that the water in sink is oriented to air.Humidifying element 532 can be to be located at Wet film in sink, wet film can absorb the water in sink so that when thering is air-flow to flow through wet film, air-flow and the hydrone on wet film It comes into full contact with, under the washing effect of wet film, fine particle such as dust for including in air-flow etc. is removed, so that air-flow It flows through more clean after wet film.Therefore, purifying gas flow enters air-treatment by indoor wind entrance 512 and/or fresh air inlet 513 Behind 500 inside of module, under the washing effect of wet film, the particulate matter in purifying gas flow is removed so that is flowed from air outlet slit 511 The air-flow gone out is very clean, improves user's usage comfort.

It should be noted that humidifying element 532, which is not limited to wet film, can also be other structures, for example, the present invention its In his embodiment, humidifying element 532 can also fetch water wheel, and the water in sink has been got rid of, washing can be equally played to purifying gas flow Effect.

In some embodiments, as shown in Fig. 1-Fig. 2, Fig. 5, air-treatment part 530 further includes purification strainer 533, in sky On flow of air direction, purification strainer 533 is located at the upstream of humidifying element 532.It is understood that when air is dirtier, humidifying element 532 washing ability is limited, it is likely that it is poor clean-up effect occur, the problem of reducing user's usage comfort.Therefore, it is humidifying 532 upstream of part is equipped with purification strainer 533, and purification strainer 533 first can once filter purifying gas flow, so that through adding Air-flow after wet part 532 is washed is cleaner.Certainly, what needs to be explained here is that, purification strainer 533 only plays purification air Effect does not limit the shape, material, the detergent power that purify strainer 533 herein, and user can choose according to their needs Any purification strainer 533.

In some embodiments, as shown in Fig. 1-Fig. 2, Fig. 5, on air-flow direction, humidifying element 532 is located at air Manage wind turbine 520 air side, by air side be arranged humidifying element 532 can ensure blowout air it is the cleanest, prevent by To the secondary pollution of pipeline.It is understood that since there are washing effects to air-flow for humidifying element 532, then to a certain degree Upper humidifying element 532 can there are certain interference effects to air-flow, so can also air-treatment wind turbine be placed on humidifying element 532 520 air side, to reduce influence of the humidifying element 532 to 500 air output of air treatment module, and specifically can using which kind of mode It is selected according to actual conditions.

In some embodiments, as shown in Fig. 1-Fig. 2, Fig. 5, indoor wind entrance 512 is located on the bottom wall of shell 510, shell It is equipped with rotatable overturning switch gate (not specifically illustrated) in body 510, humidifying element 532 is flowed to on or off air.It can be with Understand, the setting of switch gate can make the indoor unit 1000 of the embodiment of the present invention just carry out sky when user needs Gas purifies, specifically, when user feels that indoor air is dirtier, can be remotely controlled opening overturning switch gate and start at air Manage wind turbine 520 so that air flows to humidifying element 532, so that air-conditining 1000 starts to purify room air.Together Reason, when user feel it is indoor no longer need purification when, only close overturning switch gate and stop air-treatment wind turbine 520. Electric energy and water resource have been saved as a result, so that the air-conditining 1000 of the embodiment of the present invention is more environmentally protective.

Advantageously, the bottom wall of shell 510 is formed as latticed, and between indoor wind entrance 512 and air outlet slit 511 Aperture on Partial Mesh and not through the bottom wall of shell 510.As a result, preferably by indoor wind entrance 512 and air outlet slit 511 Separate, avoids due to indoor wind entrance 512 and be connected to air outlet slit 511 so that the phenomenon that air turbulence occurs.Here Additional description, in other embodiments of the invention, indoor wind entrance 512 and air outlet slit 511 can be respectively provided at shell In the two side walls of body 510, for example, in the embodiment having, indoor wind entrance 512 is located on the rear wall of shell 510, and air Outlet 511 is located on the bottom wall of shell 510.Certainly there are other distribution modes, this will not be repeated here.

