CN110319547A - Air conditioner and its control method, operating control device and storage medium - Google Patents

Air conditioner and its control method, operating control device and storage medium Download PDF

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Publication number
CN110319547A
CN110319547A CN201910733645.9A CN201910733645A CN110319547A CN 110319547 A CN110319547 A CN 110319547A CN 201910733645 A CN201910733645 A CN 201910733645A CN 110319547 A CN110319547 A CN 110319547A
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CN
China
Prior art keywords
air
air conditioner
mode
calm sense
relieve heat
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
CN201910733645.9A
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Chinese (zh)
Other versions
CN110319547B (en
Inventor
何健
刘奇伟
翟富兴
易正清
袁紫琪
郭绍胜
姬安生
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Midea Group Co Ltd
GD Midea Air Conditioning Equipment Co Ltd
Original Assignee
Midea Group Co Ltd
Guangdong Midea Refrigeration Equipment Co Ltd
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Publication date
Application filed by Midea Group Co Ltd, Guangdong Midea Refrigeration Equipment Co Ltd filed Critical Midea Group Co Ltd
Priority to CN201910733645.9A priority Critical patent/CN110319547B/en
Publication of CN110319547A publication Critical patent/CN110319547A/en
Application granted granted Critical
Publication of CN110319547B publication Critical patent/CN110319547B/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F1/00Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
    • F24F1/0007Indoor units, e.g. fan coil units
    • F24F1/0011Indoor units, e.g. fan coil units characterised by air outlets
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/62Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
    • F24F11/63Electronic processing
    • F24F11/64Electronic processing using pre-stored data
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/62Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
    • F24F11/63Electronic processing
    • F24F11/65Electronic processing for selecting an operating mode
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/70Control systems characterised by their outputs; Constructional details thereof
    • F24F11/72Control systems characterised by their outputs; Constructional details thereof for controlling the supply of treated air, e.g. its pressure
    • F24F11/79Control systems characterised by their outputs; Constructional details thereof for controlling the supply of treated air, e.g. its pressure for controlling the direction of the supplied air
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F13/00Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
    • F24F13/08Air-flow control members, e.g. louvres, grilles, flaps or guide plates
    • F24F13/10Air-flow control members, e.g. louvres, grilles, flaps or guide plates movable, e.g. dampers
    • F24F13/14Air-flow control members, e.g. louvres, grilles, flaps or guide plates movable, e.g. dampers built up of tilting members, e.g. louvre
    • F24F13/1426Air-flow control members, e.g. louvres, grilles, flaps or guide plates movable, e.g. dampers built up of tilting members, e.g. louvre characterised by actuating means
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F2110/00Control inputs relating to air properties
    • F24F2110/10Temperature
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B30/00Energy efficient heating, ventilation or air conditioning [HVAC]
    • Y02B30/70Efficient control or regulation technologies, e.g. for control of refrigerant flow, motor or heating

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Signal Processing (AREA)
  • Physics & Mathematics (AREA)
  • Fuzzy Systems (AREA)
  • Mathematical Physics (AREA)
  • Air Conditioning Control Device (AREA)

Abstract

The embodiment provides a kind of air conditioner and its control method, operating control device and storage medium, air conditioner includes: operating control device;Temperature-detecting device, it is electrically connected with operating control device, temperature-detecting device is configured to detection working temperature parameter, and the working temperature parameter feedback that will test is to operating control device, triggering operating control device is determined according to the working temperature parameter got switches to calm sense mode by current refrigeration or heating mode, or maintains current refrigeration or heating mode.The air conditioner that this programme provides, temperature-detecting device is set and detects working temperature parameter, and adjust the operational mode of air conditioner in time according to the variation of working temperature parameter, simultaneously, the mode conversion of air conditioner is to be realized through operating control device according to the working temperature state modulator of detection, for manually controlling compared with user, realizes automation control, control more convenient, the precision of mode conversion and control is higher.

Description

Air conditioner and its control method, operating control device and storage medium
Technical field
The present invention relates to air-conditioner fields, in particular to a kind of air conditioner, a kind of control method of air conditioner, one Kind operating control device and a kind of computer readable storage medium.
Background technique
The air conditioners such as existing air-conditioning have a variety of air-out modes, such as refrigeration mode, heating mode or calm sense mode, but The conversion of a variety of air-out modes generally requires user and manually adjusts, and control is more inconvenient, and product usage experience is poor.
Summary of the invention
At least one in order to solve the above-mentioned technical problem, it is an object of the present invention to provide a kind of air conditioners.
It is another object of the present invention to provide a kind of control methods of air conditioner.
It is yet a further object of the present invention to provide a kind of operating control devices.
It is yet a further object of the present invention to provide a kind of computer readable storage mediums.
To achieve the above object, the embodiment provides a kind of air conditioners, comprising: operating control device;Temperature Detection device is electrically connected with the operating control device, and the temperature-detecting device is configured to detection working temperature parameter, and The working temperature parameter feedback that will test gives the operating control device, triggers the operating control device according to getting The working temperature parameter determine the institute that calm sense mode is switched to by current refrigeration or heating mode, or remains current State refrigeration or heating mode.
Temperature-detecting device real-time detection working temperature parameter, work is arranged in the air conditioner that the above embodiment of the present invention provides Condition temperature parameter can be understood as environment temperature, can be obtained by the temperature at detection return air inlet for air-conditioner, so that air conditioner can To get real-time environment temperature, and according to the operational mode of the timely adjustment air conditioner of the variation of working temperature parameter, meanwhile, The mode conversion of air conditioner is to be realized through operating control device according to the working temperature state modulator of detection, is manually controlled compared with user For, realize automation control, control is more convenient, and the precision of mode conversion and control is higher.
In addition, the air conditioner in above-described embodiment provided by the invention can also have following additional technical feature:
In above-mentioned technical proposal, the air conditioner includes: casing, which is provided with air-conditioner air outlet;Wind deflector is arranged in institute It states on casing, and movable between the position for blocking the air-conditioner air outlet and the position of the opening air-conditioner air outlet;Institute It states operating control device to be electrically connected with the wind deflector, and is configured to that the wind deflector is driven to open, and control the wind deflector Open angle be adjusted to first object angle or the second target angle.
In the present solution, setting wind deflector on casing and in the position for blocking air-conditioner air outlet and opens air-conditioner air outlet Position between it is movable, firstly, wind deflector effectively blocks air-conditioner air outlet at the position for blocking air-conditioner air outlet, prevent Dust enters in casing, guarantees the spatter property of product and improves the aesthetics of product, secondly, the position of wind deflector movement is not Together, the angle of wind-guiding is different, can be in this way, other than the effect that wind-guiding effect and control air outlet opening and closing may be implemented It realizes more wide in range wind-guiding angle, can also be achieved and wind-guiding angle is adjusted according to different operating conditions, and expand out more abundant Air-out mode, promote the usage comfort of product, promote product usage experience, and operating control device is electrically connected with wind deflector And the open angle of wind deflector is controlled, the entire movement travel control of wind deflector can be more accurate, to guarantee wind deflector Wind-guiding accuracy.
In above-mentioned technical proposal, the air conditioner includes: relieve heat component, is arranged on the housing, and can be relative to institute Chassis movement is stated, the relieve heat component is equipped with relieve heat structure, and the relieve heat structure is configured for air-flow and passes through, and is suitable for making to wear The Diffusion of gas stream flowing crossed;The operating control device is electrically connected with the relieve heat component, and is configured that the driving relieve heat group Part is to first object position, so that the relieve heat component is hooked with wind deflector, and split is limited positioned at the air-conditioner air outlet Outside and the cavity that is connected to the air-conditioner air outlet;Or drive the relieve heat component to the second target position, so that described Relieve heat component is opposite with the wind deflector and compartment of terrain arrangement be connected to and one end tool with surrounding to limit with the air-conditioner air outlet There is the drainage channel of exhaust outlet.
In the present solution, setting relieve heat component can be relative to chassis movement, firstly, may make using relieve heat structure via scattered The wind of wind structure blowout in diffusion the type of flow, it is to be understood that wind is via changing original flowing side after relieve heat structure To that can flow towards different directions, to realize the diverging flow of wind, calm sense outlet air is realized, secondly, operating control device The movement of relieve heat component is electrically connected and controlled with relieve heat component, the entire movement travel control of relieve heat component can be more accurate, To guarantee the location accuracy of relieve heat component, and operating control device controls the movement of relieve heat component and wind deflector simultaneously, into One step improves the harmony of relieve heat component and wind deflector.
Operating control device driving relieve heat component and wind deflector are hooked split and limit cavity, and cavity is located at the outside of air outlet It is allowed to form air outlet and block, and make to be connected between cavity and air outlet, in this way, the air-flow of air outlet discharge enters cavity It is interior, it is discharged in environment after through relieve heat structure, realizes calm sense outlet air, and cavity can provide more compared to traditional baffle Air exhausting structure position is set, to provide bigger air-out area, avoid the problem of cooling capacity deficiency, and cavity conduct solid portion Part can provide more air outlet angles for baffle, can be designed more flexiblely to air exhausting structure in this way, To realize taking into account for refrigeration requirement and calm sense demand, for example, in the air outlet angle for avoiding user, can suitably relax to going out The calm sense of wind structure requires limitation, to accordingly reduce the cooling capacity restricted influence of the part air exhausting structure, realization is not being reduced Under the premise of calm sense experience, the cooling capacity supply efficiency of air conditioner is promoted, cooling capacity deficiency is solved the problems, such as, improves product Usage experience.
Operating control device driving relieve heat component is opposite with wind deflector and compartment of terrain arrangement is gone out with surrounding to limit with air-conditioning There is the drainage channel of exhaust outlet to increase outlet air by drainage channel while realizing calm sense outlet air for air port connection and one end Amount, to solve the problems, such as that calm sense mode downdraft is insufficient, and air-flow outside air-conditioner air outlet by drainage channel again water conservancy diversion with Changing air-out direction, air-out effect is more preferable, can preferably avoid front-outlet from blowing people, calm sense air-out effect is further promoted, Improve the usage experience of product.
In above-mentioned technical proposal, the relieve heat component is hooked in the first object position with the wind deflector, and the two Split line is formed at the place of being hooked, the apparent surface of the relieve heat component and the wind deflector surrounds through slot out, and the through slot is along institute It states split line to extend and be formed as along the perforative structure in extending direction both ends, so that the cavity is the two of the extending direction End is respectively formed with side opening.
