CN107421078A - For controlling method and device, the air-conditioning of air-conditioning - Google Patents

Abstract

The invention discloses a kind of method for controlling air-conditioning, belong to air-conditioning technical field.This method includes：Under air conditioner refrigerating pattern, indoor temperature t and indoor humidity RH is gathered；Judge whether to meet condition according to the indoor temperature t and indoor humidity RH, if it is, controlling the rotating speed R of indoor fan according to indoor temperature t and indoor humidity RH, and the working frequency F of compressor is adjusted according to the rotating speed R of indoor fan.It is used to control the device of air-conditioning and a kind of air-conditioning the invention also discloses a kind of.

Description

For controlling method and device, the air-conditioning of air-conditioning

Technical field

The present invention relates to air-conditioning technical field, more particularly to a kind of method and device, air-conditioning for being used to control air-conditioning.

Background technology

The refrigerating capacity of air-conditioning is divided into sensible heat and latent heat two parts, and sensible heat mainly influences indoor temperature, and latent heat mainly influences room Interior humidity, therefore sensible heat and latent heat can influence the comfort level of people.How the temperature and humidity in control room is so as to allowing use There is more preferable experience at family, is the problem of attracting attention extensively at present.

Prior art discloses a kind of idle call time sharing temperature-humidity independent control, and this method includes：Judge whether indoor humidity is high In the setting humidity of air-conditioning；If higher than the setting humidity of air-conditioning, driving air-conditioning is dehumidified；If the setting for not being higher than air-conditioning is wet Degree, then air-conditioning is driven to be freezed；If the setting humidity higher than air-conditioning, driving air-conditioning performs dehumidifying, is specially：It is if high In the setting humidity of air-conditioning, then judge whether indoor temperature is higher than the design temperature of air-conditioning；If not being higher than the design temperature of air-conditioning, Then driving air-conditioning is individually dehumidified；If higher than the design temperature of air-conditioning, judge indoor temperature whether than air-conditioning setting temperature Spend high t₁Degree；Wherein, 1.5≤t₁≤3；If so, then improve the frequency of the compressor of air-conditioning；If it is not, then first reduce the blower fan of air-conditioning The frequency of the compressor of air-conditioning is improved after rotating speed.Although the prior art discloses can be kept by time sharing temperature-humidity independent control Indoor temperature and humidity, but this method disclose only the compressor for when higher than the design temperature of air-conditioning, improving air-conditioning Frequency；If it is not, then first reduce air-conditioning rotation speed of fan after improve air-conditioning compressor frequency.Those skilled in the art according to The disclosure of the prior art, scheme and the rotation speed of fan adjustment of more specific detailed compressor frequency adjustment can not be expected Scheme.

Another method for being used to control temperature and humidity, this method disclose following content disclosed in prior art：b. Calculate air-conditioning run time in cooling mode, when running between when reaching predetermined threshold value, it is current according to following condition criterion Whether need to carry out the working frequency of compressor limit frequency, if need to be adjusted indoor fan rotating speed：B1. it is if current Difference >=2 DEG C of indoor temperature and preset temperature, then to the working frequency of compressor without limit frequency, to the current of indoor fan Rotating speed does not adjust；B2. if 2 DEG C of the difference ＜ of 1 DEG C≤current indoor temperature and preset temperature, then to compressor work frequency Indoor fan rotating speed is reduced to a gear lower than current indoor rotation speed of fan by rate without limit frequency, and minimum low Gear is run；B3. if 1 DEG C of the difference ＜ of current indoor temperature and preset temperature, and current indoor relative humidity >=70%, then To the working frequency of compressor without limit frequency, but indoor fan rotating speed is reduced at most lower than current indoor rotation speed of fan Two gears, and minimum low gear is run；B4. if 1 DEG C of the difference ＜ of current indoor temperature and preset temperature, and currently Indoor relative humidity ＜ 70%, then limit frequency is carried out to the working frequency of compressor, while indoor fan rotating speed is reduced to than working as Preceding indoor fan rotating speed at most low two gears, and minimum low gear is run.Although the prior art discloses relative tool The compressor frequency Adjusted Option and rotation speed of fan Adjusted Option of body, i.e., under certain condition to working frequency carry out limit frequency or Gear regulation is carried out to wind speed, but limit frequency be only the working frequency for limiting compressor as fixed value, and wind speed is only simply divided into Fourth gear.As can be seen that the program is not fine to the working frequency of compressor and the adjustment process of wind speed.

The content of the invention

It is a kind of more smart to provide the embodiments of the invention provide a kind of method and device, air-conditioning for being used to control air-conditioning The control method of the frequency of the compressor of air conditioner of refinement and the rotation speed of fan of air-conditioning, to improve the effect of warm and humid dual control, so as to carry High Consumer's Experience.In order to which some aspects of the embodiment to disclosure have a basic understanding, simple summary shown below is. The summarized section is not extensive overview, nor to determine key/critical component or describe the protection model of these embodiments Enclose.Its sole purpose is that some concepts are presented with simple form, in this, as the preamble of following detailed description.

First aspect according to embodiments of the present invention, there is provided a kind of method for controlling air-conditioning, including：In air-conditioning system Under chill formula, indoor temperature t and indoor humidity RH is gathered；Judge whether to meet according to the indoor temperature t and indoor humidity RH Condition, if it is, controlling the rotating speed R of indoor fan according to indoor temperature t and indoor humidity RH, and turned according to indoor fan The working frequency F of fast R adjustment compressor.