In some embodiments, it is equipped with air inlet 110 in the left and right sidewall of casing 100.Thus, it is possible to increase air-conditioning extension The heat exchange intake of machine 1000 so that the refrigeration or heating efficiency of air-conditining 1000 get a promotion, and make to improve user Use comfort level.Specifically, the left and right sidewall of casing 100 is respectively formed as microwell plate to limit air inlet 110.Thus, it is possible to So that the wind for getting in heat exchanger 120 through air inlet 110 is more soft so that the heat transfer effect of air-flow is more preferable, to improve User's usage comfort of air conditioner.In addition, the left and right sidewall of casing 100 is respectively formed as microwell plate to limit air inlet 110, which are also prevented from foreign matter, gets in machine 1000, reduces the failure rate of indoor unit 1000.

Certainly, herein it should be noted that air inlet 110 is not limited in the left and right sidewall for being located at casing 100, air inlet Mouthfuls 110 can also be located at any one of front side wall, rear wall and upper side wall of casing 100 or it is multiple on.

It should be noted that in an embodiment of the present invention, between casing 100 and air treatment module 500 can by every Plate, support member etc. are kept apart, that is, so that the heat exchange air-flow and purifying gas flow of indoor unit 1000 are separated, at this point, exchanging air Stream gets in heat exchanger 300 by the air inlet 110 on casing 100, is left from air outlet 120 after heat exchange, to real Show the function of adjusting indoor temperature, and gas flow to be purified is by the indoor wind entrance 512 and/or fresh air inlet on shell 510 513 enter air treatment module 500, and air treatment module is left from air outlet slit 511 after the processing of air-treatment part 530 500, to realize the function of purifying the air of a room.

From upper narration it is found that the heat exchange air-flow and gas flow to be purified of the indoor unit 1000 of the embodiment of the present invention enter from different Mouth gets in machine 1000, and leaves indoor unit 1000 from different outlets, and two strands of air-flows are independent of each other, and can either ensure interior The heat exchange property of machine 1000 ensures heat exchange air quantity, and realizes indoor air purification.At the same time, due to also being set on shell 510 There is fresh air inlet 513, hereby it is achieved that the indoor unit 1000 of the embodiment of the present invention can also draw outdoor air after purification Enter interior so that introduce outdoor air in the case of air more muddiness indoors, improve the usage comfort of user.

It should be noted that the air conditioner in the embodiment of the present invention can be perpendicular money through-flow separated wall hanging type air conditioner or fission Floor type air-conditioner.

Fig. 6 is the flow chart of the control method of air conditioner according to the ... of the embodiment of the present invention.As shown in fig. 6, the present invention is implemented The control method of the air conditioner of example includes the following steps：

S1, when air conditioner opens heating mode operation, control blower fan module is opened, and is controlled the auxiliary thermal modules of electricity and carried out work Make.

Specifically, when air conditioner opens heating mode operation, control blower fan module is opened, and control compressor high frequency Operation ensures that air conditioner exports maximum ability and plays the role of being rapidly heated, simultaneously to make indoor temperature rapid increase The controllable auxiliary thermal modules of electricity are worked with the first predetermined power, to heat air-flow, to further improve in indoor temperature The speed risen.

For example, by taking blower fan module is two-part cross flow fan as an example.When air conditioner opens heating mode operation, control The first wind turbine and the second wind turbine synchronous averaging are made, that is, the rotating speed for controlling the first wind turbine and the second wind turbine is identical, to ensure upper outlet air The temperature in region and the temperature in lower outlet air region are essentially identical, and control the first electric auxiliary hot cell and the second electric auxiliary hot cell with the The air-flow that one predetermined power respectively releases upper outlet air region and lower outlet air region is heated, and (power of electric auxiliary hot cell is got over The leaving air temp of height, corresponding outlet air region is higher), while the operation of compressor high frequency is controlled, ensure that air conditioner output is maximum Ability play the role of being rapidly heated to make indoor temperature rapid increase.

That is, when air conditioner opens heating mode operation, the first wind turbine and the second wind in blower fan module are controlled Machine controls the auxiliary hot-die of electricity the first auxiliary hot cell in the block and the second auxiliary hot cell is default with first with identical rotation speed operation Power works, while controlling the operation of compressor high frequency, so that indoor, temperature rapid increase.

