CN106839335A - Air-conditioner and mobile terminal - Google Patents
Air-conditioner and mobile terminal Download PDFInfo
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- CN106839335A CN106839335A CN201710132276.9A CN201710132276A CN106839335A CN 106839335 A CN106839335 A CN 106839335A CN 201710132276 A CN201710132276 A CN 201710132276A CN 106839335 A CN106839335 A CN 106839335A
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F2110/00—Control inputs relating to air properties
- F24F2110/10—Temperature
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/30—Control or safety arrangements for purposes related to the operation of the system, e.g. for safety or monitoring
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/62—Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/70—Control systems characterised by their outputs; Constructional details thereof
- F24F11/72—Control systems characterised by their outputs; Constructional details thereof for controlling the supply of treated air, e.g. its pressure
- F24F11/74—Control systems characterised by their outputs; Constructional details thereof for controlling the supply of treated air, e.g. its pressure for controlling air flow rate or air velocity
- F24F11/77—Control systems characterised by their outputs; Constructional details thereof for controlling the supply of treated air, e.g. its pressure for controlling air flow rate or air velocity by controlling the speed of ventilators
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F2110/00—Control inputs relating to air properties
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F2110/00—Control inputs relating to air properties
- F24F2110/20—Humidity
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/50—Control or safety arrangements characterised by user interfaces or communication
- F24F11/52—Indication arrangements, e.g. displays
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/62—Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
- F24F11/63—Electronic processing
- F24F11/64—Electronic processing using pre-stored data
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F2110/00—Control inputs relating to air properties
- F24F2110/10—Temperature
- F24F2110/12—Temperature of the outside air
-
- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B30/00—Energy efficient heating, ventilation or air conditioning [HVAC]
- Y02B30/70—Efficient control or regulation technologies, e.g. for control of refrigerant flow, motor or heating
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- Engineering & Computer Science (AREA)
- General Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- Atmospheric Sciences (AREA)
- Life Sciences & Earth Sciences (AREA)
- Physics & Mathematics (AREA)
- Fluid Mechanics (AREA)
- Fuzzy Systems (AREA)
- Mathematical Physics (AREA)
- Signal Processing (AREA)
- Air Conditioning Control Device (AREA)
Abstract
The invention discloses a kind of air-conditioner and mobile terminal, belong to air-conditioning technical field.Air-conditioner mainly includes processor and transmitter, wherein, processor is mainly used in obtaining the basic parameter and corrected parameter of the air-conditioner operation required for calculating heat pump performance and heat exchange amount, transmitter is mainly used in sending said reference parameter and corrected parameter to mobile terminal, so that mobile terminal can calculate the parameters such as determination heat pump performance and heat exchange amount.The relevant parameter information of air-conditioning can be sent to the mobile terminals such as mobile phone by air-conditioner of the present invention by said apparatus, calculated by mobile terminal and be pushed to user, user is set to know clear and definite air-conditioning real time execution parameter, the transparency of operation of air conditioner information is increased, the man-machine interaction experience of air-conditioning products is improve.
Description
Technical field
The present invention relates to air-conditioning technical field, more particularly to air-conditioner and mobile terminal.
Background technology
The level of informatization of current air-conditioner product is not high, and its display function is very limited, be only able to display indoor temperature,
Design temperature and other functional symbols, do not have calculating and the in real time ginseng such as display refrigerating capacity, heating capacity and performance parameter
Several functions, and user is similarly more concerned about these deep layer subparameters of air-conditioner, therefore such air-conditioner product exists
The need for current this epoch for pursuing big data cannot meet user at all, user cannot obtain refrigerating capacity, heating capacity and
The key message of the relation air-conditioner service ability such as performance parameter, have impact on the experience of air conditioner user, and this problem is also
The follow-up functions expanding of air-conditioning brings obstruction.
The content of the invention
The invention provides a kind of air-conditioner and mobile terminal, it is intended to using mobile phone to user's display refrigerating capacity, heating capacity
And the parameter such as performance parameter.In order to some aspects to the embodiment for disclosing have a basic understanding, letter is shown below is
Single summary.The summarized section is not extensive overview, nor to determine key/critical component or describe these embodiments
Protection domain.Its sole purpose is that some concepts are presented with simple form, in this, as the preamble of following detailed description.
According to the first aspect of the invention, there is provided a kind of air-conditioner, air-conditioner includes:Processor, for obtaining sky
The basic parameter and corrected parameter of device operation are adjusted, wherein, basic parameter includes compressor frequency parameter and temperature parameter, amendment ginseng
Number includes rotation speed of fan parameter and humidity parameter;And transmitter, for being sent to mobile terminal basic parameter and corrected parameter,
To determine the actual performance parameter and actual heat exchange amount of air-conditioner, actual performance parameter and actual heat exchange amount are counted as follows
Calculate and determine:Initial performance parameter is determined according to basic parameter, actual performance ginseng is obtained according to initial performance parameter and corrected parameter
Number, according to the actual heat exchange amount of actual performance parameter determination air-conditioner;Wherein, initial performance parameter is determined according to basic parameter,
Including:The initial performance parameter of correspondence basic parameter is matched from preset incidence relation, incidence relation includes multiple compressors
The combination of frequency values and temperature value and the corresponding relation of initial performance values.
Further, incidence relation includes:Multiple compressor frequency values incremental with the frequency-splitting for setting, each compression
Unit frequency value constitutes multiple and combines with multiple temperature values;Multiple temperature values incremental with the temperature gap for setting, each temperature value
Multiple is constituted with multiple temperature values to combine;One initial performance values of each combination correspondence;Determine that initial performance is joined according to basic parameter
Number, also includes:Compressor parameter be in two adjacent compressor frequency values between, temperature parameter be in two adjacent temperature
When between angle value, wherein, two compressor frequencies to include the less first compressor frequency value of numerical value and numerical value it is larger the
Two compressor frequency values, two temperature values include less first temperature value of numerical value and the larger second temperature value of numerical value, initially
Performance parameter is calculated as follows:
COP0=(COPB+COPD-COPA-COPC)*△f*△T/(A*B)+(COPC-COPB)*△T/A+(COPA-C
OPB)*△f/B+COPB, wherein, COP0It is initial performance parameter, COPAIt is that the first compressor frequency value and the first temperature value are constituted
Combination corresponding to initial performance values, COPBCorresponding to the combination constituted for the second compressor frequency value and the first temperature value
Initial performance values, COPCThe initial performance values corresponding to combination constituted for the first compressor frequency value and second temperature value, COPD
The initial performance values corresponding to combination constituted for the second compressor frequency value and second temperature value, △ f join for compressor frequency
The frequency-splitting of number and the first compressor frequency value, △ T are the temperature gap of temperature parameter and the first temperature value, and A is the second pressure
The frequency-splitting of contracting unit frequency value and the first compressor frequency value, B is the temperature gap of second temperature value and the first temperature value.
Further, when air-conditioner runs refrigeration mode, temperature parameter is outdoor ring temperature, and rotation speed of fan parameter is interior
Rotation speed of fan and outdoor fan rotating speed, humidity parameter is indoor humidity.
Further, processor is additionally operable to obtain the rated speed of indoor fan, the rated speed of outdoor fan and specified
Indoor specified humidity under operating mode;Transmitter is additionally operable to send the rated speed of indoor fan, outdoor fan to mobile terminal
Indoor specified humidity under rated speed and declared working condition;Actual performance ginseng is obtained according to initial performance parameter and corrected parameter
Number, including:According to the rated speed of rotation speed of fan parameter, the rated speed of indoor fan and outdoor fan, indoor fan is determined
Rotating speed correction and outdoor fan rotating speed correction;And according to indoor specified wet under humidity parameter and declared working condition
Degree, determines indoor relative humidity correction during air-conditioner operation refrigeration mode.