In the present solution, the apparent surface of setting relieve heat component and wind deflector surrounds through slot out, in this way, utilizing through slot both ends Side opening can by wind be oriented to wind deflector and relieve heat length component direction two sides, avoid front-outlet from blowing people, to realize Calm sense, and since what the design of side opening utilized is that air outlet angle keeps away people and realizes calm sense so that the structure of side opening and Size limitation, which can discharge, relaxes, so that side opening can realize Wind Volume outlet air, is more able to satisfy refrigeration requirement, overall next It says, realizes the property the taken into account guarantee of calm sense and refrigeration requirement.
In any of the above-described technical solution, the relieve heat component includes air dispersion plate, and the relieve heat structure is described including being formed in Multiple air-ducting rings on air dispersion plate and the multiple vanes being oppositely arranged one by one with the air-ducting ring.
In the present solution, by vane rotation air-flow can more uniformly be broken up, to improve the effect of calm sense, The mistake wind resistance on relieve heat component can be reduced by air-ducting ring, is conducive to relieve heat component noise reduction, and by blowing at relieve heat structure Air-flow out is dredged, so that outlet air is softer, the effect of calm sense is more preferable.
In above-mentioned technical proposal, the relieve heat structure includes driving device, and the driving device and operation control fill Electrical connection is set, the operating control device controls the driving device, so that the driving device drives the vane rotation.
In the present solution, setting driving device driving vane rotation, can further promote relieve heat structure and beat air-flow Scattered and cutting effect further promotes calm sense experience, and operating control device controls driving device and control relieve heat group simultaneously The movement of part, vane begins to rotate when relieve heat component being avoided not move to target position also or relieve heat component has been moved to mesh Cursor position and vane rotate, and the rotation of vane and the sports coordination of relieve heat component are more preferable.
In above-mentioned technical proposal, it is sequentially connected between multiple vanes, so that link between multiple vanes, In, at least one of the driving device and multiple described vanes are connected, and drive to the vane being attached thereto.
In the present solution, due to being sequentially connected between multiple vanes, thus the vane that driving device driving is attached thereto turns Dynamic, i.e. the multiple vane rotations of linkage are shown in this way, can drive multiple vane rotary motions simultaneously by a driving device The quantity for reducing driving device is write, so that product structure is simpler, reduces product component, and assemble and be more convenient, favorably In the cost for reducing product.In addition, multiple vanes are driven by same driving device simultaneously, the concertedness between multiple vanes is more It is good, air-flow can more uniformly be broken up, to improve the effect of calm sense, and due to the reduction of driving device quantity, just It is more reasonably laid out in the other structures to air conditioner, and then optimizes the layout of product.
In above-mentioned technical proposal, the relieve heat component is formed with multiple relieve heat groups, each relieve heat group include one or Multiple vanes, wherein the driving device is connected with multiple relieve heat groups respectively, and to the institute of multiple relieve heat groups It states vane to be respectively driven, so that revolving speed and rotation of the operating control device to the vane of the different relieve heat groups Direction controls respectively.
In the present solution, operating control device controls the revolving speed and rotation direction of the vane of different relieve heat groups respectively, this The air-flow of sample, the vane discharge of different relieve heat groups can be collided mutually, and then further increased and broken up ability to air-flow, into one Step improves the effect of calm sense.
The embodiment of second aspect of the present invention provides a kind of control method of air conditioner, comprising the following steps: according to obtaining The working temperature parameter got, which is determined, switches to calm sense mode by current refrigeration or heating mode, or maintains current institute State refrigeration or heating mode.
The control method for the air conditioner that the above embodiment of the present invention provides, according to the working temperature parameter that gets determine by Current refrigeration or heating mode switches to calm sense mode, or maintains current refrigeration or heating mode, working temperature ginseng Number can be understood as environment temperature, can be obtained by the temperature at detection return air inlet for air-conditioner, be arrived so that air conditioner is available Real-time environment temperature, and according to the operational mode of the timely adjustment air conditioner of the variation of working temperature parameter, the mode of air conditioner The control logic of conversion is simple, it is ensured that system runs high efficiency, promotes control response precision, and make the mode of air conditioner The precision of conversion is higher.
In above-mentioned technical proposal, the working temperature parameter that the basis is got is determined by current refrigeration or heating mode Calm sense mode, or the step of maintaining the refrigeration currently or heating mode are switched to, is specifically included: the air conditioner fortune Row determines the size relation of the working temperature parameter and the first preset temperature threshold, if the working temperature in refrigeration mode Parameter is less than first preset temperature threshold, determines and switches to the calm sense mode by the current refrigeration mode, if The working temperature parameter is more than or equal to first preset temperature threshold, determines the refrigeration mode for remaining current;And/or The air conditioner runs on heating mode, determines the size relation of the working temperature parameter and the second preset temperature threshold, if The working temperature parameter is greater than second preset temperature threshold, determines and switches to the calm sense by current heating mode Mode determines the heating mould for remaining current if the working temperature parameter is less than or equal to second preset temperature threshold Formula.
In the present solution, in the early stage under refrigeration mode, due to needing rapidly to cool down to environment, so control air conditioner with The operating of maximum power exports cooling capacity, while real-time detection working temperature parameter to environment, when detecting that working temperature parameter is low When the first preset temperature threshold, show that the temperature in environment at this time can be with the requirement of full scale user, it is only necessary to maintain mesh Preceding environment temperature causes environment temperature too low without inputting more cooling capacity to environment again to reduce environment temperature And cause human body uncomfortable, and will also result in the waste of the energy.Similarly, rapid to environment due to needing in the early stage under heating mode Heating, so control air conditioner is operated with maximum power to environment quantity of heat given up, while real-time detection working temperature parameter, When detecting that working temperature parameter is higher than the second preset temperature threshold, show that the temperature in environment at this time can be used with full scale The requirement at family, it is only necessary to current environment temperature is maintained, without inputting more heats to environment again to reduce environment Temperature causes environment temperature excessively high and causes human body uncomfortable, and will also result in the waste of the energy.To sum up, according to operating condition temperature The air-out mode that degree parameter adjusts air conditioner in time improves product so that environment temperature is maintained in a reasonable range Usage comfort, and the energy consumption of product is advantageously reduced, the use cost of product is reduced, product is made to have more the market competitiveness.
Wherein, it is worth noting that, the specific data of the first preset temperature threshold and the second preset temperature threshold are not Particular value, the temperature for meeting human comfort that can be obtained for the producer according to modes such as experiment measuring and calculating, statistics empirical datas Spend threshold value, or the temperature threshold that user sets according to the actual demand of itself, then this is to the first preset temperature threshold And second the specific range of preset temperature threshold limit.
In any of the above-described technical solution, if switching to the calm sense mode by the current refrigeration or heating mode, Further include: in the calm sense mode, determined according to the working temperature parameter got by the current calm sense Pattern switching is to the refrigeration or heating mode, or maintains the current calm sense mode.
In the present solution, determined according to the working temperature parameter that gets by current calm sense pattern switching to refrigeration or Heating mode, or current calm sense mode is maintained, that is, detection-feedback-adjusting at runtime, is repeated in air conditioner Operational process to adjust the operational mode of air conditioner in time according to working temperature parameter air conditioner is preferably adapted to The variation of environment temperature improves the usage comfort of product.
In above-mentioned technical proposal, the working temperature parameter that the basis is got is determined by the current calm sense Pattern switching specifically includes: described to the refrigeration or heating mode, or the step of maintaining the current calm sense mode Air conditioner runs on the calm sense mode, determines the size relation of the working temperature parameter and the first preset temperature threshold, If the working temperature parameter is less than first preset temperature threshold, the calm sense mode for remaining current is determined, if institute Working temperature parameter is stated more than or equal to first preset temperature threshold, is determined by the current calm sense pattern switching to institute State refrigeration mode;And/or the air conditioner runs on the calm sense mode, determines that the working temperature parameter is default with second The size relation of temperature threshold is determined and is maintained currently if the working temperature parameter is greater than second preset temperature threshold The calm sense mode determines if the working temperature parameter is less than or equal to second preset temperature threshold by current institute Calm sense pattern switching is stated to the heating mode.
In the present solution, calm sense mode operation for a period of time after, detection environment temperature it is whether opposite with it is first default Temperature threshold is risen, and to be converted in time to refrigeration mode from calm sense mode to supplement cooling capacity to environment, reduces ring The temperature in border, similarly, calm sense mode operation for a period of time after, whether detection environment temperature opposite with the second preset temperature threshold Value is declined, to be converted in time to heating mode from calm sense mode to increase the temperature of environment to environment additional heat Degree, in this way, the air-out mode of air conditioner is adjusted in time according to working temperature parameter, so that environment temperature is maintained at one reasonably In range, the usage comfort of product is improved, and advantageously reduces the energy consumption of product, the use cost of product is reduced, makes product The more market competitiveness.And adjust the operational mode of air conditioner, the mode of air conditioner in time according to the variation of working temperature parameter The control logic of conversion is simple, it is ensured that system runs high efficiency, promotes control response precision, and make the mode of air conditioner The precision of conversion is higher.
In any of the above-described technical solution, the step that calm sense mode is switched to by the current refrigeration or heating mode Suddenly, it specifically includes: determining and calm sense mode is switched to by current refrigeration mode, control relieve heat component to first object position, So that the relieve heat component is hooked with wind deflector, and split limit positioned at the air-conditioner air outlet outside and with the air-conditioning The cavity of air outlet connection;It determines and calm sense mode is switched to by current heating mode, control the relieve heat component to second Target position, so that the relieve heat component is opposite with the wind deflector and compartment of terrain is arranged to surround and limit one end with air draft The drainage channel of mouth.
In the present solution, switching to calm sense mode by current refrigeration mode, control relieve heat component is hooked with wind deflector Split limits cavity, and cavity, which is located on the outside of air outlet to be allowed to form air outlet, to be blocked, and makes to connect between cavity and air outlet It is logical, in this way, the air-flow of air outlet discharge enters in cavity, it is discharged in environment after through relieve heat structure, realizes calm sense outlet air, And cavity can provide more air exhausting structure settings position compared to traditional baffle and keep away to provide bigger air-out area Exempt from the problem of cooling capacity deficiency, and cavity can provide more air outlet angles as three-dimensional part for baffle, in this way Air exhausting structure can be designed more flexiblely, to realize taking into account for refrigeration requirement and calm sense demand, and heated When pattern switching to calm sense mode, control relieve heat component simultaneously compartment of terrain opposite with wind deflector is arranged to surround and limit and air-conditioning Air outlet connection and one end have the drainage channel of exhaust outlet, are cooperated by relieve heat component and wind deflector in air-conditioner air outlet shape At drainage channel, air-flow a part of air outlet discharge is blown out through relieve heat component, to realize calm sense outlet air, a part of air-flow warp Drainage channel is discharged in environment, is increased the discharge capacity of thermal current, is avoided the problem that shortage of heat, to sum up, this programme is in reality It is existing calm while feel cold (heat) wind out, increase the discharge capacity of cold (heat) wind, solves calm cold (heat) for feeling air-conditioning and measure insufficient asks Topic.