S2 obtains the inlet air temperature of the inlet air temperature and lower air inlet region in upper air inlet region, and according to upper air inlet region Inlet air temperature and the inlet air temperature in lower air inlet region obtain temperature gap.

Specifically, inlet air temperature probe (or temperature sensing can be respectively set in upper air inlet region and lower air inlet region Device), to obtain the inlet air temperature t2 of the inlet air temperature t1 and lower air inlet region in upper air inlet region respectively by inlet air temperature probe, And temperature gap t1-t2 is obtained according to the inlet air temperature t2 of the inlet air temperature t1 in upper air inlet region and lower air inlet region, i.e., it is indoor Higher level and indoor relatively low Level temperature difference are that t1-t2 (since the proportion of thermal current is small, is easy to rise, therefore upper air inlet region Temperature be more than or equal to it is lower air inlet region temperature, i.e. t1 >=t2).

S3 sentences temperature gap when the time that air conditioner opens heating mode operation reaching the first preset time It is disconnected.Wherein, the first preset time can be demarcated according to actual conditions.

It is understood that the difference of the inlet air temperature in upper air inlet region and the inlet air temperature in lower air inlet region is bigger, room The temperature of interior higher level and interior are bigger compared with the difference of the temperature of low degree, i.e., indoor vertical temperature-difference is bigger.Therefore, when When air conditioner opens heating mode operation, be rapidly heated to indoor temperature, and after continuing the first preset time, can into The size of the inlet air temperature difference in wind region and lower air inlet region is judged, to judge temperature and the interior of indoor higher level Compared with the size of the difference of the temperature of low degree, that is, judge the size of indoor vertical temperature-difference.

S4 controls the auxiliary thermal modules of electricity and is stopped if temperature gap is more than the first fiducial temperature, so that indoor vertical The temperature difference reduces.

According to one embodiment of present invention, when the auxiliary thermal modules of electricity include the first electric auxiliary hot cell and the second electric auxiliary hot cell When, the first electric auxiliary hot cell corresponds to upper outlet air region setting, and the second electric auxiliary hot cell corresponds to the setting of lower outlet air region, wherein when When temperature gap is more than the first fiducial temperature, the electric auxiliary hot cell of control first is stopped, and controls the second electric auxiliary hot cell and protect The state of working on is held, so that the leaving air temp in upper outlet air region is less than the leaving air temp in lower outlet air region.

Specifically, when air conditioner is run with heating mode, since the proportion of thermal current is smaller, it is easy to rise, therefore, The hot gas that air outlet is sent out is difficult to be delivered to ground, and to keep indoor temperature field uneven in vertical direction, it is comfortable to influence user The power consumption under air conditioner heat-production pattern is also increased while degree experience.In the related technology, pass through the arc of the upper bottom leaf of increasing Degree increases the rotating speed of wind turbine to solve the problems, such as thermal stratification, however, aforesaid way has the following disadvantages：The bottom in increase The radian of leaf can influence the appearance of complete machine；Noise can be increased by too greatly promoting the rotating speed of wind turbine, and by promoting turning for wind turbine Speed can improve the speed of air conditioner heat-production, but might not can improve the problem of indoor temperature is layered.

Therefore, in an embodiment of the present invention, when the auxiliary thermal modules of electricity include that (the auxiliary heat of the first electricity is single for two electric auxiliary hot cells Member and the second electric auxiliary hot cell) when, when air conditioner opens heating mode operation, blower fan module unlatching can be first controlled, and control First electric auxiliary hot cell and the second electric auxiliary hot cell are worked with identical power, while controlling the operation of compressor high frequency, with quick Indoor temperature is increased, after the first preset time, judges the inlet air temperature difference in upper air inlet region and lower air inlet region.When enterprising When the inlet air temperature difference in wind region and lower air inlet region is more than the first predetermined threshold value (such as t1-t2 ＞ 4 DEG C when), illustrate to work as room Interior Thermal stratification is apparent, and the temperature of indoor higher level and interior are larger compared with the temperature difference of low degree, at this point, controllable first Electric auxiliary hot cell is stopped, while controlling the second electric auxiliary hot cell maintenance working condition and (current power being kept to continue work Make), to ensure that the leaving air temp in upper outlet air region reduces, the leaving air temp in lower outlet air region is constant, so that indoor higher Face temperature reduces, and relatively low face temperature is constant, so that indoor vertical temperature-difference reduces.Thereby, it is possible to effectively alleviate sky When adjusting device heating operation in room the phenomenon that Thermal stratification, to improve the thermal comfort in room, while avoiding because increasing wind turbine Rotating speed and the situation that causes noise larger, and the radian without increasing out wind pendulum leaf, to effectively prevent air conditioner Appearance is affected.

