CN107101319A - Air conditioner and mobile terminal - Google Patents

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 basic parameter and corrected parameter that the air conditioner required for calculating heat pump performance and heat exchange amount is run, transmitter is mainly used in sending said reference parameter and corrected parameter to mobile terminal, so that mobile terminal can calculate the determination parameter such as 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 added, the man-machine interaction experience of air-conditioning products is improved.

Description

Air conditioner and mobile terminal

technical field

The invention relates to the technical field of air conditioners, in particular to an air conditioner and a mobile terminal.

Background technique

The current air conditioner products are not highly informatized, and their display functions are very limited. They can only display indoor temperature, set temperature and other function symbols, and do not have the ability to calculate and display cooling capacity, heating capacity, and performance parameters in real time. functions, and users are also more concerned about these in-depth parameters of air conditioners, so such air conditioner products cannot meet the needs of users at all in today's era of pursuing big data, and users cannot obtain cooling capacity, heating capacity and performance parameters. The key information related to the operating capacity of the air conditioner affects the user experience of the air conditioner, and this problem also hinders the subsequent function expansion of the air conditioner.

Contents of the invention

The invention provides an air conditioner and a mobile terminal, aiming at displaying parameters such as cooling capacity, heating capacity and performance parameters to users by using a mobile phone. In order to provide a basic understanding of some aspects of the disclosed embodiments, a brief summary is presented below. This summary is not an overview, nor is it intended to identify key/critical elements or delineate the scope of these embodiments. Its sole purpose is to present some concepts in a simplified form as a prelude to the more detailed description that is presented later.

According to a first aspect of the present invention, an air conditioner is provided, and the air conditioner includes: a processor for obtaining reference parameters and correction parameters for the operation of the air conditioner, wherein the reference parameters include compressor frequency parameters and temperature parameters, and the correction parameters are: The parameters include fan speed parameters and humidity parameters; and transmitters, which are used to send reference parameters and correction parameters to the mobile terminal to determine the actual performance parameters and actual heat transfer of the air conditioner. The actual performance parameters and actual heat transfer are as follows Calculation and determination: determine the initial performance parameters according to the benchmark parameters, obtain the actual performance parameters according to the initial performance parameters and the correction parameters, and determine the actual heat transfer of the air conditioner according to the actual performance parameters; the initial performance parameters are calculated according to the following formula: COP ₀ = -A *f+B*T+C, where COP ₀ is the initial performance parameter, f is the compressor frequency parameter, T is the temperature parameter, A is the calculation coefficient of the compressor frequency parameter, B is the calculation coefficient of the temperature parameter, and C is Calculated constants.

Further, when the air conditioner operates in cooling mode, the temperature parameter is the outdoor ambient temperature, the fan speed parameter is the indoor fan speed and the outdoor fan speed, and the humidity parameter is the indoor humidity.

Further, the processor is also used to obtain the rated speed of the indoor fan, the rated speed of the outdoor fan, and the indoor rated humidity under rated working conditions; the transmitter is also used to send the rated speed of the indoor fan and the rated speed of the outdoor fan to the mobile terminal. and indoor rated humidity under rated working conditions; the actual performance parameters are obtained according to the initial performance parameters and correction parameters, including: according to the fan speed parameters, the rated speed of the indoor fan and the rated speed of the outdoor fan, determine the speed correction of the indoor fan and the outdoor fan speed The rotational speed correction amount of the fan; and according to the humidity parameter and the indoor rated humidity under the rated working condition, determine the indoor relative humidity correction amount when the air conditioner operates in cooling mode.

Further, the rotational speed correction amount of the indoor fan is calculated according to the following formula: RPMn=Npn*(RPM_tn-RPM_gn), wherein, RPMn is the rotational speed correction amount of the indoor fan, Npn is the correction coefficient of the indoor fan speed correction amount, and RPM_tn is Indoor fan speed, RPM_gn is the rated speed of the indoor fan; the speed correction of the outdoor fan is calculated according to the following formula: RPMw=NPw*(RPM_tw-RPM_gw), where, RPMw is the speed correction of the outdoor fan, NPw is the speed correction of the outdoor fan The correction coefficient of the speed correction amount, RPM_tw is the speed of the outdoor fan, and RPM_gw is the rated speed of the outdoor fan; the indoor relative humidity correction amount when the air conditioner is in cooling mode is calculated according to the following formula: Tn=Ntn*(T_tn-T_gn), where , Tn is the indoor relative humidity correction amount, Ntn is the correction coefficient of the indoor relative humidity correction amount, T_tn is the indoor humidity, and T_gn is the indoor rated humidity under rated working conditions.