In any of the above-described technical solution, the step that calm sense mode is switched to by the current refrigeration or heating mode Suddenly, further includes: the vane rotation of control relieve heat component.
In the present solution, by control relieve heat component vane rotation, can further promote vane and air-flow is broken up And cutting effect, further promote calm sense experience.
In above-mentioned technical proposal, it is described control relieve heat component vane rotation the step of, specifically include: determining described calm Sense mode is the first calm sense mode, controls the vane one-directional rotation;Determine that the calm sense mode is the second calm sense mould Formula controls the vane and carries out positive and negative rotation campaign.
In the present solution, under the first calm sense mode vane one-directionally rotate, in this way, to vane rotation control it is simpler, Simplified control logic, the system that advantageously ensures that run high efficiency, and vane carries out positive and negative rotation campaign, vane under the second calm sense mode It is different from the reversion air-out direction of (such as rotating counterclockwise) in rotating forward (such as rotating clockwise), enrich the outlet air shape of air conditioner Formula further increases the usage experience of product.
In above-mentioned technical proposal, the control vane one-directionally rotate the step of, specifically include: determining first nothing Wind sense mode is the first subpattern, controls multiple vanes of the relieve heat component along first direction one-directional rotation or equal edge Second direction one-directional rotation opposite to the first direction, wherein the revolving speed between the vane is same or different;
It determines that the described first calm sense mode is the second subpattern, controls in multiple vanes of the relieve heat component A part is one-directionally rotated along the first direction, and another part is one-directionally rotated along second direction opposite to the first direction, Wherein, the revolving speed between the vane is same or different.
In the present solution, multiple vanes of relieve heat component one-directionally rotate in the same direction under the first subpattern, to vane The control of rotation is simpler, and generates the Whirl deposite tank of equal angular, and wind sense is higher, multiple rotations of relieve heat component under the second subpattern A part in leaf is one-directionally rotated along first direction, and another part is one-directionally rotated along the second direction opposite with first direction, and two The Whirl deposite tank direction that partial vane generates relatively or contrarily, to be led to the middle part wind-guiding of air conditioner or to the two sides of air conditioner Wind to realize that the middle part wind sense of air conditioner is higher and the calm sense ability of the two sides of air conditioner is higher, or realizes air conditioner The calm sense ability in middle part is higher and the wind sense of the two sides of air conditioner is higher.
It is described to control the step of vane carries out positive and negative rotation campaign in above-mentioned technical proposal, it specifically includes: described in determining Second calm sense mode is third subpattern, and the multiple vanes for controlling the relieve heat component carry out positive and negative rotation campaign respectively, And the direction of rotation of multiple vanes is identical, wherein the revolving speed between the vane is same or different;
It determines that the described second calm sense mode is the 4th subpattern, controls multiple vane difference of the relieve heat component Carry out positive and negative rotation campaign, and the direction of rotation of a part and the direction of rotation of another part in multiple vanes on the contrary, its In, the revolving speed between the vane is same or different.
In the present solution, multiple vanes of relieve heat component carry out positive and negative rotation campaign, and multiple rotations respectively under third subpattern The direction of rotation of leaf is identical, it is possible to understand that, the period of change of the direction of rotation of multiple vanes is identical, the control to vane rotation It is simpler, and the Whirl deposite tank direction change generated is identical, a part of edge under the second subpattern in multiple vanes of relieve heat component First direction one-directional rotation, another part are one-directionally rotated along the second direction opposite with first direction, and two-part vane generates Whirl deposite tank direction relatively or contrarily, with the middle part wind-guiding to air conditioner or the two sides wind-guiding to air conditioner, to realize air-conditioning The middle part wind sense of device is higher and the calm sense ability of the two sides of air conditioner is higher, or realizes the calm sense ability in middle part of air conditioner The wind sense of higher and air conditioner two sides is higher.
In above-mentioned technical proposal, in the calm sense mode, the wind of the velocity of rotation of the vane and the air conditioner The revolving speed positive correlation of machine.
In the present solution, vane velocity of rotation and air conditioner blower revolving speed positive correlation, in this way, blower Revolving speed increases, and drains into the air quantity at relieve heat component through blower and increases, and the revolving speed for controlling vane also increases with blower, improves relieve heat group The efficiency for breaing up air-flow of part, and then calm sense effect is improved, the revolving speed of blower reduces, and drains into the wind at relieve heat component through blower Amount is also reduced, and the revolving speed for controlling vane reduces with blower, while realizing calm sense outlet air, reduces the energy consumption of product and makes an uproar Sound.
Preferably, in the calm sense mode, the revolving speed of the blower of the velocity of rotation of the vane and the air conditioner Direct proportionality.
In above-mentioned technical proposal, in refrigeration mode, control wind deflector is opened and adjusts the open angle of the wind deflector To first object angle corresponding with the refrigeration mode;In heating mode, led described in control wind deflector opening and adjusting The open angle of aerofoil extremely the second target angle corresponding with the heating mode.
In the present solution, the corresponding control wind deflector of different operating modes opens different angles, to realize different Air outlet angle under operating mode is different, improves the comfort level under each operating mode, improves the usage experience of product.
Preferably, second target angle is greater than the first object angle.
In the present solution, the second target angle is changed using wind deflector water conservancy diversion in a heating mode greater than first object angle Become air outlet angle, so that outlet air air-flow is slightly downwardly inclined compared to refrigeration mode, hot gas can convey farther, and hot gas exports In the process, promote room temperature uniform using hot gas effect of increasing, promote heating uniformity and utilize wind-guiding in cooling mode Plate water conservancy diversion change air outlet angle so that outlet air air-flow compared to heating mode slightly towards upper inclination, cold air can convey farther, and It during cold air output, is acted on using cold air gravity sinking and promotes room temperature uniform, promote refrigeration uniformity.
In any of the above-described technical solution, the working temperature parameter includes inlet air temperature.
In the present solution, setting working temperature parameter includes inlet air temperature, it is possible to understand that, the return air inlet of air conditioner introduces It exchanges heat at air to heat exchanger in environment, inlet air temperature can preferably reflect current environmental temperature, so that operation control Device can control the conversion of working mode of air-conditioner according to inlet air temperature, improve the control precision of operating control device.
The embodiment of third aspect present invention provides a kind of operating control device, is suitable for air conditioner, comprising: processing Device, the processor can be realized the controlling party of the air conditioner as described in any of the above-described technical solution when executing computer program The step of method limits.
The operating control device provided in above-mentioned technical proposal of the present invention, can when executing computer program by processor The step of control method of the air conditioner as described in any of the above-described technical solution limits is realized, to have all of the above beneficial Effect, details are not described herein.
The embodiment of fourth aspect present invention provides a kind of air conditioner, including as described in any of the above-described technical solution Operating control device.
The air conditioner provided in above-mentioned technical proposal of the present invention, by being provided with fortune described in any of the above-described technical solution Row control device, to have all of the above beneficial effect, details are not described herein.
The embodiment of fifth aspect present invention provides a kind of computer readable storage medium, is stored thereon with computer journey Sequence, the computer program are performed, and realize that the control method of the air conditioner as described in any of the above-described technical solution limits Fixed step.
The computer readable storage medium provided in above-mentioned technical proposal of the present invention, is performed by computer program, Step defined by the control method of the air conditioner as described in any of the above-described technical solution is realized, to have with all of the above Beneficial effect, details are not described herein.
Additional aspect and advantage of the invention will become obviously in following description section, or practice through the invention Recognize.
Detailed description of the invention
Above-mentioned and/or additional aspect of the invention and advantage will become from the description of the embodiment in conjunction with the following figures Obviously and it is readily appreciated that, in which:
Fig. 1 is the schematic perspective view of air conditioner described in one embodiment of the invention;
Fig. 2 is the schematic view of the front view of air conditioner described in one embodiment of the invention;
Fig. 3 is the schematic cross-sectional view of air conditioner described in one embodiment of the invention;
Fig. 4 is the schematic diagram of the part-structure of air conditioner described in one embodiment of the invention;
Fig. 5 is the schematic cross-sectional view of air conditioner described in one embodiment of the invention;
Fig. 6 is the structural schematic diagram under the refrigeration mode of air conditioner described in one embodiment of the invention;
Fig. 7 is the structural schematic diagram under the heating mode of air conditioner described in one embodiment of the invention;
Fig. 8 is the structural schematic diagram under the calm sense mode of first state of air conditioner described in one embodiment of the invention;
Fig. 9 is the structural schematic diagram under the calm sense mode of the second state of air conditioner described in one embodiment of the invention;
Figure 10 is the flow diagram of the control method of air conditioner described in one embodiment of the invention;
Figure 11 is that the refrigeration mode of air conditioner described in one embodiment of the invention and the process of calm sense mode conversion are illustrated Figure;
Figure 12 is that the heating mode of air conditioner described in one embodiment of the invention and the process of calm sense mode conversion are illustrated Figure;
Figure 13 is the schematic block diagram of operating control device described in one embodiment of the invention;
Figure 14 is the schematic block diagram of air conditioner described in one embodiment of the invention;
Figure 15 is angle change curve graph of the motor 1 described in one embodiment of the invention to motor 4;
Figure 16 is angle change curve graph of the motor 5 described in one embodiment of the invention to motor 8.
Wherein, corresponding relationship of the Fig. 1 into Figure 16 between appended drawing reference and component names are as follows:
10 air conditioners, 11 casings, 111 air-conditioner air outlets, 112 return air inlets, 12 wind deflectors, 13 relieve heat components, 131 relieve heat knots Structure, 1311 air-ducting rings, 1312 vanes, 132 air dispersion plates, 140a1 first gear;The first rack gear of 140a2, the first actuator of 140a3, 140b1 second gear;The second rack gear of 140b2, the second actuator of 140b3,15 cavitys, 151 side openings, 16 drainage channels, 161 rows Air port, 17 blowers, 18 heat exchangers, 101 operating control devices, 1011 processors.
Specific embodiment
To better understand the objects, features and advantages of the present invention, with reference to the accompanying drawing and specific real Applying mode, the present invention is further described in detail.It should be noted that in the absence of conflict, the implementation of the application Feature in example and embodiment can be combined with each other.
In the following description, numerous specific details are set forth in order to facilitate a full understanding of the present invention, still, the present invention may be used also To be implemented using other than the one described here other modes, therefore, protection scope of the present invention is not by described below Specific embodiment limitation.
The air conditioner 10 described according to some embodiments of the invention is described referring to Fig. 1 to Figure 16.
The air conditioner 10 that the embodiment of first aspect present invention provides, as depicted in figs. 1 and 2, including operating control device 101 and temperature-detecting device.