According to another embodiment of the invention, when temperature gap is more than the first fiducial temperature, the auxiliary heat of the first electricity of control The power of unit reduces and/or the power of the electric auxiliary hot cell of control second increases, so that the leaving air temp in upper outlet air region is less than The leaving air temp in lower outlet air region.

Specifically, when the auxiliary thermal modules of electricity include two electric auxiliary hot cells, i.e., the first electric auxiliary hot cell and the second auxiliary heat of electricity When unit, when air conditioner opens heating mode operation, can first control blower fan module unlatching, and control the first electric auxiliary hot cell and Second electric auxiliary hot cell work with identical power, while being controlled compressor high frequency and being run, quickly to increase indoor temperature, the After one preset time, except through aforesaid way, that is, controls the first electric auxiliary hot cell and be stopped, and it is single to control the auxiliary heat of the second electricity Member keeps current power to work on, and to reduce outside indoor vertical temperature-difference, can also control the power drop of the first electric auxiliary hot cell It is low, while controlling the second electric auxiliary hot cell and current power is kept to work on, to ensure that the leaving air temp in upper outlet air region reduces, The leaving air temp in lower outlet air region is constant, so that indoor higher level temperature reduces, relatively low face temperature is constant, and then makes Obtaining indoor vertical temperature-difference reduces；Alternatively, the power that can control the second electric auxiliary hot cell increases, while it is single to control the auxiliary heat of the first electricity Member keeps current power to work on, and to ensure that the leaving air temp in lower outlet air region increases, the leaving air temp in upper outlet air region is not Become, so that indoor relatively low face temperature increases, higher level is temperature-resistant, so that indoor vertical temperature-difference reduces；Or Person, can control the power of the first electric auxiliary hot cell reduces, while the power for controlling the first electric auxiliary hot cell increases, in guarantee The leaving air temp in outlet air region reduces, and the leaving air temp in lower outlet air region increases, so that indoor higher level temperature reduces, Relatively low face temperature increases, so that indoor vertical temperature-difference reduces.

That is, when temperature gap is more than the first fiducial temperature, in addition to the electric auxiliary hot cell of control first is stopped, And the second electric auxiliary hot cell maintenance working condition is controlled, it, can also be by auxiliary to the first electricity to reduce outside indoor vertical temperature-difference Hot cell and the power of the second auxiliary unit carry out corresponding control to reduce indoor vertical temperature-difference.Wherein, while first is adjusted The power of electric auxiliary hot cell and the second electric auxiliary hot cell, that is, controlling the power of the first electric auxiliary hot cell reduces, while controlling second The power of electric auxiliary hot cell increases, can be more rapidly for the above-mentioned power for only adjusting an electric auxiliary hot cell Indoor vertical temperature-difference is reduced, effect is more preferable.

It should be noted that the time for opening heating mode operation in air conditioner reaches the first preset time, and judge temperature When spending difference more than the first fiducial temperature, if the auxiliary thermal modules of electricity only include an electric auxiliary hot cell, it can control electric auxiliary heat single Member is stopped (or power reduction), so that air outlet upper-lower section leaving air temp reduces, at this time due to the proportion of thermal current It is smaller, it is easy to rise, therefore the speed that indoor higher level temperature reduces, the speed that relatively low face temperature reduces is slower, So that indoor vertical temperature-difference reduces.