Further, the rotating speed correction of indoor fan is calculated according to equation below:RPMn=Npn* (RPM_tn-
RPM_gn), wherein, RPMn for indoor fan rotating speed correction, Npn for indoor fan rotating speed correction correction factor,
RPM_tn is indoor fan rotating speed, and RPM_gn is the rated speed of indoor fan;The rotating speed correction of outdoor fan is according to as follows
Formula is calculated:RPMw=NPw* (RPM_tw-RPM_gw), wherein, RPMw is the rotating speed correction of outdoor fan, and NPw is
The correction factor of the rotating speed correction of outdoor fan, RPM_tw is outdoor fan rotating speed, and RPM_gw is specified turn of outdoor fan
Speed;Indoor relative humidity correction during air-conditioner operation refrigeration mode is calculated according to equation below:Tn=Ntn* (T_
Tn-T_gn), wherein, Tn is indoor relative humidity correction, and Ntn is the correction factor of indoor relative humidity correction, and T_tn is
Indoor humidity, T_gn is the indoor specified humidity under declared working condition.
Further, actual performance parameter is obtained according to initial performance parameter and corrected parameter, including:Air-conditioner operation system
Actual performance parameter during chill formula is calculated according to equation below:COPc=COP0+ RPMw+RPMn+Tn, wherein, COPc
It is actual performance parameter.
Further, processor is additionally operable to obtain input power of the air-conditioner when refrigeration mode is run;Transmitter is also used
Input power when air-conditioner is sent in from operation refrigeration mode to mobile terminal;According to actual performance parameter determination air-conditioner
Actual heat exchange amount, actual heat exchange amount includes refrigerating capacity, including:Refrigerating capacity of the air-conditioning when refrigeration mode is run is according to equation below
It is calculated:CC=COPc*Pc, wherein, CC is refrigerating capacity, and Pc is input power of the air-conditioner when refrigeration mode is run.
Further, when air-conditioner runs heating mode, temperature parameter is indoor ring temperature, and rotation speed of fan parameter is interior
Rotation speed of fan and outdoor fan rotating speed, humidity parameter is outside humidity.
Further, processor is additionally operable to obtain the rated speed of indoor fan, the rated speed of outdoor fan and specified
Outdoor specified humidity under operating mode;Transmitter is additionally operable to send the rated speed of indoor fan, outdoor fan to mobile terminal
Outdoor specified humidity under rated speed and declared working condition;Actual performance ginseng is obtained according to initial performance parameter and corrected parameter
Number, including:According to the rated speed of rotation speed of fan parameter, the rated speed of indoor fan and outdoor fan, indoor fan is determined
Rotating speed correction and outdoor fan rotating speed correction;And according to outdoor specified wet under humidity parameter and declared working condition
Degree, determines outside relative humidity correction during air-conditioner operation heating mode.
Further, the rotating speed correction of indoor fan is calculated according to equation below:RPMn=Npn* (RPM_tn-
RPM_gn), wherein, RPMn for indoor fan rotating speed correction, Npn for indoor fan rotating speed correction correction factor,
RPM_tn is indoor fan rotating speed, and RPM_gn is the rated speed of indoor fan;The rotating speed correction of outdoor fan is according to as follows
Formula is calculated:RPMw=NPw* (RPM_tw-RPM_gw), wherein, RPMw is the rotating speed correction of outdoor fan, and NPw is
The correction factor of the rotating speed correction of outdoor fan, RPM_tw is outdoor fan rotating speed, and RPM_gw is specified turn of outdoor fan
Speed;Outside relative humidity correction during air-conditioner operation heating mode is calculated according to equation below:Tw=Ntw* (T_
Tw-T_gw), wherein, Tw is outside relative humidity correction, and Ntw is the correction factor of outside relative humidity correction, and T_tw is
Outside humidity, T_gw is the outdoor specified humidity under declared working condition.
Further, actual performance parameter is obtained according to initial performance parameter and corrected parameter, including:Air-conditioner operation system
Actual performance parameter during heat pattern is calculated according to equation below:COPh=COP0+ RPMw+RPMn+Tw, wherein, COPh
It is actual performance parameter.
Further, processor is additionally operable to obtain input power of the air-conditioner when heating mode is run;Transmitter is also used
Input power when air-conditioner is sent in from operation heating mode to mobile terminal;According to actual performance parameter determination air-conditioner
Actual heat exchange amount, actual heat exchange amount includes heating capacity, including:Heating capacity of the air-conditioning when heating mode is run is according to equation below
It is calculated:HC=COPh*Ph, wherein, HC is heating capacity, and Ph is input power of the air-conditioner when heating mode is run.
According to the second aspect of the invention, a kind of mobile terminal is additionally provided, mobile terminal includes:Receiver, is used for
Basic parameter and corrected parameter that air-conditioner sends are received, wherein, basic parameter includes compressor frequency parameter and temperature parameter,
Corrected parameter includes rotation speed of fan parameter and humidity parameter;Processor, for determining initial performance parameter, root according to basic parameter
Actual performance parameter is obtained according to initial performance parameter and corrected parameter, according to the actual heat exchange of actual performance parameter determination air-conditioner
Amount;Wherein, initial performance parameter is determined according to basic parameter, including:Correspondence basic parameter is matched from preset incidence relation
Initial performance parameter, incidence relation includes the combination of multiple compressor frequency values and temperature value pass corresponding with initial performance values
System;Display, for user's display actual performance parameter and actual heat exchange amount.
Further, incidence relation includes:Multiple compressor frequency values incremental with the frequency-splitting for setting, each compression
Unit frequency value constitutes multiple and combines with multiple temperature values;Multiple temperature values incremental with the temperature gap for setting, each temperature value
Multiple is constituted with multiple temperature values to combine;One initial performance values of each combination correspondence;Determine that initial performance is joined according to basic parameter
Number, also includes:Compressor parameter be in two adjacent compressor frequency values between, temperature parameter be in two adjacent temperature
When between angle value, wherein, two compressor frequencies to include the less first compressor frequency value of numerical value and numerical value it is larger the
Two compressor frequency values, two temperature values include less first temperature value of numerical value and the larger second temperature value of numerical value, initially
Performance parameter is calculated as follows:
COP0=(COPB+COPD-COPA-COPC)*△f*△T/(A*B)+(COPC-COPB)*△T/A+(COPA-C
OPB)*△f/B+COPB, wherein, COP0It is initial performance parameter, COPAIt is that the first compressor frequency value and the first temperature value are constituted
Combination corresponding to initial performance values, COPBCorresponding to the combination constituted for the second compressor frequency value and the first temperature value
Initial performance values, COPCThe initial performance values corresponding to combination constituted for the first compressor frequency value and second temperature value, COPD
The initial performance values corresponding to combination constituted for the second compressor frequency value and second temperature value, △ f join for compressor frequency
The frequency-splitting of number and the first compressor frequency value, △ T are the temperature gap of temperature parameter and the first temperature value, and A is the second pressure
The frequency-splitting of contracting unit frequency value and the first compressor frequency value, B is the temperature gap of second temperature value and the first temperature value.
Further, when air-conditioner runs refrigeration mode, temperature parameter is outdoor ring temperature, and rotation speed of fan parameter is interior
Rotation speed of fan and outdoor fan rotating speed, humidity parameter is indoor humidity.
Further, air-conditioner is additionally operable to obtain the rated speed of indoor fan, the rated speed of outdoor fan and specified
Indoor specified humidity under operating mode;Receiver is additionally operable to receive rated speed, the outdoor fan of the indoor fan that air-conditioner sends
Rated speed and declared working condition under indoor specified humidity;Processor is used to be obtained according to initial performance parameter and corrected parameter
Actual performance parameter, including:According to the rated speed of rotation speed of fan parameter, the rated speed of indoor fan and outdoor fan, really
Determine the rotating speed correction of indoor fan and the rotating speed correction of outdoor fan;According to the indoor volume under humidity parameter and declared working condition
Determine humidity, determine indoor relative humidity correction during air-conditioner operation refrigeration mode.