Further, the actual performance parameters are obtained according to the initial performance parameters and the correction parameters, including: the actual performance parameters when the air conditioner operates in cooling mode are calculated according to the following formula: COPc=COP ₀ +RPMw+RPMn+Tn, where COPc is the actual performance parameter.

Further, the processor is also used to obtain the input power of the air conditioner when it is running in the cooling mode; the transmitter is also used to send the input power of the air conditioner to the mobile terminal when it is running in the cooling mode; determine the actual replacement of the air conditioner according to the actual performance parameters Heat, the actual heat exchange includes cooling capacity, including: the cooling capacity of the air conditioner in cooling mode is calculated according to the following formula: CC=COPc*Pc, where CC is the cooling capacity, and Pc is the cooling capacity of the air conditioner in cooling mode input power.

Further, when the air conditioner operates in the heating mode, the temperature parameter is the indoor ambient temperature, the fan speed parameter is the indoor fan speed and the outdoor fan speed, and the humidity parameter is the outdoor humidity.

Further, the processor is also used to obtain the rated speed of the indoor fan, the rated speed of the outdoor fan, and the rated outdoor humidity under rated working conditions; the transmitter is also used to send the rated speed of the indoor fan and the rated speed of the outdoor fan to the mobile terminal. and the outdoor rated humidity under rated working conditions; the actual performance parameters are obtained according to the initial performance parameters and correction parameters, including: according to the fan speed parameters, the rated speed of the indoor fan and the rated speed of the outdoor fan, determine the speed correction of the indoor fan and the outdoor fan speed The fan speed correction amount; and according to the humidity parameter and the outdoor rated humidity under the rated working condition, determine the outdoor relative humidity correction amount when the air conditioner is running in the heating mode.

Further, the rotational speed correction amount of the indoor fan is calculated according to the following formula: RPMn=Npn*(RPM_tn-RPM_gn), wherein, RPMn is the rotational speed correction amount of the indoor fan, Npn is the correction coefficient of the indoor fan speed correction amount, and RPM_tn is Indoor fan speed, RPM_gn is the rated speed of the indoor fan; the speed correction of the outdoor fan is calculated according to the following formula: RPMw=NPw*(RPM_tw-RPM_gw), where, RPMw is the speed correction of the outdoor fan, NPw is the speed correction of the outdoor fan The correction coefficient of the speed correction amount, RPM_tw is the speed of the outdoor fan, and RPM_gw is the rated speed of the outdoor fan; the outdoor relative humidity correction amount when the air conditioner is in the heating mode is calculated according to the following formula: Tw=Ntw*(T_tw-T_gw), Among them, Tw is the outdoor relative humidity correction amount, Ntw is the correction coefficient of the outdoor relative humidity correction amount, T_tw is the outdoor humidity, and T_gw is the outdoor rated humidity under rated working conditions.

Further, the actual performance parameters are obtained according to the initial performance parameters and the correction parameters, including: the actual performance parameters when the air conditioner is in the heating mode are calculated according to the following formula: COPh=COP ₀ +RPMw+RPMn+Tw, where COPh is the actual performance parameters.

Further, the processor is also used to obtain the input power of the air conditioner when it is running in the heating mode; the transmitter is also used to send the input power of the air conditioner to the mobile terminal when it is running in the heating mode; determine the power of the air conditioner according to the actual performance parameters The actual heat exchange, the actual heat exchange includes the heating capacity, including: the heating capacity of the air conditioner in the heating mode is calculated according to the following formula: HC=COPh*Ph, where HC is the heating capacity, and Ph is the air conditioner running Input power in heating mode.

According to the second aspect of the present invention, a mobile terminal is also provided, and the mobile terminal includes: a receiver for receiving reference parameters and correction parameters sent by the air conditioner, wherein the reference parameters include compressor frequency parameters and temperature parameters, The correction parameters include fan speed parameters and humidity parameters; the processor is used to determine the initial performance parameters according to the reference parameters, obtain the actual performance parameters according to the initial performance parameters and the correction parameters, and determine the actual heat transfer of the air conditioner according to the actual performance parameters; the initial performance The parameters are calculated according to the following formula: COP ₀ =-A*f+B*T+C, where COP ₀ is the initial performance parameter, f is the compressor frequency parameter, T is the temperature parameter, and A is the calculation of the compressor frequency parameter Coefficient, B is the calculation coefficient of the temperature parameter, C is the calculation constant; the display is used to display the actual performance parameters and the actual heat transfer to the user.

Further, when the air conditioner operates in cooling mode, the temperature parameter is the outdoor ambient temperature, the fan speed parameter is the indoor fan speed and the outdoor fan speed, and the humidity parameter is the indoor humidity.