Further, when temperature gap is less than or equal to the second fiducial temperature, the auxiliary thermal modules of control electricity keep work at present State, wherein the second fiducial temperature is less than the first fiducial temperature.

Specifically, when the temperature gap in upper air inlet region and lower air inlet region is less than or equal to the second fiducial temperature (such as t1- T2≤1 DEG C) when, illustrate when indoor Thermal stratification unobvious, the temperature of indoor higher level and the indoor temperature difference compared with low degree It is different smaller, hardly the comfort level of user is impacted, therefore, the power of the auxiliary thermal modules of control electricity remains unchanged, that is, controls The auxiliary thermal modules of system electricity keep current working status.

That is, when air conditioner opens heating mode operation, blow first with higher temperature so that indoor temperature Rapid increase, but this can cause indoor vertical temperature-difference bigger, so after a period of time, be changed by the frequency of the auxiliary thermal modules of electricity Becoming the leaving air temp of air outlet upper-lower section so that indoor higher level temperature reduces, and relatively low face temperature rate increases, to So that vertical temperature-difference is smaller, when air conditioner heat-production operation is effectively relieved in room the phenomenon that Thermal stratification, so as to improve indoor Thermal comfort.

It should be noted that being to include an electric auxiliary hot cell and two electricity with the auxiliary thermal modules of electricity in the above-described embodiments What auxiliary hot cell illustrated, in other embodiments of the invention, the auxiliary thermal modules of electricity can also be including 3,4 or more A electricity auxiliary hot cell, is set with specific reference to actual conditions, is not limited here, and specific control method and the auxiliary heat of an electricity are single Member or two electric auxiliary hot cells are similar, and those skilled in the art can obtain the auxiliary thermal modules of electricity according to above-mentioned control method and include The control method of 3,4 or more electric auxiliary hot cells, specific I will not elaborate.

The control method of air conditioner according to the ... of the embodiment of the present invention controls wind when air conditioner opens heating mode operation Machine module is opened, and is controlled the auxiliary thermal modules of electricity and worked, and obtains inlet air temperature and the lower air inlet region in upper air inlet region Inlet air temperature, and according to the inlet air temperature in upper air inlet region and it is lower air inlet region inlet air temperature obtain temperature gap, and When air conditioner opens the time that heating mode is run and reaches the first preset time, temperature gap is judged, and in temperature When difference is more than the first fiducial temperature, the auxiliary thermal modules of control electricity are stopped, so that indoor vertical temperature-difference reduces.As a result, not only Indoor higher level can effectively be reduced and compared with the temperature difference between low degree, alleviate indoor Thermal stratification phenomenon, so as to improve room Interior thermal comfort, and rotating speed and increase without promoting wind turbine go out the radian of wind pendulum leaf, effectively reduce the work of air conditioner The appearance for making noise and air conditioner is unaffected.

In addition, the embodiment of the present invention also proposed a kind of non-transitorycomputer readable storage medium, it is stored thereon with Computer program, the program realize the control method of above-mentioned air conditioner when being executed by processor.

Non-transitorycomputer readable storage medium according to the ... of the embodiment of the present invention, by the control for executing above-mentioned air conditioner Method processed not only can effectively reduce indoor higher level and compared with the temperature difference between low degree, alleviate indoor Thermal stratification phenomenon, So as to improve indoor thermal comfort, and rotating speed and increase without promoting wind turbine go out the radian of wind pendulum leaf, effectively reduce The operating noise of the air conditioner and appearance of air conditioner is unaffected.

Fig. 7 is the block diagram of the control device of air conditioner according to the ... of the embodiment of the present invention.

In an embodiment of the present invention, as Figure 1-Figure 5, air conditioner includes indoor unit 1000, and indoor unit includes casing 100, blower fan module 400 in casing 100 and the auxiliary thermal modules 600 of electricity are set, casing 100 is equipped with to be extended in the up-down direction Air outlet 110 and air inlet 120, air inlet 110 formed upper air inlet region A1 and lower air inlet region A2, air outlet 120 formed Upper outlet air region B1 and lower outlet air region B2.