Specifically, temperature-detecting device is electrically connected with operating control device 101, and temperature-detecting device is configured to detection operating condition Temperature parameter, and the working temperature parameter feedback that will test triggers 101 basis of operating control device to operating control device 101 The working temperature parameter got, which is determined, switches to calm sense mode by current refrigeration or heating mode, or maintains currently Refrigeration or heating mode.
Temperature-detecting device real-time detection working temperature parameter is arranged in the air conditioner 10 that the above embodiment of the present invention provides, Working temperature parameter can be understood as environment temperature, can be obtained by the temperature at detection return air inlet for air-conditioner 112, so that air-conditioning Device 10 is available to arrive real-time environment temperature, and adjusts the operation mould of air conditioner 10 in time according to the variation of working temperature parameter Formula, meanwhile, the mode conversion of air conditioner 10 is to be realized through operating control device 101 according to the working temperature state modulator of detection, For manually controlling compared with user, automation control is realized, control is more convenient, and the precision of mode conversion and control is higher.
Embodiment 1:
As shown in figure 3, further defining other than the feature of above-described embodiment: air conditioner 10 includes casing 11 And wind deflector 12, casing 11 are equipped with air-conditioner air outlet 111, wind deflector 12 is arranged on casing 11, and is blocking air conditioning exhausting Movable between the position of mouth 111 and the position for opening air-conditioner air outlet 111, operating control device 101 is electrically connected with wind deflector 12 It connects, and is configured to driving wind deflector 12 and opens, and the open angle for controlling wind deflector 12 is adjusted to first object angle or second Target angle.The angle that wind deflector 12 rotates is different, and the angle of wind-guiding is different, in this way, in addition to may be implemented wind-guiding effect and Other than the effect for controlling air outlet opening and closing, more wide in range wind-guiding angle may be implemented, can also be achieved according to different operating condition tune Wind-guiding angle is saved, and expands out air-out mode more abundant, promotes the usage comfort of product, product is promoted and uses body It tests, and operating control device 101 is electrically connected with wind deflector 12 and controls the open angle of wind deflector 12, the entire fortune of wind deflector 12 Dynamic stroke control can be more accurate, to guarantee the wind-guiding accuracy of wind deflector 12.
For example, as shown in Fig. 3, Fig. 4 and Fig. 5, wind deflector 12 is equipped with the first rack gear 140a2, and the is equipped in casing 11 One actuator 140a3 (such as motor) and the first gear 140a1, first gear 140a1 rotated by the first actuator 140a3 driving It is engaged with the first rack gear 140a2 to drive wind deflector 12 to move, operating control device 101 is electrically connected with wind deflector 12, wherein such as Shown in Fig. 5, the rotation direction of the first actuator 140a3 is x1, and the direction of motion of wind deflector 12 is x2, for example, operation control dress Wind deflector 12 can also be designed certainly by setting 101 work that the first actuator 140a3 is electrically connected and controlled with the first actuator 140a3 Sliding setting, wherein as shown in figure 3, when not working of air conditioner 10, operating control device 101 controls the first actuator 140a3 Driving wind deflector 12 blocks 10 air outlet of air conditioner, to prevent dust from entering in casing 11, guarantees the spatter property of product and mentions The aesthetics of high product, as shown in figure 5, air conditioner 10 start work when, operating control device 101 control wind deflector 12 rotation with 10 air outlet of air conditioner is conceded, so that cold (heat) wind after the heat exchange of heat exchanger 18 drains into environment through 12 water conservancy diversion of wind deflector.
When air conditioner 10 is switched on and runs, if during air conditioner 10 is in refrigeration mode, control wind deflector 12 is opened and is adjusted The open angle of wind deflector 12 extremely first object angle corresponding with refrigeration mode, if air conditioner 10 is in heating mode, Wind deflector 12 is controlled to open and adjust the open angle of wind deflector 12 to the second target angle corresponding with heating mode, In, the second target angle is greater than first object angle.
In refrigeration mode, wind deflector 12 is opened and rotates first object angle, and air outlet angle is smaller, and air-flow is along wind deflector 12 blowouts change air outlet angle using 12 water conservancy diversion of wind deflector, so that outlet air air-flow is compared to heating mode slightly towards upper inclination, cold air It can convey farther, and during cold air output, be acted on using cold air gravity sinking and promote room temperature uniform, promote refrigeration Uniformity.In heating mode, wind deflector 12 is opened and rotates the second target angle, and air outlet angle is larger, and air is along wind deflector 12 blowouts change air outlet angle using 12 water conservancy diversion of wind deflector, so that outlet air air-flow is downwardly inclined, play the effect for warming up foot.
Embodiment 2:
As shown in figure 3, further defining other than the feature of any of the above-described embodiment: air conditioner 10 includes dissipating Wind component 13, relieve heat component 13 is arranged on casing 11, and can move relative to casing 11, and relieve heat component 13 is equipped with relieve heat knot Structure 131, relieve heat structure 131 are configured for air-flow and pass through, and be suitable for make across Diffusion of gas stream flowing, firstly, utilizing relieve heat knot Structure 131 may make the wind blown out via relieve heat structure 131 in the type of flow spread, it is to be understood that wind is via relieve heat knot Changing original flow direction after structure 131 can flow towards different directions, to realize the diverging flow of wind, realize calm sense Outlet air.Secondly, operating control device 101 is electrically connected with relieve heat component 13 and controls the movement of relieve heat component 13, relieve heat component 13 Entire movement travel control can be more accurate, to guarantee the location accuracy of relieve heat component 13, and operating control device 101 control the movement of relieve heat component 13 and wind deflector 12 simultaneously, further increase the harmony of relieve heat component 13 and wind deflector 12.
For example, as shown in Fig. 3, Fig. 4 and Fig. 5, relieve heat component 13 is slidably connected with casing 11, specifically, relieve heat group Part 13 is equipped with the second rack gear 140b2, the second actuator 140b3 (such as motor) is equipped in casing 11 and by the second actuator 140b3 The second gear 140b1 of rotation, second gear 140b1 is driven to be engaged with the second rack gear 140b2 to drive relieve heat component 13 to move, Operating control device 101 is electrically connected with relieve heat component 13, wherein as shown in figure 5, the rotation direction of the second actuator 140b3 is The direction of motion of y1, relieve heat component 13 are y2, for example, operating control device 101 is electrically connected and controls with the second actuator 140b3 The work of second actuator 140b3 can also design the rotation setting of relieve heat component 13, wherein when air conditioner 10 does not work certainly (as shown in Figure 3) or in refrigeration (heat) mode (as shown in Figure 6 and Figure 7), relieve heat component 13 is hidden in inside casing 11, with It avoids relieve heat component 13 from blocking 10 air outlet of air conditioner, realizes maximum air output, environment is allowed rapidly to cool down (heating), And relieve heat component 13 is avoided to be chronically exposed to environment decline ash, improve the spatter property of relieve heat component 13.Needing to start calm sense When mode (as shown in Figure 8 and Figure 9), operating control device 101 control the second actuator 140b3 driving relieve heat component 13 all or 10 air outlet of air conditioner is stretched out in part, and cold (heat) wind after the heat exchange of heat exchanger 18 spreads heel row to environment through relieve heat structure 131 In, realize the calm sense of outlet air.
As shown in figure 8, operating control device 101 drives relieve heat component 13 to first object position, so that relieve heat component 13 It is hooked with wind deflector 12, and the cavity that split limits the outside positioned at air-conditioner air outlet 111 and is connected to air-conditioner air outlet 111 15.In this way, the air-flow of air outlet discharge enters in cavity 15, it is discharged in environment after through relieve heat structure 131, realizes calm sense Outlet air, and cavity 15 can provide more air exhausting structure settings position compared to traditional baffle, to provide bigger outlet air Area avoids the problem of cooling capacity deficiency, and cavity 15 can provide more outlet air as three-dimensional part for baffle Angle more flexiblely can be designed air exhausting structure in this way, thus realize taking into account for refrigeration requirement and calm sense demand, For example, can suitably relax the calm sense requirement limitation to air exhausting structure, to accordingly reduce in the air outlet angle for avoiding user The cooling capacity restricted influence of the part air exhausting structure is realized under the premise of not reducing calm sense experience, promotes the cold of air conditioner 10 Amount supply efficiency, solves the problems, such as cooling capacity deficiency, improves the usage experience of product.
In detail, after air conditioner 10 runs one end time in a chiller mode, control air conditioner 10 is converted by refrigeration mode To calm sense mode, operating control device 101 controls the second actuator 140b3 driving relieve heat component 13 and moves to first object position It sets, and controls the first actuator 140a3 driving wind deflector 12 and rotate, and make wind deflector 12 with the hinge of wind deflector 12 and casing 11 Contact is that rotation center rotates first object angle, wherein the one end of relieve heat component 13 far from casing 11 and wind deflector 12 are separate One end of casing 11 is hooked together, so that relieve heat component 13 and 12 split of wind deflector go out the V-shaped cavity 15 in section.This space-time Device 10 is adjusted to be in the calm sense mode of first state.Certainly, in other embodiments, can also to wind deflector 12 and relieve heat component 13 into The design of row shape and split position, so that the shapes such as wind deflector 12 and 13 split Formation cross-section of relieve heat component is Y-shaped, U-shaped, spill The cavity 15 of shape.
Further, as shown in figure 8, relieve heat component 13 and wind deflector 12 are hooked and the two at the place of being hooked forms split line, The apparent surface of relieve heat component 13 and wind deflector 12 surrounds through slot out, and through slot extends along split line and is formed as along extending direction The perforative structure in both ends, so that cavity 15 is respectively formed with side opening 151 at the both ends of extending direction.In this way, utilizing through slot two Wind can be oriented to the two sides of wind deflector 12 and 13 length direction of relieve heat component by the side opening 151 at end, and front-outlet is avoided to blow people, To realizing calm sense, and what is utilized due to the design of side opening 151 is that air outlet angle keeps away people and realizes calm sense, so that side is opened The structure snd size limitation of mouth 151, which can discharge, relaxes, so that side opening 151 can realize Wind Volume outlet air, is more able to satisfy Refrigeration requirement generally speaking realizes the property the taken into account guarantee of calm sense and refrigeration requirement.
As shown in figure 9, operating control device 101 drives 13 to the second target position of relieve heat component, so that relieve heat component 13 Opposite and compartment of terrain is arranged to surround to limit and be connected to air-conditioner air outlet 111 and one end is with exhaust outlet 161 with wind deflector 12 Drainage channel 16.Increase air output by drainage channel 16, to solve the problems, such as that calm sense mode downdraft is insufficient, and air-flow By drainage channel 16, for water conservancy diversion to change air-out direction, air-out effect is more preferable again outside air-conditioner air outlet 111, can preferably avoid Front-outlet blows people, further promotes calm sense air-out effect, improves the usage experience of product.