Further, the rotating speed correction of indoor fan is calculated according to equation below:RPMn=Npn* (RPM_tn-
RPM_gn), wherein, RPMn for indoor fan rotating speed correction, Npn for indoor fan rotating speed correction correction factor,
RPM_tn is indoor fan rotating speed, and RPM_gn is the rated speed of indoor fan;The rotating speed correction of outdoor fan is according to as follows
Formula is calculated:RPMw=NPw* (RPM_tw-RPM_gw), wherein, RPMw is the rotating speed correction of outdoor fan, and NPw is
The correction factor of the rotating speed correction of outdoor fan, RPM_tw is outdoor fan rotating speed, and RPM_gw is specified turn of outdoor fan
Speed;Indoor relative humidity correction during air-conditioner operation refrigeration mode is calculated according to equation below:Tn=Ntn* (T_
Tn-T_gn), wherein, Tn is indoor relative humidity correction, and Ntn is the correction factor of indoor relative humidity correction, and T_tn is
Indoor humidity, T_gn is the indoor specified humidity under declared working condition.
Further, processor is used to obtain actual performance parameter according to initial performance parameter and corrected parameter, including:It is empty
Actual performance parameter during device operation refrigeration mode is adjusted to be calculated according to equation below:COPc=COP0+ RPMw+RPMn+Tn,
Wherein, COPc is actual performance parameter.
Further, air-conditioner is additionally operable to obtain input power of the air-conditioner when refrigeration mode is run;Receiver is also used
The input power when air-conditioner of air-conditioner transmission is received in operation refrigeration mode;Processor is used for according to actual performance parameter
Determine the actual heat exchange amount of air-conditioner, actual heat exchange amount includes refrigerating capacity, including:Refrigerating capacity of the air-conditioning when refrigeration mode is run
It is calculated according to equation below:CC=COPc*Pc, wherein, CC is refrigerating capacity, and Pc is air-conditioner when refrigeration mode is run
Input power.
Further, when air-conditioner runs heating mode, temperature parameter is indoor ring temperature, and rotation speed of fan parameter is interior
Rotation speed of fan and outdoor fan rotating speed, humidity parameter is outside humidity.
Further, air-conditioner is additionally operable to obtain the rated speed of indoor fan, the rated speed of outdoor fan and specified
Outdoor specified humidity under operating mode;Receiver is additionally operable to receive rated speed, the outdoor fan of the indoor fan that air-conditioner sends
Rated speed and declared working condition under outdoor specified humidity;Processor is used to be obtained according to initial performance parameter and corrected parameter
Actual performance parameter, including:According to the rated speed of rotation speed of fan parameter, the rated speed of indoor fan and outdoor fan, really
Determine the rotating speed correction of indoor fan and the rotating speed correction of outdoor fan;According to the outdoor volume under humidity parameter and declared working condition
Determine humidity, determine outside relative humidity correction during air-conditioner operation heating mode.
Further, the rotating speed correction of indoor fan is calculated according to equation below:RPMn=Npn* (RPM_tn-
RPM_gn), wherein, RPMn for indoor fan rotating speed correction, Npn for indoor fan rotating speed correction correction factor,
RPM_tn is indoor fan rotating speed, and RPM_gn is the rated speed of indoor fan;The rotating speed correction of outdoor fan is according to as follows
Formula is calculated:RPMw=NPw* (RPM_tw-RPM_gw), wherein, RPMw is the rotating speed correction of outdoor fan, and NPw is
The correction factor of the rotating speed correction of outdoor fan, RPM_tw is outdoor fan rotating speed, and RPM_gw is specified turn of outdoor fan
Speed;Outside relative humidity correction during air-conditioner operation heating mode is calculated according to equation below:Tw=Ntw* (T_
Tw-T_gw), wherein, Tw is outside relative humidity correction, and Ntw is the correction factor of outside relative humidity correction, and T_tw is
Outside humidity, T_gw is the outdoor specified humidity under declared working condition.
Further, processor is used to obtain actual performance parameter according to initial performance parameter and corrected parameter, including:It is empty
Actual performance parameter during device operation heating mode is adjusted to be calculated according to equation below:COPh=COP0+ RPMw+RPMn+Tw,
Wherein, COPh is actual performance parameter.
Further, air-conditioner is additionally operable to obtain input power of the air-conditioner when heating mode is run;Receiver is also used
The input power when air-conditioner of air-conditioner transmission is received in operation heating mode;Processor is used for according to actual performance parameter
Determine the actual heat exchange amount of air-conditioner, actual heat exchange amount includes heating capacity, including:Heating capacity of the air-conditioning when heating mode is run
It is calculated according to equation below:HC=COPh*Ph, wherein, HC is heating capacity, and Ph is air-conditioner when heating mode is run
Input power.
It is mobile that the parameters such as compressor frequency, temperature, rotation speed of fan and humidity are sent to mobile phone etc. by air-conditioner of the invention
Terminal, performance parameter and refrigerating/heating amount during air-conditioner running are calculated using mobile terminal, and can be by moving
Dynamic terminal shows relevant parameter information to user, user is got information about the service ability of air-conditioner, improves user
Experience.
It should be appreciated that the general description of the above and detailed description hereinafter are only exemplary and explanatory, not
Can the limitation present invention.
Brief description of the drawings
Accompanying drawing herein is merged in specification and constitutes the part of this specification, shows and meets implementation of the invention
Example, and be used to explain principle of the invention together with specification.
Fig. 1 is that the device of the air-conditioner of the present invention according to an exemplary implementation transmits schematic diagram;
Fig. 2 is the workflow diagram of the air-conditioner of the present invention according to an exemplary embodiment;
Fig. 3 is the device transmission schematic diagram of the mobile terminal of the present invention according to an exemplary embodiment;
Fig. 4 is the workflow diagram of the mobile terminal of the present invention according to an exemplary embodiment;
Fig. 5 is the bilinear interpolation method schematic diagram according to an exemplary embodiment.
Specific 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.Other embodiments can include structure, logic, it is electric, process and it is other changes.Embodiment
Only represent possible change.Unless explicitly requested, otherwise single components and functionality is optional, and the order for operating can be with
Change.The part of some embodiments and feature can be included in or replace part and the feature of other embodiments.This hair
The scope of bright embodiment includes the gamut of claims, and all obtainable of claims is equal to
Thing.Herein, each embodiment can individually or generally be represented that it is convenient that this is used for the purpose of with term " invention ",
And if in fact disclosing the invention more than, the scope for being not meant to automatically limit the application is any single invention
Or inventive concept.Herein, such as first and second or the like relational terms be used only for by an entity or operation with
Another entity or operation make a distinction, without requiring or implying between these entities or operation there is any actual relation
Or order.And, term " including ", "comprising" or any other variant thereof is intended to cover non-exclusive inclusion so that
So that process, method or equipment including a series of key elements not only include those key elements, but also including being not expressly set out
Other key elements, or also include be this process, method or the intrinsic key element of equipment.In the feelings without more limitations
Under condition, the key element limited by sentence "including a ...", it is not excluded that in the process including the key element, method or equipment
In also there is other identical element.Each embodiment herein is described by the way of progressive, and each embodiment is stressed
Be all difference with other embodiment, between each embodiment identical similar portion mutually referring to.For implementing
For example disclosed method, product etc., because it is corresponding with method part disclosed in embodiment, so the comparing of description is simple
Single, related part is referring to method part illustration.
As depicted in figs. 1 and 2, the invention provides a kind of air-conditioner, in order to realize to heat pump performance and refrigeration, heat
The transfer function of the relevant parameters such as amount, air-conditioner mainly includes processor and transmitter, wherein, processor is mainly used in obtaining meter
The basic parameter and corrected parameter of the air-conditioner operation required for calculating heat pump performance and heat exchange amount, transmitter are mainly used in shifting
Dynamic terminal sends said reference parameter and corrected parameter, so that mobile terminal can calculate the ginsengs such as determination heat pump performance and heat exchange amount
Number.The relevant parameter information of air-conditioning can be sent to the mobile terminals such as mobile phone by air-conditioner of the present invention by said apparatus, by moving
Dynamic terminal is calculated and is pushed to user, user is known clear and definite air-conditioning real time execution parameter, increased operation of air conditioner letter
The transparency of breath, improves the man-machine interaction experience of air-conditioning products.