As shown in fig. 7, the control device of the air conditioner of the embodiment of the present invention may include that control module 800 and temperature obtain mould Block 900.

Wherein, control module 800 is used for when air conditioner opens heating mode operation, and control blower fan module 400 is opened, and Electric auxiliary thermal modules 600 are controlled to work；Temperature acquisition module 900 be used for obtain upper air inlet region A1 inlet air temperature and under into The inlet air temperature of wind region A2, and temperature is obtained according to the inlet air temperature of the inlet air temperature of upper air inlet region A1 and lower air inlet region A2 Spend difference；Control module 800 is additionally operable to when air conditioner opens the time that heating mode is run and reaches the first preset time, to temperature Degree difference is judged, and is controlled electric auxiliary thermal modules 600 when temperature gap is more than the first fiducial temperature and be stopped, so that room Interior vertical temperature-difference reduces.

According to one embodiment of present invention, when the auxiliary thermal modules 600 of electricity include that 610 and second electricity of the first electric auxiliary hot cell is auxiliary When hot cell 620, the first electric auxiliary hot cell 610 corresponds to upper outlet air region B1 settings, and the second electric auxiliary hot cell 620 corresponds to lower outlet air Region B2 is arranged, wherein control module 800 is additionally operable to when temperature gap is more than the first fiducial temperature, the auxiliary heat of the first electricity of control Unit 610 is stopped, and controls the second 620 maintenance working condition of electric auxiliary hot cell, so that upper outlet air region B1's goes out Air temperature is less than the leaving air temp of lower outlet air region B2.

According to one embodiment of present invention, control module 800 is additionally operable to when temperature gap is more than the first fiducial temperature, The power of the first electric auxiliary hot cell 610 of control reduces and/or the power of the electric auxiliary hot cell of control second 620 increases so that on go out The leaving air temp of wind region B1 is less than the leaving air temp of lower outlet air region B2.

According to one embodiment of present invention, control module 800 is additionally operable to be less than or equal to the second default temperature when temperature gap When poor, the auxiliary thermal modules 600 of control electricity keep current working status, wherein the second fiducial temperature is less than the first fiducial temperature.

It should be noted that undisclosed details in the control device of the air conditioner of the embodiment of the present invention, please refers to this hair Details disclosed in the control method of the air conditioner of bright embodiment, specific I will not elaborate.

The control device of air conditioner according to the ... of the embodiment of the present invention passes through control when air conditioner opens heating mode operation Molding block controls blower fan module and opens, and controls the auxiliary thermal modules of electricity and work, and is obtained by temperature acquisition module enterprising The inlet air temperature of the inlet air temperature in wind region and lower air inlet region, and according to the inlet air temperature in upper air inlet region and lower air inlet region Inlet air temperature obtain temperature gap, and by control module air conditioner open heating mode operation time reach first When preset time, temperature gap is judged, and the auxiliary thermal modules of control electricity are stopped when temperature gap is more than the first fiducial temperature It only works, so that indoor vertical temperature-difference reduces.Indoor higher level not only can be effectively reduced as a result, and compared between low degree The temperature difference alleviates indoor Thermal stratification phenomenon, so as to improve indoor thermal comfort, and rotating speed and increase without promoting wind turbine The appearance of the radian for going out wind pendulum leaf, the operating noise and air conditioner that effectively reduce air conditioner is unaffected.

In addition, the embodiment of the present invention also proposed a kind of air conditioner comprising the control device of above-mentioned air conditioner.

Air conditioner according to the ... of the embodiment of the present invention not only can be reduced effectively by the control device of above-mentioned air conditioner Indoor higher level and compared with the temperature difference between low degree, alleviates indoor Thermal stratification phenomenon, so as to improve indoor thermal comfort, And rotating speed and increase without promoting wind turbine go out the radian of wind pendulum leaf, effectively reduce the operating noise and air conditioner of air conditioner Appearance it is unaffected.