In detail, for example, after air conditioner 10 runs one end time in a chiller mode, air conditioner 10 is controlled by freezing Mode is converted to calm sense mode, and operating control device 101 controls the second actuator 140b3 driving relieve heat component 13 and moves to the Two target positions, and control the first actuator 140a3 driving wind deflector 12 and rotate, and make wind deflector 12 with wind deflector 12 and machine The hinge joint of shell 11 is that rotation center rotates the second target angle, wherein relieve heat component 13 and wind deflector 12 are opposite and are spaced Arrangement, and the one end of relieve heat component 13 far from casing 11 separates far from one end of casing 11 with wind deflector 12 and constitutes exhaust outlet 161. Air conditioner 10 is in the calm sense mode of the second state at this time, certainly, in other embodiments, can also be to wind deflector 12 and relieve heat group Part 13 carries out the design of shape and position, with change relieve heat component 13 and wind deflector 12 surround drainage channel 16 out shape and The size of exhaust outlet 161.
Certainly, motion control device also can control air conditioner 10 and be converted by refrigeration mode to the calm sense mould of the second state Formula, or control air conditioner 10 are converted by heating mode to the calm sense mode of first state.
Optionally, under calm sense air-out mode, the open angle of wind deflector 12 can be between first object angle and the Between two target angles, it can also be first object angle or be the second target angle, even, might be less that first object angle Or it is greater than the second target angle.
Embodiment 3:
As shown in figure 3, further defining other than the feature of any of the above-described embodiment: relieve heat component 13 includes Air dispersion plate 132, relieve heat structure 131 include multiple air-ducting rings 1311 for being formed on air dispersion plate 132 and with air-ducting ring 1,311 1 The one multiple vanes 1312 being oppositely arranged.Air-flow can more uniformly be broken up by the rotation of vane 1312, to improve nothing The effect of wind sense can reduce the mistake wind resistance on relieve heat component 13 by air-ducting ring 1311, be conducive to 13 noise reduction of relieve heat component, and By dredging the air-flow blown out at relieve heat structure 131, so that outlet air is softer, the effect of calm sense is more preferable.
For example, air dispersion plate 132 includes upper cover and lower cover, and upper cover and lower cover lid, which closes, constitutes air dispersion plate 132, multiple vanes 1312 between upper cover and lower cover, installation carrier of the upper cover and lower cover as relieve heat component 13, and is formed to vane 1312 anti- Shield, while multiple air-ducting rings 1311 are formed on upper lid, guarantee to export after vane 1312 can break up air-flow, and air-ducting ring The air-flow of 1311 pairs of vanes 1312 blowout is dredged again, so that outlet air is softer, the effect of calm sense is more preferable.
Further, relieve heat structure 131 includes driving device, and driving device is electrically connected with operating control device 101, is run Control device 101 controls driving device, so that driving device driving vane 1312 rotates.For example, driving device includes multiple electricity Machine, multiple motors connect one to one with multiple vanes 1312, and the vane 1312 that each motor driven is attached thereto rotates, this Sample, can further be promoted relieve heat structure 131 to air-flow break up and cutting effect, further promote calm sense experience, and transport Row control device 101 controls driving device simultaneously and controls the movement of relieve heat component 13, and relieve heat component 13 is avoided not move to also Vane 1312 begins to rotate or relieve heat component 13 has been moved to target position when target position and vane 1312 rotates, vane 1312 rotation and the sports coordination of relieve heat component 13 are more preferable.
Further, it is sequentially connected between multiple vanes 1312, so that linking between multiple vanes 1312, wherein drive It moves at least one of device and multiple vanes 1312 to be connected, and the vane 1312 being attached thereto is driven.For example, setting Between multiple vanes 1312 by gear mechanism, chain-wheel mechanism or linkage transmission connection, with realize multiple vanes 1312 it Between linkage, driving device includes a motor, and motor connect with a vane 1312 and drive the vane 1312 being attached thereto Rotation, so that multiple vanes 1312 that link rotate.Due to being sequentially connected between multiple vanes 1312, thus driving device driving with The vane 1312 of connection rotate, i.e., the multiple vanes 1312 of linkage rotate, in this way, can be driven simultaneously by a driving device Multiple 1312 rotary motions of vane are moved, the quantity of driving device is significantly reduced, so that product structure is simpler, reduces product Components, and assemble and be more convenient, advantageously reduce the cost of product.In addition, multiple vanes 1312 are simultaneously by same driving device It drives, the concertedness between multiple vanes 1312 is more preferable, can more uniformly be broken up to air-flow, to improve the effect of calm sense Fruit, and due to the reduction of driving device quantity, it is more reasonably laid out convenient for the other structures to air conditioner 10, and then optimize The layout of product.
Preferably, relieve heat component 13 is formed with multiple relieve heat groups, each relieve heat group includes one or more vanes 1312, In, driving device is connected with multiple relieve heat groups respectively, and respectively drives to the vane 1312 of multiple relieve heat groups, so that operation The revolving speed and rotation direction of the vane 1312 of 101 pairs of control device different relieve heat groups control respectively.In this way, the rotation of different relieve heat groups The air-flow that leaf 1312 is discharged can be collided mutually, and then further increased and broken up ability to air-flow, and calm sense is further increased Effect.
More preferably, multiple relieve heat groups are along the transversely arranged setting of air dispersion plate 132.Structure is simple and more regular, is conducive to letter Change the structure of air conditioner 10, and matched with the shape of the air outlet of conventional air conditioner 10, is conducive to the marketing of product.
Certainly, it is quiet vane 1312 that those skilled in the art, which can also design vane 1312, utilizes air stream drives vane 1312 rotations, to reduce the energy consumption of air conditioner 10.
The embodiment of second aspect of the present invention provides a kind of control method of air conditioner 10, as shown in Figure 10, including with Lower step:
Step 102: determined according to the working temperature parameter that gets switched to by current refrigeration or heating mode it is calm Sense mode, or maintain current refrigeration or heating mode.
The control method for the air conditioner 10 that the above embodiment of the present invention provides is determined according to the working temperature parameter got Calm sense mode is switched to by current refrigeration or heating mode, or maintains current refrigeration or heating mode, working temperature Parameter can be understood as environment temperature, can be obtained by the temperature at detection return air inlet for air-conditioner 112, so that air conditioner 10 can be with Real-time environment temperature is got, and adjusts the operational mode of air conditioner 10, air-conditioning in time according to the variation of working temperature parameter The control logic of the mode conversion of device 10 is simple, it is ensured that system runs high efficiency, promotes control response precision, and make to have leisure Adjust the precision of the mode conversion of device 10 higher.
Embodiment 4:
The present embodiment is that the process converted between refrigeration mode and calm sense mode for air conditioner 10 is done specifically It is bright.
It is determined according to the working temperature parameter got and calm sense mode is switched to by current refrigeration mode, or maintained It the step of current refrigeration mode, specifically includes:
Air conditioner 10 runs on refrigeration mode, determines the size relation of working temperature parameter Yu the first preset temperature threshold, If working temperature parameter determines less than the first preset temperature threshold and switches to calm sense mode by current refrigeration mode, if work Condition temperature parameter is more than or equal to the first preset temperature threshold, determines the refrigeration mode for remaining current.In the early stage under refrigeration mode, by In needing rapidly to cool down to environment, so control air conditioner 10 is operated with maximum power exports cooling capacity to environment, while real When detect working temperature parameter, when detecting working temperature parameter lower than the first preset temperature threshold, show in environment at this time Temperature can be with the requirement of full scale user, it is only necessary to maintain current environment temperature, without again to environment input More cooling capacity cause environment temperature too low and cause human body uncomfortable to reduce environment temperature, and will also result in the waste of the energy.
Further, if after switching to calm sense mode by current refrigeration mode, further includes: in calm sense mode, It is determined according to the working temperature parameter got by current calm sense pattern switching to refrigeration mode, or maintains current nothing Wind sense mode.
It is detailed, it is determined according to the working temperature parameter got by current calm sense pattern switching to refrigeration mode, Or the step of maintaining current calm sense mode, it specifically includes:
Air conditioner 10 runs on calm sense mode, determines that the size of working temperature parameter and the first preset temperature threshold is closed System, if working temperature parameter determines the calm sense mode for remaining current, if working temperature parameter less than the first preset temperature threshold More than or equal to the first preset temperature threshold, determine by current calm sense pattern switching to refrigeration mode.It is transported in calm sense mode After row a period of time, whether detection environment temperature is opposite to be risen with the first preset temperature threshold, so as in time by calm sense Mode is converted to refrigeration mode to supplement cooling capacity to environment, and the temperature of environment is reduced.
Preferably, the step of switching to calm sense mode by current refrigeration, specifically includes: determining by current refrigeration mould Formula switches to calm sense mode, control relieve heat component 13 to first object position, so that relieve heat component 13 is hooked with wind deflector 12, And the cavity 15 that split limits the outside positioned at air-conditioner air outlet 111 and is connected to air-conditioner air outlet 111, cavity 15 are located at It is allowed to form air outlet on the outside of air port and block, and make to be connected between cavity 15 and air outlet, cooling capacity is realized by cavity 15 Demand and calm sense demand are taken into account.
Embodiment 5:
The present embodiment is that the process converted between heating mode and calm sense mode for air conditioner 10 is done specifically It is bright.
It is determined according to the working temperature parameter got and calm sense mode is switched to by current heating mode, or maintained It the step of current heating mode, specifically includes:
Air conditioner 10 runs on heating mode, determines the size relation of working temperature parameter Yu the second preset temperature threshold, If working temperature parameter is greater than the second preset temperature threshold, determines and calm sense mode is switched to by current heating mode, if work Condition temperature parameter is less than or equal to the second preset temperature threshold, determines the heating mode for remaining current.In the early stage under heating mode, by In needing rapidly to heat up to environment, so control air conditioner 10 is operated with maximum power to environment quantity of heat given up, while real When detect working temperature parameter, when detect working temperature parameter be higher than the second preset temperature threshold when, show in environment at this time Temperature can be with the requirement of full scale user, it is only necessary to maintain current environment temperature, without again to environment input More heats cause environment temperature excessively high and cause human body uncomfortable to reduce environment temperature, and will also result in the waste of the energy.
Further, if switching to calm sense mode by current heating mode, further includes: in calm sense mode, root It determines according to the working temperature parameter got by current calm sense pattern switching to heating mode, or maintains currently calm Sense mode.