Further, the air conditioner is also used to obtain the rated speed of the indoor fan, the rated speed of the outdoor fan and the indoor rated humidity under rated working conditions; the receiver is also used to receive the rated speed of the indoor fan and the rated speed of the outdoor fan sent by the air conditioner. Indoor rated humidity under the speed and rated working conditions; the processor is used to obtain the actual performance parameters according to the initial performance parameters and correction parameters, including: according to the fan speed parameters, the rated speed of the indoor fan and the rated speed of the outdoor fan, determine the speed of the indoor fan The correction amount and the speed correction amount of the outdoor fan; according to the humidity parameter and the indoor rated humidity under the rated working condition, determine the indoor relative humidity correction amount when the air conditioner operates in cooling mode.

Further, the rotational speed correction amount of the indoor fan is calculated according to the following formula: RPMn=Npn*(RPM_tn-RPM_gn), wherein, RPMn is the rotational speed correction amount of the indoor fan, Npn is the correction coefficient of the indoor fan speed correction amount, and RPM_tn is Indoor fan speed, RPM_gn is the rated speed of the indoor fan; the speed correction of the outdoor fan is calculated according to the following formula: RPMw=NPw*(RPM_tw-RPM_gw), where, RPMw is the speed correction of the outdoor fan, NPw is the speed correction of the outdoor fan The correction coefficient of the speed correction amount, RPM_tw is the speed of the outdoor fan, and RPM_gw is the rated speed of the outdoor fan; the indoor relative humidity correction amount when the air conditioner is in cooling mode is calculated according to the following formula: Tn=Ntn*(T_tn-T_gn), where , Tn is the indoor relative humidity correction amount, Ntn is the correction coefficient of the indoor relative humidity correction amount, T_tn is the indoor humidity, and T_gn is the indoor rated humidity under rated working conditions.

Further, the processor is used to obtain the actual performance parameters according to the initial performance parameters and the correction parameters, including: the actual performance parameters when the air conditioner operates in cooling mode are calculated according to the following formula: COPc=COP ₀ +RPMw+RPMn+Tn, where, COPc is the actual performance parameter.

Further, the air conditioner is also used to obtain the input power of the air conditioner when it is running in cooling mode; the receiver is also used to receive the input power of the air conditioner when it is running in cooling mode sent by the air conditioner; the processor is used to determine the air conditioner according to the actual performance parameters The actual heat transfer of the air conditioner includes the cooling capacity, including: the cooling capacity of the air conditioner in cooling mode is calculated according to the following formula: CC=COPc*Pc, where CC is the cooling capacity, and Pc is the cooling capacity of the air conditioner. Input power when running cooling mode.

Further, when the air conditioner operates in the heating mode, the temperature parameter is the indoor ambient temperature, the fan speed parameter is the indoor fan speed and the outdoor fan speed, and the humidity parameter is the outdoor humidity.

Further, the air conditioner is also used to obtain the rated speed of the indoor fan, the rated speed of the outdoor fan, and the rated outdoor humidity under rated conditions; the receiver is also used to receive the rated speed of the indoor fan and the rated speed of the outdoor fan sent by the air conditioner. Speed and rated outdoor humidity under rated working conditions; the processor is used to obtain the actual performance parameters according to the initial performance parameters and correction parameters, including: determining the speed of the indoor fan according to the fan speed parameters, the rated speed of the indoor fan and the rated speed of the outdoor fan The correction amount and the speed correction amount of the outdoor fan; according to the humidity parameter and the outdoor rated humidity under the rated working condition, determine the outdoor relative humidity correction amount when the air conditioner is running in the heating mode.

Further, the rotational speed correction amount of the indoor fan is calculated according to the following formula: RPMn=Npn*(RPM_tn-RPM_gn), wherein, RPMn is the rotational speed correction amount of the indoor fan, Npn is the correction coefficient of the indoor fan speed correction amount, and RPM_tn is Indoor fan speed, RPM_gn is the rated speed of the indoor fan; the speed correction of the outdoor fan is calculated according to the following formula: RPMw=NPw*(RPM_tw-RPM_gw), where, RPMw is the speed correction of the outdoor fan, NPw is the speed correction of the outdoor fan The correction coefficient of the speed correction amount, RPM_tw is the speed of the outdoor fan, and RPM_gw is the rated speed of the outdoor fan; the outdoor relative humidity correction amount when the air conditioner is in the heating mode is calculated according to the following formula: Tw=Ntw*(T_tw-T_gw), Among them, Tw is the outdoor relative humidity correction amount, Ntw is the correction coefficient of the outdoor relative humidity correction amount, T_tw is the outdoor humidity, and T_gw is the outdoor rated humidity under rated working conditions.