In addition, the embodiment of the present invention also proposed a kind of air conditioner, as Figure 1-Figure 5, including indoor unit 1000, room The blower fan module 400 and the auxiliary thermal modules 600 of electricity, casing 100 that interior machine includes casing 100, is arranged in casing 100 are equipped with upper The air outlet 120 and air inlet 110 that lower section upwardly extends, air inlet 110 form upper air inlet region A1 and lower air inlet region A2, go out Air port 120 forms upper outlet air region B1 and lower outlet air region B2, and air conditioner further includes memory, processor and is stored in memory The control program of air conditioner that is upper and can running on a processor, wherein control realized when program is executed by processor it is above-mentioned The control method of air conditioner.

Air conditioner according to the ... of the embodiment of the present invention not only can be effective by executing the control method of above-mentioned air conditioner It reduces indoor higher level and compared with the temperature difference between low degree, alleviates indoor Thermal stratification phenomenon, relax so as to improve indoor heat Adaptive, and rotating speed and increase without promoting wind turbine go out the radian of wind pendulum leaf, effectively reduce the operating noise of air conditioner and The appearance of air conditioner is unaffected.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " illustrative examples ", The description of " example ", " specific example " or " some examples " etc. means specific features described in conjunction with this embodiment or example, knot Structure, material or feature are included at least one embodiment or example of the invention.In the present specification, to above-mentioned term Schematic representation may not refer to the same embodiment or example.Moreover, specific features, structure, material or the spy of description Point can be combined in any suitable manner in any one or more of the embodiments or examples.

Although an embodiment of the present invention has been shown and described, it will be understood by those skilled in the art that：Not In the case of being detached from the principle of the present invention and objective a variety of change, modification, replacement and modification can be carried out to these embodiments, this The range of invention is limited by claim and its equivalent.

Claims (15)

1. a kind of control method of air conditioner, which is characterized in that the air conditioner includes indoor unit, and the indoor unit includes machine Shell, the blower fan module being arranged in casing and the auxiliary thermal modules of electricity, the casing are equipped with air outlet extended in the vertical direction And air inlet, the air inlet form upper air inlet region and lower air inlet region, the air outlet forms outlet air region and goes out under Wind region, the described method comprises the following steps：

When the air conditioner opens heating mode operation, controls the blower fan module and open, and control the auxiliary thermal modules of electricity It works；

The inlet air temperature of the inlet air temperature and the lower air inlet region in the upper air inlet region is obtained, and according to the upper air inlet area The inlet air temperature in domain and the inlet air temperature in the lower air inlet region obtain temperature gap；

When the time that the air conditioner opens heating mode operation reaching the first preset time, the temperature gap is sentenced It is disconnected；

If the temperature gap is more than the first fiducial temperature, controls the auxiliary thermal modules of electricity and be stopped, so that indoor hang down The straight temperature difference reduces.

2. the control method of air conditioner as described in claim 1, which is characterized in that when the auxiliary thermal modules of electricity include the first electricity When auxiliary hot cell and the second electric auxiliary hot cell, the described first electric auxiliary hot cell corresponds to the upper outlet air region and is arranged, and described second Electric auxiliary hot cell corresponds to the lower outlet air region setting, wherein

When the temperature gap is more than the first fiducial temperature, the described first electric auxiliary hot cell of control is stopped, and controls institute The second electric auxiliary hot cell maintenance working condition is stated, so that the leaving air temp in the upper outlet air region is less than the lower wind outlet area The leaving air temp in domain.

3. the control method of air conditioner as claimed in claim 2, which is characterized in that preset when the temperature gap is more than first When the temperature difference, the power of the described first electric auxiliary hot cell of control reduces and/or controls the power raising of the described second electric auxiliary hot cell, So that the leaving air temp in the upper outlet air region is less than the leaving air temp in the lower outlet air region.

4. the control method of air conditioner as claimed in any one of claims 1-3, which is characterized in that when the temperature gap is small When equal to the second fiducial temperature, controls the auxiliary thermal modules of the electricity and keep current working status, wherein second fiducial temperature Less than first fiducial temperature.

5. a kind of non-transitorycomputer readable storage medium, is stored thereon with computer program, which is characterized in that the program quilt The control method of the air conditioner as described in any one of claim 1-4 is realized when processor executes.