In detail, it is determined according to the working temperature parameter got by current calm sense pattern switching to heating mode, Or the step of maintaining current calm sense mode, it specifically includes:
Air conditioner 10 runs on calm sense mode, determines that the size of working temperature parameter and the second preset temperature threshold is closed System determines the calm sense mode for remaining current, if working temperature parameter if working temperature parameter is greater than the second preset temperature threshold Less than or equal to the second preset temperature threshold, determine by current calm sense pattern switching to heating mode.It is transported in calm sense mode After row a period of time, whether detection environment temperature is opposite to be declined with the second preset temperature threshold, so as in time by calm sense Mode is converted to heating mode to increase the temperature of environment to environment additional heat.
Preferably, the step of switching to calm sense mode by current heating, specifically includes: determining by current heating mould Formula switches to calm sense mode, controls 13 to the second target position of relieve heat component so that the relieve heat component 13 with it is described Wind deflector 12 is opposite and compartment of terrain arrangement is to surround the drainage channel 16 for limiting one end and having exhaust outlet 161.It is logical by draining Realize taking into account for heat demand and calm sense demand in road 16.
Wherein, it is worth noting that, the specific data of the first preset temperature threshold and the second preset temperature threshold are not Particular value, the temperature for meeting human comfort that can be obtained for the producer according to modes such as experiment measuring and calculating, statistics empirical datas Spend threshold value, or the temperature threshold that user sets according to the actual demand of itself, then this is to the first preset temperature threshold And second the specific range of preset temperature threshold limit.
In any of the above-described embodiment, optionally, the step of calm sense mode is switched to by current refrigeration or heating mode, Further include: the vane 1312 of control relieve heat component 13 rotates.Can further be promoted in this way vane 1312 to air-flow break up and Cutting effect further promotes calm sense experience.
Further, the step of controlling the rotation of vane 1312 of relieve heat component 13, specifically includes: determining that calm sense mode is First calm sense mode, control vane 1312 one-directionally rotate.
Optionally it is determined that the first calm sense mode is the first subpattern, the multiple vanes 1312 for controlling relieve heat component 13 are equal Along first direction one-directional rotation or along the second direction one-directional rotation opposite with first direction, wherein between vane 1312 Revolving speed is same or different.For example, multiple vanes 1312 are controlled while being rotated clockwise, or the multiple vanes 1312 of control are same When rotate counterclockwise.
Optionally it is determined that the first calm sense mode be the second subpattern, control relieve heat component 13 multiple vanes 1312 in A part one-directionally rotated along first direction, another part is one-directionally rotated along the second direction opposite with first direction, wherein rotation Revolving speed between leaf 1312 is same or different.For example, a part in multiple vanes 1312 is controlled to turn clockwise simultaneously It moves, or another part in the multiple vanes 1312 of control rotates counterclockwise simultaneously.
Further, it is determined that calm sense mode is the second calm sense mode, control vane 1312 carries out positive and negative rotation campaign.
Optionally it is determined that the second calm sense mode is third subpattern, multiple vanes 1312 of control relieve heat component 13 divide Not carry out positive and negative rotation campaign, and the direction of rotation of multiple vanes 1312 is identical, wherein the revolving speed between vane 1312 it is identical or Difference for example controls multiple vanes 1312 simultaneously with sinusoidal variations rule positive and negative rotation campaign, it is same to control multiple vanes 1312 When with varies with cosine rule positive and negative rotation campaign.
Optionally it is determined that the second calm sense mode is the 4th subpattern, multiple institutes of the relieve heat component 13 are controlled It states vane 1312 and carries out positive and negative rotation campaign, and the direction of rotation of a part in multiple vanes 1312 and another part respectively Direction of rotation it is opposite, wherein the revolving speed between the vane 1312 is same or different.For example, multiple vanes are controlled A part in 1312 controls multiple 1312 another part of vane simultaneously with cosine simultaneously with sinusoidal variations rule positive and negative rotation campaign Changing rule positive and negative rotation campaign.
In any of the above-described embodiment, optionally, in calm sense mode, velocity of rotation and the air conditioner 10 of vane 1312 The revolving speed positive correlation of blower 17.In this way, the revolving speed of blower 17 increases, the air quantity at relieve heat component 13 is drained into through blower 17 Increase, the revolving speed of control vane 1312 also increases with blower 17, improves the efficiency for breaing up air-flow of relieve heat component 13, and then improve The revolving speed of calm sense effect, blower 17 reduces, and the air quantity drained at relieve heat component 13 through blower 17 is also reduced, and controls vane 1312 Revolving speed with blower 17 reduce, while realizing calm sense outlet air, reduce the energy consumption and noise of product.
Preferably, the revolving speed of the blower 17 of the velocity of rotation and air conditioner 10 of vane 1312 is at just in calm sense mode Proportionate relationship.
In any of the above-described embodiment, optionally, in refrigeration mode, control wind deflector 12 is opened and adjusts wind deflector 12 Open angle extremely first object angle corresponding with refrigeration mode;In heating mode, control wind deflector 12 is opened and is adjusted The open angle of wind deflector 12 extremely the second target angle corresponding with heating mode.
Preferably, the second target angle is greater than first object angle.In a heating mode, changed using 12 water conservancy diversion of wind deflector Air outlet angle, so that outlet air air-flow is slightly downwardly inclined compared to refrigeration mode, hot gas can convey farther, and hot gas exported Cheng Zhong promotes room temperature uniform using hot gas effect of increasing, promotes heating uniformity and utilizes wind deflector in cooling mode 12 water conservancy diversion change air outlet angle so that outlet air air-flow compared to heating mode slightly towards upper inclination, cold air can convey farther, and It during cold air output, is acted on using cold air gravity sinking and promotes room temperature uniform, promote refrigeration uniformity.
In any of the above-described technical solution, optionally, working temperature parameter includes inlet air temperature.It should be understood that air conditioner 10 return air inlet 112 is introduced at the air in environment to heat exchanger 18 and exchanges heat, and inlet air temperature, which can preferably reflect, works as front ring Border temperature allows operating control device 101 to control the conversion of 10 operating mode of air conditioner according to inlet air temperature, improves operation The control precision of control device 101.
The embodiment of third aspect present invention provides a kind of operating control device 101, as shown in figure 13, is suitable for air-conditioning Device 10, comprising: processor 1011, processor 1011 can be realized when executing computer program as in any of the above-described technical solution The step of control method of air conditioner 10 limits.
The operating control device 101 provided in above-mentioned technical proposal of the present invention executes computer journey by processor 1011 The step of can be realized the control method restriction such as the air conditioner 10 in any of the above-described technical solution when sequence, to have above complete Portion's beneficial effect, details are not described herein.
The embodiment of fourth aspect present invention provides a kind of air conditioner 10, as shown in figure 14, including such as any of the above-described skill Operating control device 101 in art scheme.
The air conditioner 10 provided in above-mentioned technical proposal of the present invention, passes through the operation being provided in any of the above-described technical solution Control device 101, to have all of the above beneficial effect, details are not described herein.
The embodiment of fifth aspect present invention provides a kind of computer readable storage medium, is stored thereon with computer journey Sequence, computer program are performed, and are realized and are walked as defined by the control method of the air conditioner 10 in any of the above-described technical solution Suddenly.
The computer readable storage medium provided in above-mentioned technical proposal of the present invention, is performed by computer program, The step as defined by the control method of the air conditioner 10 in any of the above-described technical solution is realized, to have all of the above beneficial Effect, details are not described herein.
Specific embodiment:
As shown in figs. 1 to 14,
Air conditioner 10 provided in this embodiment, including casing 11, wind deflector 12, relieve heat component 13, temperature-detecting device and Operating control device 101.
Casing 11 is equipped with air-conditioner air outlet 111 and return air inlet 112, and wind deflector 12 and casing 11 are rotatablely connected, as Fig. 3, Shown in Fig. 4 and Fig. 5, wind deflector 12 is equipped with the first rack gear 140a2, be equipped in casing 11 first actuator 140a3 (such as motor) and By the first gear 140a1 of the first actuator 140a3 driving rotation, first gear 140a1 is engaged with the first rack gear 140a2 with band Dynamic wind deflector 12 moves, and operating control device 101 is electrically connected with wind deflector 12, and relieve heat component 13 is slidably connected with casing 11, dissipates Wind component 13 is equipped with the second rack gear 140b2, the second actuator 140b3 (such as motor) is equipped in casing 11 and by the second actuator The second gear 140b1 of 140b3 driving rotation, second gear 140b1 are engaged with the second rack gear 140b2 to drive relieve heat component 13 Movement, operating control device 101 are electrically connected with relieve heat component 13, and temperature-detecting device (such as temperature sensor) detects operating condition temperature Parameter is spent, operating control device 101 is electrically connected with temperature-detecting device, and the working temperature parameter that temperature-detecting device will test is anti- It feeds operating control device 101, triggering operating control device 101 exists according to the working temperature state modulator wind deflector 12 got It blocks and is moved between the position of air-conditioner air outlet 111 and the position of opening air-conditioner air outlet 111, and control 13 phase of relieve heat component Casing 11 is moved.
The air conditioner 10 of the present embodiment has multiple-working mode, specifically includes: refrigeration mode, heating mode and calm sense Mode, calm sense mode include the calm sense mode of first state and the calm sense mode of the second state, can between multiple-working mode Mutually conversion.
In detail, as shown in Fig. 2, relieve heat component 13 have 8 vanes 1312, from left to right number consecutively be vane 1 to Vane 8, each vane 1312 are equipped with motor to drive vane 1312 to rotate, and each motor is also according to the vane being attached thereto 1312 numbers are motor 1 to motor 8.
After air conditioner 10 receives refrigeration instruction, the first actuator 140a3, the second actuator 140b3 and motor 1 to electricity The rotational angle of machine 8 is as shown in table 1, and in detail, in cooling mode, the first actuator 140a3 rotational angle is 40 °, thus Drive wind deflector 12 rotates first object angle and the second actuator 140b3 does not start, and relieve heat component 13 is located in casing 11, Motor 1 to motor 8 does not start, and vane 1 to vane 8 does not rotate.Table 2 is blower 17 and vane 1 to vane in refrigeration mode The relationship of 8 revolving speeds.
Table 1
Note: 0 °~40 ° indicate that going to 40 ° from 0 ° remains unchanged, similarly hereinafter.
Table 2
Wind guiding component number Blower Vane 1 Vane 2 Vane 3 Vane 4 Vane 5 Vane 6 Vane 7 Vane 8
Wind speed N 0 0 0 0 0 0 0 0
Wherein, N is main cross flow fan tachometer value when running well, similarly hereinafter.