In an embodiment of the present invention, the basic parameter acquired in the processor of air-conditioner include compressor frequency parameter and
Temperature parameter, wherein, compressor frequency parameter is the running frequency of the compressor of the outdoor unit for being arranged at air-conditioner, temperature parameter
Including the gentle interior ring temperature of outdoor ring, outdoor ring temperature can detect and obtain that indoor ring temperature can be by room by outdoor temperature sensor
Interior temperature sensor detection is obtained, and the associated temperature parameter informations such as the gentle interior ring temperature of outdoor ring are transmitted to processor.
In addition, the corrected parameter acquired in the processor of air-conditioning includes rotation speed of fan parameter and humidity parameter, wherein, blower fan
Rotary speed parameter includes the rotating speed of the outdoor fan for being arranged at outdoor unit and is arranged at the rotating speed of the indoor fan of indoor set, and humidity is joined
Number includes outside humidity and indoor humidity, and outside humidity can be obtained by the detection of outside humidity sensor, and indoor humidity can be with
By indoor environment humidity sensor detect obtain, and by the relative humidity parameter information such as outside humidity and indoor humidity transmit to
Processor.
In an embodiment of the present invention, the basic parameter and corrected parameter for being sent to mobile terminal are come according to following flow
Calculate and determine actual performance parameter and actual heat exchange amount:Initial performance parameter is determined according to basic parameter, is joined according to initial performance
Number and corrected parameter obtain actual performance parameter, according to the actual heat exchange amount of actual performance parameter determination air-conditioner.
In a upper embodiment, the workflow of mobile terminal also includes:According to initial performance parameter, air-conditioner is determined
Initial heat exchange amount.Wherein, initial performance parameter is institute's initial performance parameter according to determined by basic parameter in previous step, just
Beginning heat exchange amount is the air-conditioning heat exchange amount without amendment, and mobile terminal pushes actual heat exchange amount during operation of air conditioner to user simultaneously
With initial heat exchange amount, can more intuitively know rotation speed of fan and indoor and outdoor surroundingses humidity to operation of air conditioner performance and heat exchange amount
Influence.
In embodiment, the idiographic flow that mobile terminal is calculated initial performance parameter includes:From preset incidence relation
The initial performance parameter of middle matching correspondence basic parameter, incidence relation include the combination of multiple compressor frequency values and temperature value with
The corresponding relation of initial performance values.
In one embodiment of this invention, above-mentioned incidence relation is the compressor worked out on the basis of lot of experimental data
The contingency table of the initial performance of frequency, temperature and air-conditioning, such as following table:
Table 1
In table 1, the file of the leftmost side is the frequency values f of compressor;The row of top side is temperature value T, because air-conditioning exists
Freeze different with outdoor temperature with indoor temperature involved when heating, the table be with air-conditioning be in cooling condition when it is involved
Outdoor temperature is illustrated as an example;Data of middle part is then corresponded by the combination of different compressors frequency values and temperature value
Air-conditioning initial performance values COP.
In above-mentioned contingency table, compressor frequency value is incremented by with the frequency-splitting for setting, such as the frequency-splitting in table is set to
10Hz, each compressor frequency value constitutes multiple and combines with multiple temperature values;Temperature value is equally also passed with the temperature gap for setting
Increase, such as the frequency-splitting in table is set to 5 DEG C.When air-conditioner acquisition module acquired in compressor frequency parameter and temperature be
During numerical value in table, then corresponding initial performance parameter can be determined according to the relation table.
In embodiment, because the number of parameters that contingency table is related to is more, the Partial shrinkage unit frequency acquired in air-conditioner
Parameter and temperature parameter may be in inside the grid of contingency table, i.e., compressor parameter is in two adjacent compressor frequencies
Between value, temperature parameter be between two adjacent temperature values, therefore corresponding initial performance values that cannot directly determine, then
Need to be calculated by bilinear interpolation method, the computing formula of initial performance parameter is as follows:
COP0=(COPB+COPD-COPA-COPC)*△f*△T/(A*B)+(COPC-COPB)*△T/A+(COPA-C
OPB)*△f/B+COPB,
Wherein, COP0It is initial performance parameter, COPAFor the combination institute that the first compressor frequency value and the first temperature value are constituted
Corresponding initial performance values, COPBThe initial performance corresponding to combination constituted for the second compressor frequency value and the first temperature value
Value, COPCThe initial performance values corresponding to combination constituted for the first compressor frequency value and second temperature value, COPDIt is the second pressure
The initial performance values corresponding to combination that contracting unit frequency value and second temperature value are constituted, △ f are compressor frequency parameter and first
The frequency-splitting of compressor frequency value, △ T are the temperature gap of temperature parameter and the first temperature value, and A is the second compressor frequency
The frequency-splitting of value and the first compressor frequency value, B is the temperature gap of second temperature value and the first temperature value.
For example, as shown in figure 5, compressor frequency acquired in a certain air-conditioner is 75Hz, when temperature value is 27 DEG C, by upper
The contingency table table 1 of text understands, compressor frequency 75Hz be in the less first compressor frequency value 70Hz of numerical value and numerical value compared with
Between the second big compressor frequency value 80Hz, 27 DEG C of the temperature value in 25 DEG C of less first temperature value of numerical value and numerical value compared with
30 DEG C of big second temperature value, then the first compressor frequency value, the second compressor frequency value, the first temperature value and second temperature value
A (70Hz, 25 DEG C), B (80Hz, 25 DEG C), four kinds of combinations of C (80Hz, 30 DEG C) and D (70Hz, 30 DEG C) are constituted altogether, it is corresponding initial
Performance number is respectively 3.40,3.10,2.90 and 3.10, and four initial performance values are substituted into above-mentioned formula can be calculated:
△ f=75-70=5,
△ T=27-25=2,
COP0=(COPB+COPD-COPA-COPC)*△f*△T/(A*B)+(COPC-COPB)*△T/A+(COPA-C
OPB)*△f/B+COPB=(3.10+3.10-3.40-2.90) * 5*2/50+ (2.90-3.10) * 2/10+ (3.40-3.10) * 5/5
+ 3.10=3.34.
In above-described embodiment, the processor of air-conditioner is mainly used in performing the step in the workflow diagram shown in Fig. 2
S201 obtains the basic parameter and corrected parameter of air-conditioner operation;Transmitter is mainly used in the step of performing disclosed in embodiment
S202 sends basic parameter and corrected parameter to mobile terminal.
In an embodiment of the present invention, because air-conditioning is residing in summer operation refrigeration mode and winter operation heating mode
Operating mode it is different, therefore the invention provides the handling process under two kinds of operating modes of cooling in summer and winter heating, idiographic flow
It is as follows:
Embodiment (one), air-conditioner be in cooling in summer operating mode when, processor obtain air-conditioner operation basic parameter
Process with corrected parameter includes:Determine the operational mode of air-conditioner, operational mode includes refrigeration mode;Run in air-conditioner and made
During chill formula, the temperature parameter of acquisition is outdoor ring temperature, and compressor frequency parameter is the running frequency of compressor under current working,
Rotation speed of fan parameter is indoor fan rotating speed and outdoor fan rotating speed, and humidity parameter is indoor humidity.
Therefore in computing formula COP0T in=- A*f+B*T+C is outdoor ring temperature, and f is the fortune of compressor under cooling condition
Line frequency.
Meanwhile, processor is additionally operable to obtain rated speed, the rated speed of outdoor fan and the declared working condition of indoor fan
Under indoor specified humidity;Wherein, the rated speed of indoor fan refers under the declared working condition of national regulations, to test specified work
The rated rotational frequency of the indoor fan used during condition;The rated speed of outdoor fan refer under the declared working condition of national regulations,
The rated rotational frequency of the outdoor fan used during test declared working condition;Therefore acquired indoor specified humidity under declared working condition
It is the indoor standard humidity used during test declared working condition under the declared working condition of national regulations.Therefore, transmitter is additionally operable to
Send indoor specified under rated speed, the rated speed of outdoor fan and the declared working condition of above-mentioned indoor fan to mobile terminal
Humidity.