6. a kind of control device of air conditioner, which is characterized in that the air conditioner includes indoor unit, and the indoor unit includes machine Shell, the blower fan module being arranged in casing and the auxiliary thermal modules of electricity, the casing are equipped with air outlet extended in the vertical direction And air inlet, the air inlet form upper air inlet region and lower air inlet region, the air outlet forms outlet air region and goes out under Wind region, described device include：

Control module, for when the air conditioner opens heating mode operation, controlling the blower fan module and opening, and control institute The auxiliary thermal modules of electricity are stated to work；

Temperature acquisition module, the inlet air temperature of inlet air temperature and the lower air inlet region for obtaining the upper air inlet region, And temperature gap is obtained according to the inlet air temperature of the inlet air temperature in the upper air inlet region and the lower air inlet region；

The control module is additionally operable to, when the air conditioner opens the time that heating mode is run and reaches the first preset time, The temperature gap is judged, and controls the auxiliary thermal modules of electricity when the temperature gap is more than the first fiducial temperature and stops It only works, so that indoor vertical temperature-difference reduces.

7. the control device of air conditioner as claimed in claim 6, which is characterized in that when the auxiliary thermal modules of electricity include the first electricity When auxiliary hot cell and the second electric auxiliary hot cell, the described first electric auxiliary hot cell corresponds to the upper outlet air region and is arranged, and described second Electric auxiliary hot cell corresponds to the lower outlet air region setting, wherein and the control module is additionally operable to,

When the temperature gap is more than the first fiducial temperature, the described first electric auxiliary hot cell of control is stopped, and controls institute The second electric auxiliary hot cell maintenance working condition is stated, so that the leaving air temp in the upper outlet air region is less than the lower wind outlet area The leaving air temp in domain.

8. the control device of air conditioner as claimed in claim 7, which is characterized in that the control module is additionally operable to, when described When temperature gap is more than the first fiducial temperature, the power of the described first electric auxiliary hot cell of control reduces and/or controls described second The power of electric auxiliary hot cell increases, so that the leaving air temp in the upper outlet air region goes out wind-warm syndrome less than the lower outlet air region Degree.

9. the control device of the air conditioner as described in any one of claim 6-8, which is characterized in that the control module is also used In, when the temperature gap is less than or equal to the second fiducial temperature, controls the auxiliary thermal modules of the electricity and keeps current working status, In, second fiducial temperature is less than first fiducial temperature.

10. the control device of air conditioner as claimed in claim 6, which is characterized in that the indoor unit further includes air-treatment Module, the air treatment module include：

Shell, the shell are located at the lower section of the casing, and the shell is equipped with air intake and air outlet slit；

Air-treatment wind turbine, the air-treatment wind turbine are located in the shell；

Humidifying element, the humidifying element are located in the shell；

Water tank, the water tank are located in the shell and for supplying water to the humidifying element.

11. the control device of air conditioner as claimed in claim 10, which is characterized in that the air treatment module further includes net Change filter screen, the filtering screen is located at the upstream in the shell and positioned at the humidifying element.

12. the control device of air conditioner as claimed in claim 10, which is characterized in that the air intake includes that indoor wind enters Mouth and fresh air inlet.

13. the control device of air conditioner as claimed in claim 10, which is characterized in that the humidifying element is located at the air Manage the air side of wind turbine.

14. a kind of air conditioner, which is characterized in that include the control dress of the air conditioner as described in any one of claim 6-13 It sets.

15. a kind of air conditioner, which is characterized in that the air conditioner includes indoor unit, and the indoor unit includes casing, is arranged in machine Blower fan module and the auxiliary thermal modules of electricity, the casing in shell are equipped with air outlet extended in the vertical direction and air inlet, institute It states air inlet and forms upper air inlet region and lower air inlet region, the air outlet forms outlet air region and lower outlet air region, described Air conditioner further includes memory, processor and is stored in the air conditioner that can be run on the memory and on the processor Control program, wherein the control program realizes the sky as described in any one of claim 1-4 when being executed by the processor Adjust the control method of device.