Alternatively, the rotating speed R of indoor fan is controlled according to indoor temperature t and indoor humidity RH, including：According to indoor temperature T calculates first candidate's rotating speed of indoor fan；Second candidate's rotating speed of indoor fan is calculated according to indoor humidity RH；Take described Rotating speed R of the small person of value as indoor fan in one candidate's rotating speed and second candidate's rotating speed.

Alternatively, according to indoor temperature t and target temperature Tm temperature difference PT, and, indoor temperature change generated in case DT calculates indoor wind The rotating speed R of machine.

Alternatively, R=T_Ki × DT+T_Kp × PT；DT=t-t1, PT=t-Tm；T1 is the preceding Indoor Temperature once gathered Degree, T_Kp, T_Ki are respectively the weight coefficient set.

Alternatively, T_Ki selection is related to system configuration and ambient temperature, T_Kp selection and system configuration and Ambient temperature is related.The span that T_Ki span is 10~100, T_Kp is 10~80.Preferably, T_Ki= 30th, 40,50,60 or 70；T_Kp=30,40,50,60 or 70.

Alternatively, according to indoor humidity RH and target humidity RHm psychrometric difference Prh, and, indoor humidity change Drh is calculated The rotating speed R of indoor fan.

Alternatively, R=RH_Ki × Drh+RH_Kp × Prh；Prh=RH-RHm, Drh=RH-RH1；RH1 once adopts to be preceding The indoor humidity of collection, RH_Kp, RH_Ki are respectively the weight coefficient set.

Alternatively, RH_Ki selection is related to system configuration and ambient temperature, RH_Kp selection and system configuration It is related to ambient temperature.The span that RH_Ki span is 10~100, RH_Kp is 10~80.Preferably, RH_Ki=20,30,40 or 50；RH_Kp=30,40,50,60 or 70.

Alternatively, when calculating indoor fan rotating speed R be more than rotating speed higher limit, then the rotating speed R of indoor fan is set Be set to the higher limit, when calculating indoor fan rotating speed R be less than rotating speed lower limit, then the rotating speed R of indoor fan is set It is set to the lower limit.

Alternatively, the working frequency F of compressor is adjusted according to the rotating speed R of indoor fan, including：The rotating speed R of indoor fan Higher, the frequency of compressor is higher.

Alternatively, when the indoor temperature t and design temperature T temperature difference t is less than the second setting temperature difference T2 and described When indoor humidity RH is located at beyond target humidity scope (RH1, RH2), meet condition；Wherein, the second setting temperature difference T2 More than zero.

Alternatively, the target humidity scope (RH1, RH2) associates with the design temperature T-phase.

Alternatively, in addition to：When the indoor temperature t and design temperature T temperature difference t is less than the described second setting temperature difference Δ T2 and when the indoor humidity RH is located within target humidity scope (RH1, RH2), keep the indoor fan rotating speed R and The working frequency F of the compressor is constant.

Alternatively, in addition to：When the indoor temperature t and design temperature T temperature difference t is more than or equal to the second setting temperature Poor Δ T2 and less than first setting temperature difference T1 when, the working frequency F of the compressor is adjusted to a setpoint frequency f1.

Alternatively, in addition to：When the temperature difference t is more than or equal to the described first setting temperature difference T1, described in lifting The working frequency F of the compressor and/or rotating speed R of the indoor fan, to reduce indoor temperature.

Second aspect according to embodiments of the present invention, there is provided a kind of device for being used to control air-conditioning, including for gathering room Interior temperature t temperature sensor and the humidity sensor for gathering indoor humidity RH, and micro-control unit (Microcontroller Unit, MCU), the MCU includes：Judging unit, in cooling mode according to the temperature The indoor temperature t of sensor collection and the indoor humidity RH of humidity sensor collection judge whether to meet condition；Regulation is single Member, for when judging unit judges to meet condition, the rotating speed of indoor fan to be controlled according to indoor temperature t and indoor humidity RH R, and according to the working frequency F of the rotating speed R of indoor fan adjustment compressors.

Alternatively, the MCU also includes：Computing unit, for calculating the first candidate of indoor fan according to indoor temperature t Rotating speed；Second candidate's rotating speed of indoor fan is calculated according to indoor humidity RH；The first candidate rotating speed and the second candidate is taken to turn Rotating speed R of the small person of value as indoor fan in speed.

Alternatively, the computing unit, for the temperature difference PT according to indoor temperature t and target temperature Tm, and, indoor temperature Change the rotating speed R that DT calculates indoor fan.

Alternatively, R=T_Ki × DT+T_Kp × PT；DT=t-t1, PT=t-Tm；T1 is the preceding Indoor Temperature once gathered Degree, T_Kp, T_Ki are respectively the weight coefficient set.

Alternatively, T_Ki selection is related to system configuration and ambient temperature, T_Kp selection and system configuration and Ambient temperature is related.The span that T_Ki span is 10~100, T_Kp is 10~80.Preferably, T_Ki= 30th, 40,50,60 or 70；T_Kp=30,40,50,60 or 70.

Alternatively, the computing unit, for the psychrometric difference Prh according to indoor humidity RH and target humidity RHm, and, room Interior humidity change Drh calculates the rotating speed R of indoor fan.

Alternatively, R=RH_Ki × Drh+RH_Kp × Prh；Prh=RH-RHm, Drh=RH-RH1；RH1 once adopts to be preceding The indoor humidity of collection, RH_Kp, RH_Ki are respectively the weight coefficient set.