After air conditioner 10 receives heating instruction, the first actuator 140a3, the second actuator 140b3 and motor 1 to electricity The rotational angle of machine 8 is as shown in table 3, and in detail, in a heating mode, the first actuator 140a3 rotational angle is 70 °, thus Drive wind deflector 12 rotates the second target angle and the second actuator 140b3 does not start, and relieve heat component 13 is located in casing 11, Motor 1 to motor 8 does not start, and vane 1 to vane 8 does not rotate.Table 2 is blower 17 and vane 1 to vane in heating mode The relationship of 8 revolving speeds.
Table 3
Note: 0 °~70 ° indicate that going to 70 ° from 0 ° remains unchanged, similarly hereinafter.
Table 4
Wind guiding component number Blower Vane 1 Vane 2 Vane 3 Vane 4 Vane 5 Vane 6 Vane 7 Vane 8
Wind speed N 0 0 0 0 0 0 0 0
After air conditioner 10 receives the calm sense mode instruction of first state, the first actuator 140a3, the second actuator The rotational angle of 140b3 and motor 1 to motor 8 is as shown in table 5, in detail, under the calm sense mode of first state, the first driving Part 140a3 rotational angle is 40 °, to drive the rotation first object angle of wind deflector 12 and the second actuator 140b3 angle of rotation Degree is 320 °, so that relieve heat component 13 be driven to rotate first object position, motor 1 to motor 8 starts, and vane 1 to vane 8 revolves Turn.Table 6 is the relationship of blower 17 and vane 1 to 8 revolving speed of vane in the calm sense mode of first state.
Table 5
Note: 0 °~320 ° indicate that going to 320 ° from 0 ° remains unchanged, 0 ° of -360 ° of expression, 360 ° of Periodic Rotatings, similarly hereinafter.
Table 6
Wind guiding component number Blower Vane 1 Vane 2 Vane 3 Vane 4 Vane 5 Vane 6 Vane 7 Vane 8
Wind speed N*2/3 0.006N 0.006N 0.006N 0.006N 0.006N 0.006N 0.006N 0.006N
After air conditioner 10 receives the calm sense mode instruction of the second state, the first actuator 140a3, the second actuator The rotational angle of 140b3 and motor 1 to motor 8 is as shown in table 7, in detail, under the calm sense mode of the second state, the first driving Part 140a3 rotational angle is 70 °, to drive the second target angle of rotation of wind deflector 12 and the second actuator 140b3 angle of rotation Degree is 320 °, so that relieve heat component 13 be driven to rotate the second target position, motor 1 to motor 8 starts, and vane 1 to vane 8 revolves Turn.Table 8 is the relationship of blower 17 and vane 1 to 8 revolving speed of vane in the calm sense mode of the second state.
Table 7
Table 8
Wind guiding component number Blower Vane 1 Vane 2 Vane 3 Vane 4 Vane 5 Vane 6 Vane 7 Vane 8
Wind speed N*2/3 0.008N 0.008N 0.008N 0.008N 0.008N 0.008N 0.008N 0.008N
Preferably, air conditioner 10 can control motor with different revolving speed driving vane rotations, thus real in the present embodiment Existing richer calm sense air-out mode.
Calm sense mode first embodiment: as shown in table 9 and table 10, left side vane 1 to vane 4 and the right vane 5 to rotation 8 period of change angle of leaf is on the contrary, generate the Whirl deposite tank of different angles.
Table 9
Note: 0 ° of -180 ° of expression, 180 ° of Periodic Rotatings, similarly hereinafter.
Table 10
Wind guiding component number Blower Vane 1 Vane 2 Vane 3 Vane 4 Vane 5 Vane 6 Vane 7 Vane 8
Wind speed N*2/3 0.006N 0.006N 0.006N 0.006N 0.006N 0.006N 0.006N 0.006N
Calm sense mode second embodiment: as shown in table 11 and table 12, left side vane 1 to vane 4 and the right vane 5 to rotation 8 period of change angle of leaf on the contrary, and revolving speed it is also different, generate the Whirl deposite tank of different angles, the revolving speed and angle of wind are not Together, the wind of air-conditioning can be oriented to the two sides in room or concentrated among room.
Table 11
Table 12
Wind guiding component number Blower Vane 1 Vane 2 Vane 3 Vane 4 Vane 5 Vane 6 Vane 7 Vane 8
Wind speed N*2/3 0.003N 0.003N 0.003N 0.003N 0.006N 0.006N 0.006N 0.006N
Calm sense mode 3rd embodiment: as shown in table 13 and table 14.
Table 13
Table 14
Wind guiding component number Blower Vane 1 Vane 2 Vane 3 Vane 4 Vane 5 Vane 6 Vane 7 Vane 8
Wind speed N*2/3 / / / / / / / /
Wherein, the angle and rotation speed change rule of motor 1 to motor 4 can be according to sinusoidal variations rule shown in figure 15, electricity The angle and rotation speed change rule of machine 5 to motor 8 can be according to the rules of varies with cosine shown in Figure 16, certainly, those skilled in the art Member can also change revolving speed and rotational angle according to other changing rules according to actual Demand Design motor, not another herein One enumerates.
Wherein, the control device in the present embodiment realizes control logic described in following air conditioner 10 by it:
Conversion process of the air conditioner 10 between refrigeration mode and calm sense mode is specifically as shown in figure 11,
Step 202: air conditioner 10 runs on refrigeration mode;
Step 204: control wind deflector 12 is opened and adjusts the open angle of wind deflector 12 to corresponding with refrigeration mode First object angle;
Step 206: obtaining working temperature parameter;
Step 208: whether judge working temperature parameter less than the first preset temperature threshold, if so, enter step 2102, If it is not, thening follow the steps 2101: maintaining current refrigeration mode;
Step 2102: determining and calm sense mode is switched to by current refrigeration mode;
Step 212: control relieve heat component 13 to first object position, so that relieve heat component 13 is hooked with wind deflector 12, and The cavity 15 that split limits the outside positioned at air-conditioner air outlet 111 and is connected to air-conditioner air outlet 111;
Step 216: working temperature parameter is judged whether less than the first preset temperature threshold, if so, thening follow the steps 2181: Current calm sense mode is maintained, it is no to then follow the steps 2182: by current calm sense pattern switching to refrigeration or heating mode.
Wherein, it can be specifically chosen in step 2102 and execute step 2141: determine that calm sense mode is the first calm sense mould Formula, or execute step 2142: determine that calm sense mode is the second calm sense mode, to select different 1312 sides of rotation of vane Formula, by changing the changing rule of vane 1312 itself, 1312 period of change angle of vane is different, and revolving speed is also different, produces The Whirl deposite tank of raw different angle, the revolving speed and angle of wind are all different, and the wind of air-conditioning can be oriented to two sides or the collection in room In in a room between, realize the calm sense and the calm sense of subregion of different mode, different demands brought to different people.
Conversion process of the air conditioner 10 between heating mode and calm sense mode is specifically as shown in figure 12,
Step 302: air conditioner 10 runs on heating mode;
Step 304: control wind deflector 12 is opened and adjusts the open angle of wind deflector 12 to corresponding with heating mode Second target angle;
Step 306: obtaining working temperature parameter;
Step 308: judge whether working temperature parameter is greater than the second preset temperature threshold, if so, 3102 are entered step, If it is not, thening follow the steps 3101: maintaining current heating mode;
Step 3102: determining and calm sense mode is switched to by current heating mode;
Step 312: control 13 to the second target position of relieve heat component so that relieve heat component 13 and wind deflector 12 it is opposite and between It is arranged every ground to surround the drainage channel 16 for limiting one end and there is exhaust outlet 161;
Step 316: judge whether working temperature parameter is greater than the second preset temperature threshold, if so, thening follow the steps 2181: Current calm sense mode is maintained, it is no to then follow the steps 2182: by current calm sense pattern switching to heating or heating mode.
Wherein, it can be specifically chosen in step 3102 and execute step 3141: determine that calm sense mode is the first calm sense mould Formula, or execute step 3142: determine that calm sense mode is the second calm sense mode, to select different 1312 sides of rotation of vane Formula, by changing the changing rule of vane 1312 itself, 1312 period of change angle of vane is different, and revolving speed is also different, produces The Whirl deposite tank of raw different angle, the revolving speed and angle of wind are all different, and the wind of air-conditioning can be oriented to two sides or the collection in room In in a room between, realize the calm sense and the calm sense of subregion of different mode, different demands brought to different people.
It should be understood by those skilled in the art that, the embodiment of the present invention can provide as method, equipment (system) or calculate Machine program product.Therefore, the present invention can be used complete hardware embodiment, complete software embodiment or combine software and hardware side The form of the embodiment in face.Moreover, it wherein includes computer usable program code that the present invention, which can be used in one or more, The computer implemented in computer-usable storage medium (including but not limited to magnetic disk storage, CD-ROM, optical memory etc.) The form of program product.
The present invention be referring to according to the method for the embodiment of the present invention, the process of equipment (system) and computer program product Figure and/or block diagram describe.It should be understood that every one stream in flowchart and/or the block diagram can be realized by computer program instructions The combination of process and/or box in journey and/or box and flowchart and/or the block diagram.It can provide these computer programs Instruct the processor of general purpose computer, special purpose computer, Embedded Processor or other programmable data processing devices to produce A raw machine, so that being generated by the instruction that computer or the processor of other programmable data processing devices execute for real The device for the function of being specified in present one or more flows of the flowchart and/or one or more blocks of the block diagram.
These computer program instructions, which may also be stored in, is able to guide computer or other programmable data processing devices with spy Determine in the computer-readable memory that mode works, so that it includes referring to that instruction stored in the computer readable memory, which generates, Enable the manufacture of device, the command device realize in one box of one or more flows of the flowchart and/or block diagram or The function of being specified in multiple boxes.
These computer program instructions also can be loaded onto a computer or other programmable data processing device, so that counting Series of operation steps are executed on calculation machine or other programmable devices to generate computer implemented processing, thus in computer or The instruction executed on other programmable devices is provided for realizing in one or more flows of the flowchart and/or block diagram one The step of function of being specified in a box or multiple boxes.
It should be noted that in the claims, any reference symbol between parentheses should not be configured to power The limitation that benefit requires.Word "comprising" does not exclude the presence of component or step not listed in the claims.Before component Word "a" or "an" does not exclude the presence of multiple such components.The present invention can be by means of including several different components It hardware and is realized by means of properly programmed computer.In the unit claims listing several devices, these are filled Several in setting, which can be, to be embodied by the same item of hardware.The use of word first, second etc. does not indicate any Sequentially.These words can be construed to title.
In description of the invention, it is to be understood that the instructions such as term " on ", "lower", "left", "right", "front", "rear" Orientation or positional relationship is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of the description present invention and simplification is retouched It states, rather than the device or unit of indication or suggestion meaning must have specific direction, be constructed and operated in a specific orientation, It is thus impossible to be interpreted as limitation of the present invention.