In operation of air conditioner refrigeration mode, mobile terminal obtains actual performance ginseng according to initial performance parameter and corrected parameter
Number, its idiographic flow includes:According to the rated speed of rotation speed of fan parameter, the rated speed of indoor fan and outdoor fan, its
In, rotation speed of fan parameter includes the indoor fan rotating speed and outdoor fan rotating speed in above-described embodiment, according to this four rotating speed ginsengs
Number can respectively determine the rotating speed correction of indoor fan and the rotating speed correction of outdoor fan;According to humidity parameter and declared working condition
Under indoor specified humidity, wherein, humidity parameter be above-described embodiment in indoor humidity, it is specified according to indoor humidity and interior
Two parameters of humidity can determine that indoor relative humidity correction during air-conditioner operation refrigeration mode.
Specifically, the rotating speed correction of indoor fan during operation of air conditioner refrigeration mode is calculated according to equation below:
RPMn=Npn* (RPM_tn-RPM_gn),
Wherein, RPMn is the rotating speed correction of indoor fan, and Npn is the correction factor of the rotating speed correction of indoor fan,
RPM_tn is indoor fan rotating speed, and RPM_gn is the rated speed of indoor fan;
The rotating speed correction of outdoor fan is calculated according to equation below:
RPMw=NPw* (RPM_tw-RPM_gw),
Wherein, RPMw is the rotating speed correction of outdoor fan, and NPw is the correction factor of the rotating speed correction of outdoor fan,
RPM_tw is outdoor fan rotating speed, and RPM_gw is the rated speed of outdoor fan;
In addition, indoor relative humidity correction during air-conditioner operation refrigeration mode is calculated according to equation below:
Tn=Ntn* (T_tn-T_gn),
Wherein, Tn is indoor relative humidity correction, and Ntn is the correction factor of indoor relative humidity correction, and T_tn is
Indoor humidity, T_gn is the indoor specified humidity under declared working condition.
In embodiment, mobile terminal according to initial performance parameter and corrected parameter, obtain air-conditioner operation refrigeration mode when
Actual performance parameter, its idiographic flow includes:Actual performance parameter during air-conditioner operation refrigeration mode is according to equation below
It is calculated:
COPc=COP0+ RPMw+RPMn+Tn,
Wherein, COPc is actual performance parameter, COPOTo calculate the initial performance parameter of determination in above-mentioned steps, RPMw,
RPMn and Tn is the correction being calculated in above-described embodiment, and the present invention only considers indoor wet in operation of air conditioner refrigeration mode
Degree, does not consider to pertain only to indoor relative humidity correction Tn in outside humidity, therefore the step.
In embodiment, processor is additionally operable to obtain input power of the air-conditioner when refrigeration mode is run;Transmitter is also used
Input power when air-conditioner is sent in from operation refrigeration mode to mobile terminal.Mobile terminal is true according to actual performance parameter institute
Refrigerating capacity when the actual heat exchange amount for determining air-conditioner is operation of air conditioner refrigeration mode, idiographic flow includes:Air-conditioning freezes in operation
Refrigerating capacity during pattern is calculated according to equation below:
CC=COPc*Pc,
Wherein, CC is refrigerating capacity, and COPc is existed by calculating the actual performance parameter for determining, Pc in above-mentioned steps for air-conditioner
Input power during operation refrigeration mode.
Embodiment (two), air-conditioner be in winter heating's operating mode when, processor obtain air-conditioner operation basic parameter
Process with corrected parameter includes:Determine the operational mode of air-conditioner, operational mode includes heating mode;Run in air-conditioner and made
During heat pattern, the temperature parameter of acquisition is indoor ring temperature, and compressor frequency parameter is the running frequency of compressor under current working,
Rotation speed of fan parameter is indoor fan rotating speed and outdoor fan rotating speed, and humidity parameter is outside humidity.
Therefore in computing formula COP0T in=- A*f+B*T+C is indoor ring temperature, and f is the fortune of compressor under heating condition
Line frequency.
Meanwhile, processor is additionally operable to obtain rated speed, the rated speed of outdoor fan and the declared working condition of indoor fan
Under outdoor specified humidity;Wherein, the rated speed of indoor fan refers under the declared working condition of national regulations, to test specified work
The rated rotational frequency of the indoor fan used during condition;The rated speed of outdoor fan refer under the declared working condition of national regulations,
The rated rotational frequency of the outdoor fan used during test declared working condition;Therefore acquired outdoor specified humidity under declared working condition
It is the outdoor standard humidity used during test declared working condition under the declared working condition of national regulations.Therefore, transmitter is additionally operable to
Send outdoor specified wet under rated speed, the rated speed of outdoor fan and the declared working condition of indoor fan to mobile terminal
Degree.
In operation of air conditioner heating mode, mobile terminal obtains actual performance ginseng according to initial performance parameter and corrected parameter
Number, its idiographic flow includes:According to the rated speed of rotation speed of fan parameter, the rated speed of indoor fan and outdoor fan, its
In, rotation speed of fan parameter includes the indoor fan rotating speed and outdoor fan rotating speed in above-described embodiment, according to this four rotating speed ginsengs
Number can respectively determine the rotating speed correction of indoor fan and the rotating speed correction of outdoor fan;According to humidity parameter and declared working condition
Under outdoor specified humidity, wherein, humidity parameter be above-described embodiment in outside humidity, it is specified according to outside humidity and outdoor
Two parameters of humidity can determine that outside relative humidity correction during air-conditioner operation heating mode.
Specifically, the rotating speed correction of indoor fan is calculated according to equation below:
RPMn=Npn* (RPM_tn-RPM_gn),
Wherein, RPMn is the rotating speed correction of indoor fan, and Npn is the correction factor of the rotating speed correction of indoor fan,
RPM_tn is indoor fan rotating speed, and RPM_gn is the rated speed of indoor fan;
The rotating speed correction of outdoor fan is calculated according to equation below:
RPMw=NPw* (RPM_tw-RPM_gw),
Wherein, RPMw is the rotating speed correction of outdoor fan, and NPw is the correction factor of the rotating speed correction of outdoor fan,
RPM_tw is outdoor fan rotating speed, and RPM_gw is the rated speed of outdoor fan;
In addition, the outside relative humidity correction when air-conditioner runs heating mode is calculated according to equation below:
Tw=Ntw* (T_tw-T_gw),
Wherein, Tw is outside relative humidity correction, and Ntw is the correction factor of outside relative humidity correction, and T_tw is
Outside humidity, T_gw is the outdoor specified humidity under declared working condition.
In embodiment, mobile terminal according to initial performance parameter and corrected parameter, obtain air-conditioner operation heating mode when
Actual performance parameter, its idiographic flow includes:Actual performance parameter during air-conditioner operation heating mode is according to equation below
It is calculated:
COPh=COP0+ RPMw+RPMn+Tw,
Wherein, COPh is actual performance parameter, COPOTo calculate the initial performance parameter of determination in above-mentioned steps, RPMw,
RPMn and Tn is the correction being calculated in above-described embodiment, and the present invention only considers outdoor wet in operation of air conditioner heating mode
Degree, does not consider to pertain only to outside relative humidity correction Tw in indoor humidity, therefore the step.
In embodiment, processor is additionally operable to obtain input power of the air-conditioner when heating mode is run;Transmitter is also used
Input power when air-conditioner is sent in from operation heating mode to mobile terminal.Mobile terminal is true according to actual performance parameter institute
The actual heat exchange amount of fixed air-conditioner is heating capacity, and its idiographic flow includes:Heating capacity of the air-conditioning when heating mode is run is pressed
It is calculated according to equation below:
HC=COPh*Ph,
Wherein, HC is heating capacity, and COPh is existed by calculating the actual performance parameter for determining, Ph in above-mentioned steps for air-conditioner
Input power during operation heating mode.