Alternatively, RH_Ki selection is related to system configuration and ambient temperature, RH_Kp selection and system configuration It is related to ambient temperature.The span that RH_Ki span is 10~100, RH_Kp is 10~80.Preferably, RH_Ki=20,30,40 or 50；RH_Kp=30,40,50,60 or 70.

Alternatively, when calculating indoor fan rotating speed R be more than rotating speed higher limit, then the rotating speed R of indoor fan is set Be set to the higher limit, when calculating indoor fan rotating speed R be less than rotating speed lower limit, then the rotating speed R of indoor fan is set It is set to the lower limit.

Alternatively, the working frequency F of compressor is adjusted according to the rotating speed R of indoor fan, including：The rotating speed R of indoor fan Higher, the frequency of compressor is higher.

Alternatively, when the indoor temperature t and design temperature T temperature difference t is less than the second setting temperature difference T2 and described When indoor humidity RH is located at beyond target humidity scope (RH1, RH2), meet condition；Wherein, the second setting temperature difference T2 More than zero.

Alternatively, the target humidity scope (RH1, RH2) associates with the design temperature T-phase.

Alternatively, when the indoor temperature t and design temperature T temperature difference t be less than the described second setting temperature difference T2 and When the indoor humidity RH is located within target humidity scope (RH1, RH2), the rotating speed R of the indoor fan and the pressure are kept The working frequency F of contracting machine is constant.

Alternatively, the adjustment unit, it is additionally operable to when the indoor temperature t and design temperature T temperature difference t is more than or waited When setting temperature difference T2 in second and setting temperature difference T1 less than first, the working frequency F of the compressor is adjusted to one and set Determine frequency f1.

Alternatively, the adjustment unit, it is additionally operable to when the temperature difference t is more than or equal to the described first setting temperature difference T1 When, the working frequency F of the compressor and/or rotating speed R of the indoor fan is lifted, to reduce indoor temperature.

The third aspect according to embodiments of the present invention, there is provided a kind of air-conditioning, including compressor and indoor fan, in addition to appoint Device described in one.

Technical scheme provided in an embodiment of the present invention can include the following benefits：

The method for providing a kind of frequency of control compressor of air conditioner to become more meticulous and the rotation speed of fan of air-conditioning, in refrigeration mould Under formula, real-time indoor temperature and indoor humidity are gathered, judges whether to need that the running status of air-conditioning is adjusted, comprehensive room The rotating speed of indoor fan is adjusted for interior humidity and indoor humidity, and then adjusts the working frequency of compressor, so that indoor wet Degree and indoor temperature are respectively positioned in the target zone of setting, can effectively be controlled latent heat/sensible heat ratio, be improved the effect of warm and humid dual control Fruit, while improve Consumer's Experience.

It should be appreciated that the general description and following detailed description of the above are only exemplary and explanatory, not Can the limitation present invention.

Brief description of the drawings

Accompanying drawing herein is merged in specification and forms the part of this specification, shows the implementation for meeting the present invention Example, and for explaining principle of the invention together with specification.

Fig. 1 is a kind of schematic flow sheet for being used to control the method for air-conditioning according to an exemplary embodiment；

Fig. 2 is a kind of schematic flow sheet for being used to control the method for air-conditioning according to an exemplary embodiment；

Fig. 3 is a kind of structured flowchart for being used to control the device of air-conditioning according to an exemplary embodiment；

Fig. 4 is a kind of structured flowchart for being used to control the device of air-conditioning according to an exemplary embodiment.

Embodiment

The following description and drawings fully show specific embodiments of the present invention, to enable those skilled in the art to Put into practice them.Embodiment only represents possible change.Unless explicitly requested, otherwise single components and functionality is optional, and And the order of operation can change.The part of some embodiments and feature can be included in or replace other embodiments Part and feature.The scope of embodiment of the present invention includes the gamut of claims, and the institute of claims There is obtainable equivalent.Herein, each embodiment can individually or generally be represented that this is only with term " invention " It is merely for convenience, and if in fact disclosing the invention more than one, it is not meant to automatically limit the scope of the application For any single invention or inventive concept.Herein, such as first and second or the like relational terms are used only for one Entity or operation make a distinction with another entity or operation, exist without requiring or implying between these entities or operation Any actual relation or order.Moreover, term " comprising ", "comprising" or its any other variant be intended to it is non-exclusive Property includes, so that process, method or equipment including a series of elements not only include those key elements, but also including Each embodiment is described the other element being not expressly set out by the way of progressive herein, what each embodiment stressed All be the difference with other embodiment, between each embodiment identical similar portion mutually referring to.For embodiment For disclosed structure, product etc., due to its with embodiment disclosed in part it is corresponding, it is related so description is fairly simple Part is referring to method part illustration.

The refrigerating capacity of air-conditioning is divided into sensible heat and latent heat two parts, and sensible heat mainly influences indoor temperature, and latent heat mainly influences room Interior humidity, therefore sensible heat and latent heat can influence the comfort level of people.When room temperature differential is big, it is intended that room temperature is most Fast to reduce, now the sensible heat accounting of air-conditioning is the bigger the better.After room temperature is close or reaches design temperature, if humidity Greatly, it is necessary to when dehumidifying, the latent heat accounting of air-conditioning is now needed to be the bigger the better.In the present embodiment, wind in control room is passed through The rotating speed of machine and the working frequency of compressor can effectively control latent heat/sensible heat ratio, to reach the effect of dehumidifying and cooling.And And by reasonably controlling latent heat/sensible heat ratio, warm and humid dual control can be accomplished, by indoor humidity and indoor temperature control in setting Target zone.