Further, the processor is used to obtain the actual performance parameters according to the initial performance parameters and the correction parameters, including: the actual performance parameters when the air conditioner operates in the heating mode are calculated according to the following formula: COPh=COP ₀ +RPMw+RPMn+Tw, where, COPh is the actual performance parameter.

Further, the air conditioner is also used to obtain the input power of the air conditioner when it is running in heating mode; the receiver is also used to receive the input power of the air conditioner when it is running in heating mode sent by the air conditioner; the processor is used to Determine the actual heat exchange rate of the air conditioner, which includes the heating capacity, including: the heating capacity of the air conditioner in the heating mode is calculated according to the following formula: HC=COPh*Ph, where HC is the heating capacity and Ph is The input power of the air conditioner when it is running in heating mode.

The air conditioner of the present invention sends parameters such as compressor frequency, temperature, fan speed and humidity to mobile terminals such as mobile phones, and uses the mobile terminal to calculate the performance parameters and cooling/heating capacity of the air conditioner during the operation process, and can send them to the mobile terminal through the mobile terminal. The user displays relevant parameter information, so that the user can intuitively understand the operating capability of the air conditioner, and improves the user experience.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the invention.

Description of drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and together with the description serve to explain the principles of the invention.

Fig. 1 is a schematic diagram showing device transmission of an air conditioner of the present invention according to an exemplary implementation;

Fig. 2 is a working flow chart of the air conditioner of the present invention shown according to an exemplary embodiment;

Fig. 3 is a schematic diagram of device transmission of a mobile terminal according to an exemplary embodiment of the present invention;

Fig. 4 is a flowchart showing the work of the mobile terminal of the present invention according to an exemplary embodiment.

detailed description

The following description and drawings illustrate specific embodiments of the invention sufficiently to enable those skilled in the art to practice them. Other embodiments may incorporate structural, logical, electrical, process, and other changes. The examples merely represent possible variations. Individual components and functions are optional unless explicitly required, and the order of operations may vary. Portions and features of some embodiments may be included in or substituted for those of other embodiments. The scope of embodiments of the present invention includes the full scope of the claims, and all available equivalents of the claims. Herein, various embodiments may be referred to individually or collectively by the term "invention", which is for convenience only and is not intended to automatically limit the scope of this application if in fact more than one invention is disclosed. A single invention or inventive concept. Herein, relational terms such as first and second etc. are used only to distinguish one entity or operation from another without requiring or implying any actual relationship or relationship between these entities or operations. order. Furthermore, the term "comprises", "comprises" or any other variation thereof is intended to cover a non-exclusive inclusion such that a process, method or apparatus comprising a set of elements includes not only those elements but also other elements not expressly listed elements, or also include elements inherent in such a process, method, or apparatus. Without further limitations, an element defined by the phrase "comprising a ..." does not exclude the presence of additional identical elements in the process, method or apparatus comprising said element. Various embodiments herein are described in a progressive manner, each embodiment focuses on the differences from other embodiments, and the same and similar parts of the various embodiments may be referred to each other. As for the methods, products, etc. disclosed in the examples, since they correspond to the methods disclosed in the examples, the description is relatively simple, and for relevant details, please refer to the description of the methods.

As shown in Figure 1 and Figure 2, the present invention provides an air conditioner. In order to realize the transmission function of related parameters such as air conditioning performance and cooling and heating capacity, the air conditioner mainly includes a processor and a transmitter, wherein the processor mainly It is used to obtain the reference parameters and correction parameters of the air conditioner operation required for calculating the performance of the air conditioner and the heat exchange rate. The transmitter is mainly used to send the above reference parameters and correction parameters to the mobile terminal so that the mobile terminal can calculate and determine the performance of the air conditioner and the conversion parameters such as heat. The air conditioner of the present invention can send relevant parameter information of the air conditioner to mobile terminals such as mobile phones through the above-mentioned device, and the mobile terminal calculates and pushes it to the user, so that the user can know the clear real-time operation parameters of the air conditioner, which increases the transparency of the air conditioner operation information and improves Human-computer interaction experience of air-conditioning products.

In an embodiment of the present invention, the reference parameters acquired by the processor of the air conditioner include a compressor frequency parameter and a temperature parameter, wherein the compressor frequency parameter is the operating frequency of the compressor set on the outdoor unit of the air conditioner, and the temperature parameter Including outdoor ambient temperature and indoor ambient temperature, the outdoor ambient temperature can be detected by the outdoor temperature sensor, the indoor ambient temperature can be detected by the indoor temperature sensor, and the outdoor ambient temperature and indoor ambient temperature and other related temperature parameter information are transmitted to the processor .