In addition, in above-described embodiment () and embodiment (two), mobile terminal determines sky according to initial performance parameter
Adjust the initial heat exchange amount of device to be divided into initial refrigerating capacity and initial heating capacity, specifically calculate as follows:
In operation of air conditioner refrigeration mode, CCInitially=COP0* Pc, wherein, CCInitiallyIt is initial refrigerating capacity, Pc exists for air-conditioner
Input power during operation refrigeration mode;
In operation of air conditioner heating mode, HCInitially=COP0* Ph, wherein, HCInitiallyIt is initial heating capacity, Ph exists for air-conditioner
Input power during operation heating mode.
As shown in Figure 3 and Figure 4, present invention also offers a kind of mobile terminal, in order to realize to heat pump performance and refrigeration/
The function such as calculating and display of the information such as heat exchange amount during heating operation, mobile terminal mainly includes receiver, processor and display
Device, wherein, receiver is mainly used in receiving basic parameter and corrected parameter from air-conditioner, and processor is mainly used in calculating true
Determine the parameters such as actual performance parameter and actual heat exchange amount, display is then mainly used in showing actual performance parameter and reality to user
Heat exchange amount.Mobile terminal of the present invention can complete the transmission and display to air-conditioning correlation performance parameters by said apparatus, and can
User is pushed to by these parameter informations, is easy to user to understand the real time execution performance of air-conditioning.
Mobile terminal can be mobile phone or panel computer etc., and mobile terminal can carry out data with one or more air-conditioners
Communication, so as to realize the data interaction of air-conditioning correlation operational factor.
In embodiment, the step S410 that receiver is mainly used in performing in the workflow diagram shown in Fig. 4 receives air-conditioner
The basic parameter and corrected parameter of the air-conditioner operation of transmission;Processor is mainly used in performing step S421~S424, wherein, step
Rapid S421 is to determine initial performance parameter according to basic parameter, and step S422 is to be obtained according to initial performance parameter and corrected parameter
Actual performance parameter, step S423 is the actual heat exchange amount according to actual performance parameter determination air-conditioner, according to step S424
The initial heat exchange amount of initial performance parameter determination air-conditioner;Display be mainly used in perform embodiment disclosed in the step of S430 to
User's display actual performance parameter, initial heat exchange amount and actual heat exchange amount.
The embodiment of the idiographic flow of the computing device above-mentioned steps S421~S424 of mobile terminal air-conditioner above
In made respective description, therefore repeat no more.
Processor completes the meter of the information such as the actual performance parameter to mobile terminal, initial heat exchange amount and actual heat exchange amount
After calculation, display can be transmitted relevant data to, after display receives the information from processor, by portions such as mobile phone display screens
Part is to information such as user's display actual performance parameter, initial heat exchange amount and actual heat exchange amounts.
Further, since the transmitter of air-conditioner is additionally operable to send indoor wind of the air-conditioner under cooling condition to mobile terminal
Indoor specified humidity under the rated speed of machine, the rated speed of outdoor fan and declared working condition, thus mobile terminal reception
Device is additionally operable to receive under the rated speed of above-mentioned indoor fan, the rated speed and declared working condition of outdoor fan that air-conditioner sends
Indoor specified humidity.
The input power that the transmitter of air-conditioner is additionally operable to by air-conditioner when refrigeration mode is run is sent to mobile terminal,
Therefore the receiver of mobile terminal is additionally operable to receive input power of the air-conditioner from air-conditioner when refrigeration mode is run.
Because the transmitter of air-conditioner is additionally operable to send indoor fan of the air-conditioner under heating condition to mobile terminal
Outdoor specified humidity under rated speed, the rated speed of outdoor fan and declared working condition, thus mobile terminal receiver also
For the room under the rated speed of above-mentioned indoor fan, the rated speed of outdoor fan and the declared working condition that receive air-conditioner transmission
Outer specified humidity.
The transmitter of air-conditioner is additionally operable to send input power of the air-conditioner when heating mode is run to mobile terminal, because
The receiver of this mobile terminal is additionally operable to receive input power of the air-conditioner of air-conditioner transmission when heating mode is run.
It should be appreciated that the invention is not limited in the flow and structure that are described above and be shown in the drawings,
And can without departing from the scope carry out various modifications and changes.The scope of the present invention is only limited by appended claim
System.
Claims (24)
1. a kind of air-conditioner, including controller, it is characterised in that the controller includes:
Processor, basic parameter and corrected parameter for obtaining air-conditioner operation, wherein, the basic parameter includes compressor
Frequency parameter and temperature parameter, the corrected parameter include rotation speed of fan parameter and humidity parameter;And
Transmitter, for sending the basic parameter and corrected parameter to mobile terminal, to determine the reality of the air-conditioner
Border performance parameter and actual heat exchange amount, the actual performance parameter and the actual heat exchange amount calculate determination as follows:
Initial performance parameter is determined according to basic parameter, actual performance ginseng is obtained according to the initial performance parameter and the corrected parameter
Number, according to the actual heat exchange amount of the actual performance parameter determination air-conditioner;Wherein, determine that initial performance is joined according to basic parameter
Number, including:The initial performance parameter of the correspondence basic parameter is matched from preset incidence relation, the incidence relation includes
The combination of multiple compressor frequency values and temperature value and the corresponding relation of initial performance values.
2. air-conditioner according to claim 1, it is characterised in that the incidence relation includes:
Multiple compressor frequency values incremental with the frequency-splitting for setting, each compressor frequency value with described in multiple
Temperature value constitutes multiple combinations;
Multiple temperature values incremental with the temperature gap for setting, each temperature value constitutes many with multiple temperature values
Individual combination;
One initial performance values of each combination correspondence;
Initial performance parameter is determined according to basic parameter, is also included:
The compressor parameter be in two adjacent compressor frequency values between, the temperature parameter it is adjacent
When between two temperature values, wherein, two compressor frequencies are to including the less first compressor frequency value sum of numerical value
Larger the second compressor frequency value of value, two temperature values include less first temperature value of numerical value and numerical value it is larger the
Two temperature values, the initial performance parameter is calculated as follows:
COP0=(COPB+COPD-COPA-COPC)*△f*△T/(A*B)+(COPC-COPB)*△T/A+(COPA-COPB)*△f/
B+COPB,
Wherein, COP0It is the initial performance parameter, COPAIt is that the first compressor frequency value and first temperature value are constituted
Combination corresponding to initial performance values, COPBFor the combination that the second compressor frequency value and first temperature value are constituted
Corresponding initial performance values, COPCCorresponding to the combination constituted for the first compressor frequency value and the second temperature value
Initial performance values, COPDIt is initial corresponding to the combination constituted for the second compressor frequency value and the second temperature value
Performance number, △ f are the frequency-splitting of the compressor frequency parameter and the first compressor frequency value, and △ T are the temperature
The temperature gap of parameter and first temperature value, A is the second compressor frequency value and the first compressor frequency value
Frequency-splitting, B is the temperature gap of the second temperature value and first temperature value.
3. air-conditioner according to claim 2, it is characterised in that
When the air-conditioner runs refrigeration mode, the temperature parameter is outdoor ring temperature, and the rotation speed of fan parameter is interior
Rotation speed of fan and outdoor fan rotating speed, the humidity parameter are indoor humidity.
4. air-conditioner according to claim 3, it is characterised in that
The processor is additionally operable to obtain the room under rated speed, the rated speed of outdoor fan and the declared working condition of indoor fan
Interior specified humidity;
The transmitter be additionally operable to mobile terminal send the rated speed of the indoor fan, the rated speed of outdoor fan and
Indoor specified humidity under declared working condition;
It is described that actual performance parameter is obtained according to the initial performance parameter and the corrected parameter, including:
According to the rated speed of the rotation speed of fan parameter, the rated speed of the indoor fan and the outdoor fan, it is determined that
The rotating speed correction of the indoor fan and the rotating speed correction of the outdoor fan;And
According to the indoor specified humidity under the humidity parameter and the declared working condition, the air-conditioner operation refrigeration mode is determined
When indoor relative humidity correction.