Fig. 1 is a kind of flow chart for being used to control the method for air-conditioning according to an exemplary embodiment.Such as Fig. 1 institutes Show, including：

Step S101, under air conditioner refrigerating pattern, gather indoor temperature t and indoor humidity RH.

In the present embodiment, control panel on indoor apparatus of air conditioner or can have to air-conditioning by air-conditioning remote control Air conditioning operating mode is adjusted the mobile terminal of distant control function, such as：By clicking on the refrigeration mode button control on remote control Operation of air conditioner refrigeration mode processed.

Air-conditioning is typically installed in the interior spaces such as parlor, bedroom and meeting room, and therefore, acquired in step S101 is It is the current temperature value of the interior spaces such as parlor, bedroom or meeting room that air-conditioning is installed, that is to say and obtained in this flow The real-time indoor temperature t taken.

Air-conditioning is provided with temperature sensor, for detecting the current temperature value of indoor environment.The induction end of temperature sensor It can be arranged on the air inlet or casing outer wall of air-conditioning, so that the current temperature value of its detection can be with the reality of indoor environment Temperature is same or like, so as to improve the present invention according to current indoor temperature temperature value to the compressor operating frequency of air-conditioning and room The precision of the adjustment of rotational speed of inner blower.

Air-conditioning is provided with humidity sensor, for detecting the current humidity value of indoor environment, that is to say institute in this flow The real-time indoor humidity RH obtained.The induction end of humidity sensor can be arranged at the air inlet or casing outer wall of air-conditioning On, so that the current wet value of its detection can be same or like with the actual humidity of indoor environment, work as so as to improve present invention foundation Humidity value is to the compressor operating frequency of air-conditioning and the precision of the adjustment of rotational speed of indoor fan in cup.

Step S102, judge whether to meet condition according to the indoor temperature t and indoor humidity RH, if it is, according to The rotating speed R of indoor temperature t and indoor humidity RH control indoor fans, and according to the work of the rotating speed R of indoor fan adjustment compressors Working frequency F.

Air-conditioning system is preset with Rule of judgment for indoor temperature t and indoor humidity RH, the room gathered according to step S101 Interior temperature t and indoor humidity RH judge whether to meet condition, if it is satisfied, then being controlled according to indoor temperature t and indoor humidity RH The rotating speed R of indoor fan, and according to the working frequency F of the rotating speed R of indoor fan adjustment compressors, so that indoor humidity and interior Temperature is respectively positioned in the target zone of setting.Comprehensive indoor temperature t and indoor humidity RH counts to the rotating speed R of indoor fan Calculate, improve the degree of accuracy of air-conditioning regulation, air-conditioning is in optimal operational condition, be effectively saved power consumption.

In the present embodiment, there is provided a kind of frequency of control compressor of air conditioner to become more meticulous and the rotation speed of fan of air-conditioning Method, in cooling mode, real-time indoor temperature and indoor humidity are gathered, judge whether to need to enter the running status of air-conditioning The rotating speed of indoor fan is adjusted for row regulation, comprehensive indoor humidity and indoor humidity, and then adjusts the work frequency of compressor Rate, so that indoor humidity and indoor temperature are respectively positioned in the target zone of setting, latent heat/sensible heat ratio can be effectively controlled, is carried The effect of high warm and humid dual control, while improve Consumer's Experience.

In certain embodiments, in step s 102, judge whether to meet according to the indoor temperature t and indoor humidity RH Condition, if it is, controlling the rotating speed R of indoor fan according to indoor temperature t, and adjusted and compressed according to the rotating speed R of indoor fan The working frequency F of machine, so that indoor humidity and indoor temperature are respectively positioned in the target zone of setting.

In certain embodiments, in step s 102, judge whether to meet according to the indoor temperature t and indoor humidity RH Condition, if it is, controlling the rotating speed R of indoor fan according to indoor humidity RH, and adjusted and compressed according to the rotating speed R of indoor fan The working frequency F of machine, so that indoor humidity and indoor temperature are respectively positioned in the target zone of setting.

In foregoing any embodiment, indoor target temperature is corresponding with target humidity scope (RH1, RH2), here, can be The corresponding relation of indoor target temperature value and target humidity scope (RH1, RH2) is pre-saved in air-conditioning system, i.e., for each Indoor target temperature, multiple human bodies can be tested, the humidity of human body sensory the most comfortable corresponding to acquisition, obtain mesh indoors In the setting regions for marking temperature, the humidity value corresponding with the setting comfortable grade of body-sensing of multiple human body collecting samples, and according to more Individual humidity value, it is determined that target humidity scope (RH1, RH2) corresponding with indoor target temperature, and preserve corresponding relation.Such as：Room Interior target temperature is 25 DEG C, and now, for humidity between relative humidity 40%~60%, most of user can feel most comfortable, because This, can determine humidity 40%~60% with setting the target humidity scope corresponding to 25 DEG C of temperature, and preserve indoor target temperature Corresponding relation between 25 ° and target humidity scope 40%~60%.