In the description of this specification, the description of term " one embodiment ", " some embodiments ", " specific embodiment " etc. Mean that particular features, structures, materials, or characteristics described in conjunction with this embodiment or example are contained at least one reality of the invention It applies in example or example.In the present specification, schematic expression of the above terms are not necessarily referring to identical embodiment or reality Example.Moreover, description particular features, structures, materials, or characteristics can in any one or more of the embodiments or examples with Suitable mode combines.
The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field For art personnel, the invention may be variously modified and varied.All within the spirits and principles of the present invention, made any to repair Change, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.

Claims (24)

1. a kind of air conditioner characterized by comprising
Operating control device;
Temperature-detecting device is electrically connected with the operating control device, and the temperature-detecting device is configured to detection operating condition temperature Parameter is spent, and the working temperature parameter feedback that will test gives the operating control device, triggers the operating control device It is determined according to the working temperature parameter got and calm sense mode, Huo Zhewei is switched to by current refrigeration or heating mode Hold the current refrigeration or heating mode.
2. air conditioner according to claim 1, which is characterized in that the air conditioner includes:
Casing which is provided with air-conditioner air outlet;
Wind deflector, setting on the housing, and in the position for blocking the air-conditioner air outlet and open the air-conditioner air outlet Position between it is movable;
The operating control device is electrically connected with the wind deflector, and is configured to that the wind deflector is driven to open, and described in control The open angle of wind deflector is adjusted to first object angle or the second target angle.
3. air conditioner according to claim 2, which is characterized in that the air conditioner includes:
Relieve heat component, setting on the housing, and can be equipped with relieve heat knot relative to the chassis movement, the relieve heat component Structure, the relieve heat structure are configured for air-flow and pass through, and be suitable for make across Diffusion of gas stream flowing;
The operating control device is electrically connected with the relieve heat component, and is configured that
Drive the relieve heat component to first object position, so that the relieve heat component is hooked with wind deflector, and split limits Outside positioned at the air-conditioner air outlet and the cavity that is connected to the air-conditioner air outlet;Or
Drive the relieve heat component to the second target position, so that the relieve heat component simultaneously compartment of terrain cloth opposite with the wind deflector Set with surround limit be connected to the air-conditioner air outlet and one end have exhaust outlet drainage channel.
4. air conditioner according to claim 3, which is characterized in that
The relieve heat component is hooked in the first object position with the wind deflector, and the two forms split line at the place of being hooked, The apparent surface of the relieve heat component and the wind deflector surrounds through slot out, and the through slot extends and formed along the split line For along the perforative structure in extending direction both ends, so that the cavity is respectively formed with side opening at the both ends of the extending direction.
5. air conditioner according to claim 3 or 4, which is characterized in that
The relieve heat component includes air dispersion plate, the relieve heat structure include the multiple air-ducting rings being formed on the air dispersion plate and The multiple vanes being oppositely arranged one by one with the air-ducting ring.
6. air conditioner according to claim 5, which is characterized in that
The relieve heat structure includes driving device, and the driving device is electrically connected with the operating control device, the operation control Device processed controls the driving device, so that the driving device drives the vane rotation.
7. air conditioner according to claim 6, which is characterized in that
Be sequentially connected between multiple vanes, so that linking between multiple vanes, wherein the driving device with it is multiple At least one of described vane is connected, and drives to the vane being attached thereto;Or
The relieve heat component is formed with multiple relieve heat groups, and each relieve heat group includes one or more vanes, wherein institute It states driving device to be connected with multiple relieve heat groups respectively, and the vane of multiple relieve heat groups is respectively driven, So that the operating control device controls the revolving speed and rotation direction of the vane of the different relieve heat groups respectively.
8. a kind of control method of air conditioner, which comprises the following steps:
It is determined according to the working temperature parameter got and calm sense mode, Huo Zhewei is switched to by current refrigeration or heating mode Hold the current refrigeration or heating mode.
9. the control method of air conditioner according to claim 8, which is characterized in that the working temperature that the basis is got Parameter, which is determined, switches to calm sense mode by current refrigeration or heating mode, or maintains the current refrigeration or heating mould The step of formula, specifically includes:
The air conditioner runs on refrigeration mode, determines that the size of the working temperature parameter and the first preset temperature threshold is closed System, if the working temperature parameter is less than first preset temperature threshold, determination is switched to by the current refrigeration mode The calm sense mode is determined and is maintained currently if the working temperature parameter is more than or equal to first preset temperature threshold The refrigeration mode;And/or
The air conditioner runs on heating mode, determines that the size of the working temperature parameter and the second preset temperature threshold is closed System, if the working temperature parameter is greater than second preset temperature threshold, determination is switched to described by current heating mode Calm sense mode determines if the working temperature parameter is less than or equal to second preset temperature threshold and maintains currently described Heating mode.
10. the control method of air conditioner according to claim 8 or claim 9, which is characterized in that if by the current refrigeration or Heating mode switches to the calm sense mode, further includes:
In the calm sense mode, determined according to the working temperature parameter got by the current calm sense mode The refrigeration or heating mode are switched to, or maintains the current calm sense mode.
11. the control method of air conditioner according to claim 10, which is characterized in that the work that the basis is got Condition temperature parameter is determined by the current calm sense pattern switching to the refrigeration or heating mode, or maintains current institute The step of stating calm sense mode, specifically includes:
The air conditioner runs on the calm sense mode, determines the big of the working temperature parameter and the first preset temperature threshold Small relationship determines the calm sense mould for remaining current if the working temperature parameter is less than first preset temperature threshold Formula determines if the working temperature parameter is more than or equal to first preset temperature threshold by the current calm sense mode Switch to the refrigeration mode;And/or
The air conditioner runs on the calm sense mode, determines the big of the working temperature parameter and the second preset temperature threshold Small relationship determines the calm sense mould for remaining current if the working temperature parameter is greater than second preset temperature threshold Formula determines if the working temperature parameter is less than or equal to second preset temperature threshold by the current calm sense mode Switch to the heating mode.
12. the control method of air conditioner according to claim 8 or claim 9, which is characterized in that described by the current refrigeration Or heating mode switches to the step of calm sense mode, specifically includes:
It determines and calm sense mode is switched to by current refrigeration mode, control relieve heat component to first object position, so that described Relieve heat component is hooked with wind deflector, and split limits the outside positioned at the air-conditioner air outlet and connects with the air-conditioner air outlet Logical cavity;
It determines and calm sense mode is switched to by current heating mode, control the relieve heat component to the second target position, so that The relieve heat component is opposite with the wind deflector and compartment of terrain arrangement is to surround the drainage channel for limiting one end and having exhaust outlet.
13. the control method of air conditioner according to claim 8 or claim 9, which is characterized in that described by the current refrigeration Or heating mode switches to the step of calm sense mode, further includes:
Control the vane rotation of relieve heat component.
14. the control method of air conditioner according to claim 13, which is characterized in that the vane of the control relieve heat component The step of rotation, specifically includes:
It determines that the calm sense mode is the first calm sense mode, controls the vane one-directional rotation;
It determines that the calm sense mode is the second calm sense mode, controls the vane and carry out positive and negative rotation campaign.
15. the control method of air conditioner according to claim 14, which is characterized in that the control vane unidirectionally turns Dynamic step, specifically includes:
It determines that the described first calm sense mode is the first subpattern, controls multiple vanes of the relieve heat component along first Direction one-directional rotation is one-directionally rotated along second direction opposite to the first direction, wherein is turned between the vane Speed is same or different;
It determines that the described first calm sense mode is the second subpattern, controls one in multiple vanes of the relieve heat component Divide and one-directionally rotated along the first direction, another part is one-directionally rotated along second direction opposite to the first direction, wherein Revolving speed between the vane is same or different.
16. the control method of air conditioner according to claim 15, which is characterized in that the control vane carries out just The step of return motion, specifically includes:
Determine that the described second calm sense mode is third subpattern, the multiple vanes for controlling the relieve heat component carry out respectively Positive and negative rotation campaign, and the direction of rotation of multiple vanes is identical, wherein the revolving speed between the vane is same or different;
Determine that the described second calm sense mode is the 4th subpattern, the multiple vanes for controlling the relieve heat component carry out respectively Positive and negative rotation campaign, and the direction of rotation of a part in multiple vanes is opposite with the direction of rotation of another part, wherein institute The revolving speed stated between vane is same or different.
17. the control method of air conditioner according to claim 13, which is characterized in that
In the calm sense mode, the revolving speed of the blower of the velocity of rotation of the vane and the air conditioner is positively correlated pass System.
18. the control method of air conditioner according to claim 14, which is characterized in that
In the calm sense mode, the revolving speed pass in direct ratio of the blower of the velocity of rotation of the vane and the air conditioner System.
19. the control method of air conditioner according to claim 8 or claim 9, which is characterized in that
In refrigeration mode, control wind deflector is opened and adjusts the open angle of the wind deflector to opposite with the refrigeration mode The first object angle answered;
In heating mode, control wind deflector is opened and adjusts the open angle of the wind deflector to opposite with the heating mode The second target angle answered.
20. the control method of air conditioner according to claim 19, which is characterized in that
Second target angle is greater than the first object angle.
21. the control method of air conditioner according to claim 8 or claim 9, which is characterized in that
The working temperature parameter includes inlet air temperature.
22. a kind of operating control device is suitable for air conditioner characterized by comprising processor, the processor execute meter The step of can be realized the control method restriction of the air conditioner as described in any one of claim 8 to 21 when calculation machine program.
23. a kind of air conditioner, which is characterized in that including operating control device as claimed in claim 22.
24. a kind of computer readable storage medium, is stored thereon with computer program, which is characterized in that the computer program It is performed, realizes step defined by the control method of the air conditioner as described in any one of claim 8 to 21.
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CN111780228A (en) * 2020-06-08 2020-10-16 海信(山东)空调有限公司 Air conditioner with single air outlet
WO2021168985A1 (en) * 2020-02-26 2021-09-02 广东美的制冷设备有限公司 Air conditioner, control method for air conditioner, and computer-readable storage medium
WO2021168984A1 (en) * 2020-02-26 2021-09-02 广东美的制冷设备有限公司 Air conditioner, air conditioner control method, and computer-readable storage medium
CN114274739A (en) * 2021-12-03 2022-04-05 华人运通(江苏)技术有限公司 Air outlet adjusting method, device and equipment of vehicle-mounted air conditioner and storage medium
CN114623585A (en) * 2020-12-09 2022-06-14 广东美的制冷设备有限公司 Air conditioner control method, air conditioner and readable storage medium
CN114623584A (en) * 2020-12-09 2022-06-14 广东美的制冷设备有限公司 Air conditioner control method, air conditioner and readable storage medium

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