5. air-conditioner according to claim 4, it is characterised in that
The rotating speed correction of the indoor fan is calculated according to equation below:
RPMn=Npn* (RPM_tn-RPM_gn),
Wherein, RPMn is the rotating speed correction of the indoor fan, and Npn is the amendment system of the rotating speed correction of the indoor fan
Number, RPM_tn is the indoor fan rotating speed, and RPM_gn is the rated speed of the indoor fan;
The rotating speed correction of the outdoor fan is calculated according to equation below:
RPMw=NPw* (RPM_tw-RPM_gw),
Wherein, RPMw is the rotating speed correction of the outdoor fan, and NPw is the amendment system of the rotating speed correction of the outdoor fan
Number, RPM_tw is the outdoor fan rotating speed, and RPM_gw is the rated speed of the outdoor fan;
Indoor relative humidity correction during the air-conditioner operation refrigeration mode is calculated according to equation below:
Tn=Ntn* (T_tn-T_gn),
Wherein, Tn is the indoor relative humidity correction, and Ntn is the correction factor of the indoor relative humidity correction, T_
Tn is the indoor humidity, and T_gn is the indoor specified humidity under the declared working condition.
6. air-conditioner according to claim 5, it is characterised in that according to the initial performance parameter and the corrected parameter
Actual performance parameter is obtained, including:
Actual performance parameter during the air-conditioner operation refrigeration mode is calculated according to equation below:
COPc=COP0+ RPMw+RPMn+Tn,
Wherein, COPc is the actual performance parameter.
7. air-conditioner according to claim 6, it is characterised in that
The processor is additionally operable to obtain input power of the air-conditioner when refrigeration mode is run;
The transmitter is additionally operable to send the input work of the air-conditioner when refrigeration mode is run to the mobile terminal
Rate;
The actual heat exchange amount according to the actual performance parameter determination air-conditioner, the actual heat exchange amount includes refrigerating capacity,
Including:
Refrigerating capacity of the air-conditioning when refrigeration mode is run is calculated according to equation below:
CC=COPc*Pc,
Wherein, CC is the refrigerating capacity, and Pc is input power of the air-conditioner when refrigeration mode is run.
8. air-conditioner according to claim 2, it is characterised in that
When the air-conditioner runs heating mode, the temperature parameter is indoor ring temperature, and the rotation speed of fan parameter is interior
Rotation speed of fan and outdoor fan rotating speed, the humidity parameter are outside humidity.
9. air-conditioner according to claim 8, it is characterised in that
The processor is additionally operable to obtain the rated speed of indoor fan and the rated speed of outdoor fan;And obtain specified work
Outdoor specified humidity under condition;
The transmitter be additionally operable to mobile terminal send the rated speed of the indoor fan, the rated speed of outdoor fan and
Outdoor specified humidity under declared working condition;
It is described that actual performance parameter is obtained according to the initial performance parameter and the corrected parameter, including:
According to the rated speed of the rotation speed of fan parameter, the rated speed of the indoor fan and the outdoor fan, it is determined that
The rotating speed correction of the indoor fan and the rotating speed correction of the outdoor fan;And
According to the outdoor specified humidity under the humidity parameter and the declared working condition, the air-conditioner operation heating mode is determined
When outside relative humidity correction.
10. air-conditioner according to claim 9, it is characterised in that
The rotating speed correction of the indoor fan is calculated according to equation below:
RPMn=Npn* (RPM_tn-RPM_gn),
Wherein, RPMn is the rotating speed correction of the indoor fan, and Npn is the amendment system of the rotating speed correction of the indoor fan
Number, RPM_tn is the indoor fan rotating speed, and RPM_gn is the rated speed of the indoor fan;
The rotating speed correction of the outdoor fan is calculated according to equation below:
RPMw=NPw* (RPM_tw-RPM_gw),
Wherein, RPMw is the rotating speed correction of the outdoor fan, and NPw is the amendment system of the rotating speed correction of the outdoor fan
Number, RPM_tw is the outdoor fan rotating speed, and RPM_gw is the rated speed of the outdoor fan;
Outside relative humidity correction during the air-conditioner operation heating mode is calculated according to equation below:
Tw=Ntw* (T_tw-T_gw),
Wherein, Tw is the outside relative humidity correction, and Ntw is the correction factor of the outside relative humidity correction, T_
Tw is the outside humidity, and T_gw is the outdoor specified humidity under the declared working condition.
11. air-conditioners according to claim 10, it is characterised in that described according to the initial performance parameter and described to repair
Positive parameter obtains actual performance parameter, including:
Actual performance parameter during the air-conditioner operation heating mode is calculated according to equation below:
COPh=COP0+ RPMw+RPMn+Tw,
Wherein, COPh is the actual performance parameter.
12. air-conditioners according to claim 11, it is characterised in that
The processor is additionally operable to obtain input power of the air-conditioner when heating mode is run;
The transmitter is additionally operable to send the input work of the air-conditioner when heating mode is run to the mobile terminal
Rate;
The actual heat exchange amount according to the actual performance parameter determination air-conditioner, the actual heat exchange amount includes heating capacity,
Including:
Heating capacity of the air-conditioning when heating mode is run is calculated according to equation below:
HC=COPh*Ph,
Wherein, HC is the heating capacity, and Ph is input power of the air-conditioner when heating mode is run.
13. a kind of mobile terminals, it is characterised in that the mobile terminal includes:
Receiver, basic parameter and corrected parameter for receiving air-conditioner transmission, wherein, the basic parameter includes compressor
Frequency parameter and temperature parameter, the corrected parameter include rotation speed of fan parameter and humidity parameter;
Processor, for determining initial performance parameter according to basic parameter, joins according to the initial performance parameter and the amendment
Number obtains actual performance parameter, according to the actual heat exchange amount of the actual performance parameter determination air-conditioner;Wherein, joined according to benchmark
Number determines initial performance parameter, including:The initial performance parameter of the correspondence basic parameter is matched from preset incidence relation,
The incidence relation includes combination and the corresponding relation of initial performance values of multiple compressor frequency values and temperature value;
Display, for showing the actual performance parameter and the actual heat exchange amount to user.
14. mobile terminals according to claim 13, it is characterised in that the incidence relation includes:
Multiple compressor frequency values incremental with the frequency-splitting for setting, each compressor frequency value with described in multiple
Temperature value constitutes multiple combinations;
Multiple temperature values incremental with the temperature gap for setting, each temperature value constitutes many with multiple temperature values
Individual combination;
One initial performance values of each combination correspondence;
Initial performance parameter is determined according to basic parameter, is also included:
The compressor parameter be in two adjacent compressor frequency values between, the temperature parameter it is adjacent
When between two temperature values, wherein, two compressor frequencies are to including the less first compressor frequency value sum of numerical value
Larger the second compressor frequency value of value, two temperature values include less first temperature value of numerical value and numerical value it is larger the
Two temperature values, the initial performance parameter is calculated as follows:
COP0=(COPB+COPD-COPA-COPC)*△f*△T/(A*B)+(COPC-COPB)*△T/A+(COPA-COPB)*△f/
B+COPB,
Wherein, COP0It is the initial performance parameter, COPAIt is that the first compressor frequency value and first temperature value are constituted
Combination corresponding to initial performance values, COPBFor the combination that the second compressor frequency value and first temperature value are constituted
Corresponding initial performance values, COPCCorresponding to the combination constituted for the first compressor frequency value and the second temperature value
Initial performance values, COPDIt is initial corresponding to the combination constituted for the second compressor frequency value and the second temperature value
Performance number, △ f are the frequency-splitting of the compressor frequency parameter and the first compressor frequency value, and △ T are the temperature
The temperature gap of parameter and first temperature value, A is the second compressor frequency value and the first compressor frequency value
Frequency-splitting, B is the temperature gap of the second temperature value and first temperature value.