So as to which the corresponding relation of the indoor target temperature pre-saved in air-conditioning system and target humidity scope can be such as table 1 It is shown：

Table 1

Indoor target temperature	Target humidity scope
		30℃	Humidity 30%~50%
28℃	Humidity 30%~60%
		…	…
25℃	Humidity 40%~60%
		…	…

According to corresponding relation shown in table 1, it is determined that current goal humidity range corresponding with air-conditioning current indoor target temperature (RH1, RH2).As shown in table 1, for the temperature currently set as 28 °, then the current goal humidity range obtained is 30%~60%.

Indoor temperature can constantly change during operation of air conditioner, need to control indoor temperature one for full user's request Determine in scope.Indoor temperature target zone depends on the indoor target temperature of user's setting, the indoor objects set according to user Temperature and the temperature fluctuation value of systemic presupposition determine.Wherein, indoor target temperature by user by air-conditioning remote control, in air conditioning chamber Control panel on machine or the mobile terminal to air-conditioning with distant control function are set.Such as：The temperature fluctuation value of systemic presupposition For 2 DEG C, the indoor target temperature that user sets is 28 DEG C, then indoor temperature target zone is (26 DEG C, 30 DEG C).

In certain embodiments, according to indoor temperature t and target temperature Tm temperature difference PT, and, indoor temperature change generated in case DT meters Calculate the rotating speed R of indoor fan.Specifically, the rotating speed R of indoor fan is determined according to equation below (1)：

R=T_Ki × DT+T_Kp × PT； (1)

Wherein, DT=t-t1, PT=t-Tm；T1 is the preceding indoor temperature once gathered, and T_Ki, T_Kp are respectively what is set Weight coefficient.

Wherein, T_Ki selection is related to system configuration and ambient temperature, and T_Kp selection is with system configuration and outside Boundary's environment temperature is related.Such as：Ambient temperature is higher, and T_Ki or T_Kp value are higher.Ambient temperature is high, to reach The amplitude that target temperature or humidity are adjusted to parameters needs is bigger, therefore weight coefficient is bigger.Ambient temperature includes Indoor environment temperature or outdoor environment temperature.In system configuration, T_Ki and T_Kp selection and throttling arrangement be capillary or Expansion valve, the discharge capacity performance or condenser of compressor are related to the size of evaporator.

Wherein, the span that T_Ki span is 10~100, T_Kp is 10~80.Preferably, T_Ki=30, 40th, 50,60 or 70；T_Kp=30,40,50,60 or 70.Such as：Work as T_Ki=5, T_Kp=7, PT=10, during DT=2, according to Formula (1)：F=5 × 2+7 × 10=800, unit r/min.

In certain embodiments, according to indoor humidity RH and target humidity RHm psychrometric difference Prh, and, indoor humidity change Drh calculates the rotating speed R of indoor fan.

R=RH_Ki × Drh+RH_Kp × Prh； (2)

Wherein, Prh=RH-RHm, Drh=RH-RH1；RH1 is the preceding indoor humidity once gathered, and RH_Kp, RH_Ki divide The weight coefficient that Wei do not set.

Wherein, RH_Ki selection is related to system configuration and ambient temperature, RH_Kp selection and system configuration and Ambient temperature is related.Such as：Ambient temperature is higher, and RH_Ki or RH_Kp value are bigger.Ambient temperature is high, is It is bigger to reach the amplitude that target temperature or humidity are adjusted to parameters needs, therefore weight coefficient is bigger.Ambient temperature Including indoor environment temperature or outdoor environment temperature.In system configuration, RH_Ki and RH_Kp selection and throttling arrangement are hair Tubule or expansion valve, the discharge capacity performance or condenser of compressor are related to the size of evaporator.

Wherein, the span that RH_Ki span is 10~100, RH_Kp is 10~80.Preferably, RH_Ki= 20th, 30,40 or 50；RH_Kp=30,40,50,60 or 70.Such as：Work as RH_Ki=20, RH_Kp=40, Drh=5, Prh= 20, when, according to formula (2)：F=20 × 5+40 × 20=900, unit are that unit is r/min.

In certain embodiments, first, first candidate's rotating speed of indoor fan is calculated by formula (1) according to indoor temperature t； Secondly, second candidate's rotating speed of indoor fan is calculated by formula (2) according to indoor humidity RH；Finally, first candidate is taken to turn Rotating speed R of the small person of value as indoor fan in speed and second candidate's rotating speed.Comprehensive different parameters enter to the rotating speed of indoor fan Row calculates, and further increases the precision of air-conditioning regulation.

In certain embodiments, air-conditioning system is provided with the range of speeds of indoor fan.When turn of the indoor fan of calculating When fast R is more than the higher limit of setting, the rotating speed R of indoor fan is arranged to the higher limit；When turn of the indoor fan of calculating When fast R is less than the lower limit of setting, the rotating speed R of indoor fan is arranged to the lower limit.To ensure the operational efficiency of air-conditioning, Extend the service life of air-conditioning indoor fan.Preferably, the rotating speed R scopes of indoor fan are (500r/min, 1000r/min). Such as：When the rotating speed R scopes of default indoor fan are (500r/min, 1000r/min), if drawn according to formula (1) or (2) When the rotating speed R of indoor fan is 450r/min, then the rotating speed R for adjusting indoor fan is the lower limit 500r/min of setting；If root When the rotating speed R of the indoor fan drawn according to formula (1) or (2) is 1050r/min, then the rotating speed R for adjusting indoor fan is setting 1000r/min.

In foregoing any embodiment, it is determined that after the rotating speed R of indoor fan, adjusted according to the rotating speed R of indoor fan The working frequency F of compressor, including：The rotating speed R of indoor fan is higher, and the frequency of compressor is higher.

A kind of optional mode is closed by the way that the rotating speed R of default indoor fan is corresponding with the working frequency F of compressor System, tables look-up and obtains the working frequency F of compressor, and specific corresponding relation is as shown in table 2：

Table 2

The working frequency of compressor corresponding to the range of speeds difference of indoor fan is different, and indoor fan high wind speed section is corresponding Compressor working frequency it is high, because while wind speed is lower under certain frequency, moisture removal is bigger, but in high-frequency section The too low risk that can cause indoor set coil freeze of wind speed.

Another optional mode is, by way of calculating, specifically, according to equation below (3), by indoor fan The working frequency F of compressor is calculated in rotating speed R：

F=R/15-15. (3)

As shown in Fig. 2 be the method for the airconditioning control provided according to an embodiment, including step S101, in air conditioner refrigerating Under pattern, indoor temperature t and indoor humidity RH is gathered, when the indoor temperature t and design temperature T temperature difference t is less than second When setting temperature difference T2 and the indoor humidity RH are located at beyond target humidity scope (RH1, RH2), step S201 is performed, works as institute The temperature difference t for stating indoor temperature t and design temperature T is located at mesh less than the described second setting temperature difference T2 and the indoor humidity RH When marking within humidity range (RH1, RH2), step S202 is performed, when the indoor temperature t and design temperature T temperature difference t is big When setting temperature difference T2 in or equal to second and temperature difference T1 is set less than first, step S203 is performed, when the temperature difference t is big When the first setting temperature difference T1, step S204 is performed.

Air-conditioning is preset with the setting temperature differences of the first setting temperature difference T1 and second T2.Wherein, first setting temperature difference T1 and Second setting temperature difference T2 is more than zero.First setting temperature difference T1 is more than the second setting temperature difference T2.

In step s 201, temperature difference T2 is set when the indoor temperature t and design temperature T temperature difference t is less than second, And the indoor humidity RH meets condition, i.e. t-T when being located at beyond target humidity scope (RH1, RH2)<Δ T2, and RH (RH1, RH2), now, the rotating speed R of indoor fan is controlled according to indoor temperature t and indoor humidity RH, and according to the rotating speed R of indoor fan The working frequency F of compressor is adjusted, so that indoor humidity and indoor temperature are respectively positioned in the target zone of setting.

In certain embodiments, in step s 201, when the indoor temperature t and design temperature T temperature difference t are less than the Two setting temperature difference T2, and the indoor humidity RH be located at target humidity scope (RH1, RH2) in addition when meet condition, i.e. t-T< Δ T2, and RH (RH1, RH2), now, the rotating speed R of indoor fan is controlled according to indoor temperature t, and according to the rotating speed of indoor fan R adjusts the working frequency F of compressor, so that indoor humidity and indoor temperature are respectively positioned in the target zone of setting.

In certain embodiments, in step s 201, when the indoor temperature t and design temperature T temperature difference t are less than the Two setting temperature difference T2, and the indoor humidity RH be located at target humidity scope (RH1, RH2) in addition when meet condition, i.e. t-T< Δ T2, and RH (RH1, RH2), now, judge whether to meet condition according to the indoor temperature t and indoor humidity RH, if it is, The rotating speed R of indoor fan is then controlled according to indoor humidity RH, and the working frequency of compressor is adjusted according to the rotating speed R of indoor fan F, so that indoor humidity and indoor temperature are respectively positioned in the target zone of setting.

In step S202, when the indoor temperature t and design temperature T temperature difference t is less than the described second setting temperature difference Δ T2, and condition, i.e. t-T are unsatisfactory for when the indoor humidity RH is located within target humidity scope (RH1, RH2)<Δ T2, and RH ∈ [RH1, RH2], now, keep the indoor fan rotating speed R and the compressor working frequency F it is constant.

In step S203, when the indoor temperature t and design temperature T temperature difference t is more than or equal to the second setting temperature Poor Δ T2 and less than first setting temperature difference T1, i.e. Δ T2≤t-T<During Δ T1, by the working frequency F of the compressor adjust to One setpoint frequency f1.

In certain embodiments, setpoint frequency f1 is the 70% of compressor highest frequency.

In the aforementioned embodiment, when the temperature difference t is more than or equal to the described first setting temperature difference T1, i.e. t-T >=Δ During T1, the working frequency F of the compressor is lifted, to reduce indoor temperature.

In further embodiments, when the temperature difference t be more than or equal to described first setting temperature difference T1, i.e. t-T >= During Δ T1, the rotating speed R of the indoor fan is lifted, to reduce indoor temperature.

In further embodiments, when the temperature difference t be more than or equal to described first setting temperature difference T1, i.e. t-T >= During Δ T1, the working frequency F of the compressor is lifted, while lifts the rotating speed R of the indoor fan, to accelerate to reduce Indoor Temperature The speed of degree.

Following is embodiment of the present disclosure, can be used for performing embodiments of the present disclosure.

Fig. 3 is a kind of structured flowchart for being used to control the device of air-conditioning according to an exemplary embodiment.Such as Fig. 3 institutes Show, including：Temperature sensor 301, humidity sensor 302 and MCU303, MCU303 include：Judging unit 3031 and adjustment unit 3032。

Temperature sensor 301, for gathering indoor temperature t.

Humidity sensor 302, for gathering indoor humidity RH.