15. mobile terminals according to claim 14, it is characterised in that
When the air-conditioner runs refrigeration mode, the temperature parameter is outdoor ring temperature, and the rotation speed of fan parameter is interior
Rotation speed of fan and outdoor fan rotating speed, the humidity parameter are indoor humidity.
16. mobile terminal according to right wants 15, it is characterised in that
The air-conditioner is additionally operable to obtain the rated speed of indoor fan and the rated speed of outdoor fan;And obtain specified work
Indoor specified humidity under condition;
The receiver be additionally operable to receive the rated speed of the indoor fan that the air-conditioner sends, outdoor fan it is specified
Indoor specified humidity under rotating speed and declared working condition;
The processor is used to obtain actual performance parameter according to the initial performance parameter and the corrected parameter, including:
According to the rated speed of the rotation speed of fan parameter, the rated speed of the indoor fan and the outdoor fan, it is determined that
The rotating speed correction of the indoor fan and the rotating speed correction of the outdoor fan;
According to the indoor specified humidity under the humidity parameter and the declared working condition, the air-conditioner operation refrigeration mode is determined
When indoor relative humidity correction.
17. mobile terminals according to claim 16, it is characterised in that
The rotating speed correction of the indoor fan is calculated according to equation below:
RPMn=Npn* (RPM_tn-RPM_gn),
Wherein, RPMn is the rotating speed correction of the indoor fan, and Npn is the amendment system of the rotating speed correction of the indoor fan
Number, RPM_tn is the indoor fan rotating speed, and RPM_gn is the rated speed of the indoor fan;
The rotating speed correction of the outdoor fan is calculated according to equation below:
RPMw=NPw* (RPM_tw-RPM_gw),
Wherein, RPMw is the rotating speed correction of the outdoor fan, and NPw is the amendment system of the rotating speed correction of the outdoor fan
Number, RPM_tw is the outdoor fan rotating speed, and RPM_gw is the rated speed of the outdoor fan;
Indoor relative humidity correction during the air-conditioner operation refrigeration mode is calculated according to equation below:
Tn=Ntn* (T_tn-T_gn),
Wherein, Tn is the indoor relative humidity correction, and Ntn is the correction factor of the indoor relative humidity correction, T_
Tn is the indoor humidity, and T_gn is the indoor specified humidity under the declared working condition.
18. mobile terminals according to claim 17, it is characterised in that the processor is used for according to the initial performance
Parameter and the corrected parameter obtain actual performance parameter, including:
Actual performance parameter during the air-conditioner operation refrigeration mode is calculated according to equation below:
COPc=COP0+ RPMw+RPMn+Tn,
Wherein, COPc is the actual performance parameter.
19. mobile terminals according to claim 18, it is characterised in that
The air-conditioner is additionally operable to obtain input power of the air-conditioner when refrigeration mode is run;
The receiver is additionally operable to receive input power of the air-conditioner of the air-conditioner transmission when refrigeration mode is run;
The processor is used for the actual heat exchange amount according to the actual performance parameter determination air-conditioner, the actual heat exchange amount bag
Refrigerating capacity is included, including:
Refrigerating capacity of the air-conditioning when refrigeration mode is run is calculated according to equation below:
CC=COPc*Pc,
Wherein, CC is the refrigerating capacity, and Pc is input power of the air-conditioner when refrigeration mode is run.
20. mobile terminals according to claim 14, it is characterised in that
When the air-conditioner runs heating mode, the temperature parameter is indoor ring temperature, and the rotation speed of fan parameter is interior
Rotation speed of fan and outdoor fan rotating speed, the humidity parameter are outside humidity.
21. mobile terminals according to claim 20, it is characterised in that
The air-conditioner is additionally operable to obtain the rated speed of indoor fan and the rated speed of outdoor fan;And obtain specified work
Outdoor specified humidity under condition;
The receiver is additionally operable to receive the rated speed and the volume of outdoor fan of the indoor fan that the air-conditioner sends
Determine the outdoor specified humidity under rotating speed, and declared working condition;
The processor is used to obtain actual performance parameter according to the initial performance parameter and the corrected parameter, including:
According to the rated speed of the rotation speed of fan parameter, the rated speed of the indoor fan and the outdoor fan, it is determined that
The rotating speed correction of the indoor fan and the rotating speed correction of the outdoor fan;
According to the outdoor specified humidity under the humidity parameter and the declared working condition, the air-conditioner operation heating mode is determined
When outside relative humidity correction.
22. mobile terminals according to claim 21, it is characterised in that
The rotating speed correction of the indoor fan is calculated according to equation below:
RPMn=Npn* (RPM_tn-RPM_gn),
Wherein, RPMn is the rotating speed correction of the indoor fan, and Npn is the amendment system of the rotating speed correction of the indoor fan
Number, RPM_tn is the indoor fan rotating speed, and RPM_gn is the rated speed of the indoor fan;
The rotating speed correction of the outdoor fan is calculated according to equation below:
RPMw=NPw* (RPM_tw-RPM_gw),
Wherein, RPMw is the rotating speed correction of the outdoor fan, and NPw is the amendment system of the rotating speed correction of the outdoor fan
Number, RPM_tw is the outdoor fan rotating speed, and RPM_gw is the rated speed of the outdoor fan;
Outside relative humidity correction during the air-conditioner operation heating mode is calculated according to equation below:
Tw=Ntw* (T_tw-T_gw),
Wherein, Tw is the outside relative humidity correction, and Ntw is the correction factor of the outside relative humidity correction, T_
Tw is the outside humidity, and T_gw is the outdoor specified humidity under the declared working condition.
23. mobile terminals according to claim 22, it is characterised in that the processor is used for according to the initial performance
Parameter and the corrected parameter obtain actual performance parameter, including:
Actual performance parameter during the air-conditioner operation heating mode is calculated according to equation below:
COPh=COP0+ RPMw+RPMn+Tw,
Wherein, COPh is the actual performance parameter.
24. mobile terminals according to claim 23, it is characterised in that
The air-conditioner is additionally operable to obtain input power of the air-conditioner when heating mode is run;
The receiver is additionally operable to receive input power of the air-conditioner of the air-conditioner transmission when heating mode is run;
The processor is used for the actual heat exchange amount according to the actual performance parameter determination air-conditioner, the actual heat exchange amount bag
Heating capacity is included, including:
Heating capacity of the air-conditioning when heating mode is run is calculated according to equation below:
HC=COPh*Ph,
Wherein, HC is the heating capacity, and Ph is input power of the air-conditioner when heating mode is run.
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Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
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US20050040250A1 (en) * | 2003-08-18 | 2005-02-24 | Wruck Richard A. | Transfer of controller customizations |
CN203731622U (en) * | 2013-11-28 | 2014-07-23 | 杭州天丽科技有限公司 | Intelligent air conditioner |
CN105042779A (en) * | 2015-09-30 | 2015-11-11 | 苏州盟通利机电设备有限公司 | Intelligent air conditioner control box and method |
CN205279346U (en) * | 2015-12-18 | 2016-06-01 | 重庆市同方科技发展有限公司 | Energy efficiency ratio on -line monitoring device is carried to air conditioner water system based on DDC |
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2017
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Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20050040250A1 (en) * | 2003-08-18 | 2005-02-24 | Wruck Richard A. | Transfer of controller customizations |
CN203731622U (en) * | 2013-11-28 | 2014-07-23 | 杭州天丽科技有限公司 | Intelligent air conditioner |
CN105042779A (en) * | 2015-09-30 | 2015-11-11 | 苏州盟通利机电设备有限公司 | Intelligent air conditioner control box and method |
CN205279346U (en) * | 2015-12-18 | 2016-06-01 | 重庆市同方科技发展有限公司 | Energy efficiency ratio on -line monitoring device is carried to air conditioner water system based on DDC |
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