In the present embodiment, the induction end of temperature sensor is arranged on the air inlet or casing outer wall of air-conditioning, humidity The induction end of sensor is arranged on the air inlet or casing outer wall of air-conditioning.

Judging unit 3031, for judging whether to meet condition according to the indoor temperature t and indoor humidity RH.

Adjustment unit 3032, for when judging unit judges to meet condition, according to indoor temperature t and indoor humidity RH The rotating speed R of indoor fan is controlled, and the working frequency F of compressor is adjusted according to the rotating speed R of indoor fan.So that indoor humidity and Indoor temperature is respectively positioned in the target zone of setting.

In the present embodiment, in cooling mode, temperature sensor gathers real-time indoor temperature and adopted with humidity sensor Collect real-time indoor humidity, judge whether to need that the running status of air-conditioning is adjusted by judging unit, adjustment unit The rotating speed of indoor fan is adjusted for comprehensive indoor temperature and indoor humidity, and then adjusts the working frequency of compressor, so that Indoor humidity and indoor temperature are respectively positioned in the target zone of setting, can effectively control latent heat/sensible heat ratio, are improved warm and humid double The effect of control, while improve Consumer's Experience.

In certain embodiments, adjustment unit 3032, for when judging unit judges to meet condition, according to Indoor Temperature The rotating speed R of t control indoor fans is spent, and the working frequency F of compressor is adjusted according to the rotating speed R of indoor fan, so that indoor wet Degree and indoor temperature are respectively positioned in the target zone of setting.

In certain embodiments, adjustment unit 3032, for when judging unit judges to meet condition, according to Indoor Temperature The rotating speed R of t and indoor humidity RH control indoor fans is spent, and the working frequency of compressor is adjusted according to the rotating speed R of indoor fan F, so that indoor humidity and indoor temperature are respectively positioned in the target zone of setting.

In certain embodiments, as shown in figure 4, device for controlling air-conditioning, in addition to：Computing unit 401.

Computing unit 401, it is initially used for being calculated first candidate's rotating speed of indoor fan by formula (1) according to indoor temperature t； Secondly second candidate's rotating speed of indoor fan is calculated by formula (2) according to indoor humidity RH；Finally, the first candidate rotating speed is taken With rotating speed R of the small person of value as indoor fan in second candidate's rotating speed.Comprehensive different parameters are carried out to the rotating speed of indoor fan Calculate, further increase the precision of air-conditioning regulation.

In certain embodiments, computing unit 401, for the temperature difference PT according to indoor temperature t and target temperature Tm, and, Indoor temperature change generated in case DT calculates the rotating speed R of indoor fan.The rotating speed R of indoor fan is specifically calculated according to formula (1).

In certain embodiments, computing unit 401, for the psychrometric difference according to indoor humidity RH and target humidity RHm Prh, and, indoor humidity change Drh calculates the rotating speed R of indoor fan.The rotating speed of indoor fan is specifically calculated according to formula (2) R。

In foregoing any embodiment, adjustment unit 3032, in the result of calculation regulation room according to computing unit 401 The rotating speed R of blower fan.

In certain embodiments, air-conditioning system is provided with the range of speeds of indoor fan, when the room that computing unit 401 calculates When the rotating speed R of inner blower is more than the higher limit of setting, the rotating speed R of indoor fan is arranged to the higher limit；When the room of calculating When the rotating speed R of inner blower is less than the lower limit of setting, the rotating speed R of indoor fan is arranged to the lower limit.To ensure air-conditioning Operational efficiency, extend air-conditioning indoor fan service life.

Adjustment unit 3032, the working frequency F, the rotating speed R of indoor fan of compressor are adjusted according to the rotating speed R of indoor fan Higher, the frequency of compressor is higher.

A kind of optional mode is closed by the way that the rotating speed R of default indoor fan is corresponding with the working frequency F of compressor System, the working frequency F of compressor is obtained according to table 2.

Another optional mode is, by computing unit 401 according to formula (3), pressure to be determined by the rotating speed R of indoor fan The working frequency F of contracting machine.

In certain embodiments, when the indoor temperature t and design temperature T temperature difference t is less than the second setting temperature difference When T2 and the indoor humidity RH are located at beyond target humidity scope (RH1, RH2), meet condition, now computing unit 401, use In the first candidate's rotating speed for calculating indoor fan by formula (1) according to indoor temperature t；Counted according to indoor humidity RH by formula (2) Calculate second candidate's rotating speed of indoor fan；The small person of value in the first candidate rotating speed and second candidate's rotating speed is taken as indoor wind The rotating speed R of machine, adjustment unit 3032, for adjusting the rotating speed of indoor fan according to the result of calculation of computing unit 401.

In certain embodiments, when the indoor temperature t and design temperature T temperature difference t is less than the second setting temperature difference When T2 and the indoor humidity RH are located at beyond target humidity scope (RH1, RH2), meet condition, now computing unit 401, use In the rotating speed R for calculating indoor fan by formula (1) according to indoor temperature t, adjustment unit 3032, for according to computing unit 401 Result of calculation regulation indoor fan rotating speed.

In certain embodiments, when the indoor temperature t and design temperature T temperature difference t is less than the second setting temperature difference When T2 and the indoor humidity RH are located at beyond target humidity scope (RH1, RH2), meet condition, now computing unit 401, use In the rotating speed R for calculating indoor fan by formula (2) according to indoor humidity RH, adjustment unit 3032, for according to computing unit 401 Result of calculation regulation indoor fan rotating speed.

In certain embodiments, when the indoor temperature t and design temperature T temperature difference t is less than the described second setting temperature Poor Δ T2 and when the indoor humidity RH is located within target humidity scope (RH1, RH2), keeps the rotating speed R of the indoor fan It is constant with the working frequency F of the compressor.

In certain embodiments, adjustment unit 3032, it is additionally operable to the temperature difference t with design temperature T as the indoor temperature t During more than or equal to the second setting temperature difference T2 and less than the first setting temperature difference T1, the working frequency F of the compressor is adjusted It is whole to a setpoint frequency f1.

In certain embodiments, setpoint frequency f1 is the 70% of compressor highest frequency.

In certain embodiments, adjustment unit 3032, it is additionally operable to when the temperature difference t is more than or equal to the described first setting During temperature difference T1, the working frequency F of the compressor is lifted, to reduce indoor temperature.

In further embodiments, adjustment unit 3032, it is additionally operable to when the temperature difference t is set more than or equal to described first When determining temperature difference T1, the rotating speed R of the indoor fan is lifted, to reduce indoor temperature.

In further embodiments, adjustment unit 3032, it is additionally operable to when the temperature difference t is set more than or equal to described first When determining temperature difference T1, the working frequency F of the compressor is lifted, while lifts the rotating speed R of the indoor fan, to accelerate to reduce The speed of indoor temperature.

The disclosure also includes a kind of air-conditioning, including compressor and indoor fan, in addition to described in foregoing any embodiment Device.

It should be appreciated that the invention is not limited in the flow and structure for being described above and being shown in the drawings, And various modifications and changes can be being carried out without departing from the scope.The scope of the present invention is only limited by appended claim System.

Claims (11)

1. A kind of 1. method for airconditioning control, it is characterised in that including：

   Under air conditioner refrigerating pattern, indoor temperature t and indoor humidity RH is gathered；

   Judge whether to meet condition according to the indoor temperature t and indoor humidity RH, if it is, according to indoor temperature t and room The rotating speed R of interior humidity RH controls indoor fan, and according to the working frequency F of the rotating speed R of indoor fan adjustment compressors.
2. 2. the method as described in claim 1, it is characterised in that indoor fan is controlled according to indoor temperature t and indoor humidity RH Rotating speed R, including：

   First candidate's rotating speed of indoor fan is calculated according to indoor temperature t；

   Second candidate's rotating speed of indoor fan is calculated according to indoor humidity RH；

   Take rotating speed R of the small person of value as indoor fan in the first candidate rotating speed and second candidate's rotating speed.
3. 3. method as claimed in claim 2, it is characterised in that when the indoor temperature t and design temperature T temperature difference t is small In second setting temperature difference T2 and the indoor humidity RH be located at target humidity scope (RH1, RH2) in addition when, meet condition；Its In, the second setting temperature difference T2 is more than zero.
4. 4. method as claimed in claim 3, it is characterised in that also include：When the indoor temperature t and design temperature T temperature Poor Δ t is less than the described second setting temperature difference T2 and the indoor humidity RH is when being located within target humidity scope (RH1, RH2), Keep the indoor fan rotating speed R and the compressor working frequency F it is constant.
5. 5. method as claimed in claim 4, it is characterised in that also include：When the indoor temperature t and design temperature T temperature When poor Δ t is more than or equal to the second setting temperature difference T2 and temperature difference T1 is set less than first, by the work frequency of the compressor Rate F is adjusted to a setpoint frequency f1.
6. 6. a kind of device for airconditioning control, including for gathering indoor temperature t temperature sensor and for gathering interior Humidity RH humidity sensor, and micro-control unit MCU, it is characterised in that the MCU includes：

   Judging unit, for the indoor temperature t gathered in cooling mode according to the temperature sensor and the humidity sensor The indoor humidity RH of device collection judges whether to meet condition；

   Adjustment unit, for when judging unit judges to meet condition, according in indoor temperature t and indoor humidity RH control rooms The rotating speed R of blower fan, and according to the working frequency F of the rotating speed R of indoor fan adjustment compressors.
7. 7. device as claimed in claim 6, it is characterised in that the MCU also includes：

   Computing unit, for calculating first candidate's rotating speed of indoor fan according to indoor temperature t；According to indoor humidity RH counting chambers Second candidate's rotating speed of inner blower；The small person of value in the first candidate rotating speed and second candidate's rotating speed is taken as indoor fan Rotating speed R.
8. 8. device as claimed in claims 6 or 7, it is characterised in that as the indoor temperature t and design temperature T temperature difference t Less than second setting temperature difference T2 and the indoor humidity RH be located at target humidity scope (RH1, RH2) in addition when, meet condition； Wherein, the second setting temperature difference T2 is more than zero.
9. 9. device as claimed in claim 8, it is characterised in that when the indoor temperature t and design temperature T temperature difference t is small In described second setting temperature difference T2 and the indoor humidity RH be located within target humidity scope (RH1, RH2) when, holding institute State indoor fan rotating speed R and the compressor working frequency F it is constant.
10. 10. device as claimed in claim 9, it is characterised in that the adjustment unit, be additionally operable to when the indoor temperature t with When design temperature T temperature difference t is more than or equal to the second setting temperature difference T2 and temperature difference T1 is set less than first, by the pressure The working frequency F of contracting machine is adjusted to a setpoint frequency f1.
11. 11. a kind of air-conditioning, including compressor and indoor fan, it is characterised in that also include such as any one of claim 6 to 10 institute The device for airconditioning control stated.