In addition, the correction parameters obtained by the processor of the air conditioner include fan speed parameters and humidity parameters, wherein the fan speed parameters include the speed of the outdoor fan set on the outdoor unit and the speed of the indoor fan set on the indoor unit, and the humidity parameters include outdoor humidity and indoor humidity, outdoor humidity can be detected by an outdoor humidity sensor, and indoor humidity can be detected by an indoor environment humidity sensor, and related humidity parameter information such as outdoor humidity and indoor humidity is transmitted to the processor.

In the embodiment of the present invention, the reference parameters and correction parameters sent to the mobile terminal are calculated and determined according to the following procedures to determine the actual performance parameters and actual heat transfer: determine the initial performance parameters according to the reference parameters, and obtain Actual performance parameters, according to the actual performance parameters to determine the actual heat transfer of the air conditioner.

In the previous embodiment, the working process of the mobile terminal further includes: determining the initial heat transfer capacity of the air conditioner according to the initial performance parameters. Among them, the initial performance parameters are the initial performance parameters determined according to the benchmark parameters in the previous step, the initial heat transfer is the uncorrected air-conditioning heat transfer, and the mobile terminal simultaneously pushes the actual heat transfer and The initial heat transfer can more intuitively know the influence of fan speed and indoor and outdoor ambient humidity on the air conditioner's operating performance and heat transfer.

In the embodiment, the mobile terminal calculates the initial performance parameters according to the following formula:

COP ₀ = -A*f+B*T+C,

Among them, COP ₀ is the initial performance parameter, f is the compressor frequency parameter, T is the temperature parameter, A is the calculation coefficient of the compressor frequency parameter, B is the calculation coefficient of the temperature parameter, C is the calculation constant, according to the air conditioner model and operation mode The parameters A, B, and C involved in the above calculation formula can also be modified and adjusted as needed.

In the above-mentioned embodiments, the processor of the air conditioner is mainly used to execute step S201 in the work flow chart shown in FIG. 2 to obtain the reference parameters and correction parameters for the operation of the air conditioner; Send the reference parameter and the correction parameter to the mobile terminal.

In the embodiment of the present invention, since the working conditions of the air conditioner are different in the cooling mode in summer and the heating mode in winter, the present invention provides the processing flow in the two working conditions of cooling in summer and heating in winter, The specific process is as follows:

Embodiment (1), when the air conditioner is in the cooling mode in summer, the process for the processor to obtain the reference parameters and correction parameters of the air conditioner operation includes: determining the operating mode of the air conditioner, the operating mode includes a cooling mode; mode, the obtained temperature parameter is the outdoor ambient temperature, the compressor frequency parameter is the operating frequency of the compressor under the current working condition, the fan speed parameter is the indoor fan speed and the outdoor fan speed, and the humidity parameter is the indoor humidity.

Therefore, in the calculation formula COP ₀ =-A*f+B*T+C, T is the outdoor ambient temperature, and f is the operating frequency of the compressor under cooling conditions.

At the same time, the processor is also used to obtain the rated speed of the indoor fan, the rated speed of the outdoor fan, and the indoor rated humidity under the rated working condition; wherein, the rated speed of the indoor fan refers to the rated working speed of the test under the rated working condition specified in the national standard. The standard speed of the indoor fan used in the test condition; the rated speed of the outdoor fan refers to the standard speed of the outdoor fan used when testing the rated working condition under the rated working condition specified in the national standard; The indoor rated humidity is the indoor standard humidity rating used when testing the rated working conditions under the rated working conditions specified in the national standard. Therefore, the transmitter is also used to send the above-mentioned rated speed of the indoor fan, the rated speed of the outdoor fan, and the rated indoor humidity under rated working conditions to the mobile terminal.

When the air conditioner is running in the cooling mode, the mobile terminal obtains the actual performance parameters according to the initial performance parameters and the correction parameters. The speed correction of the indoor fan and the speed of the outdoor fan in the embodiment can be respectively determined according to the four speed parameters of the speed correction of the indoor fan and the speed correction of the outdoor fan; according to the humidity parameter and the indoor rated humidity under the rated working condition, wherein, The humidity parameter is the indoor humidity in the above embodiment, and the indoor relative humidity correction amount when the air conditioner operates in the cooling mode can be determined according to the two parameters of the indoor humidity and the indoor rated humidity.

Specifically, the rotational speed correction amount of the indoor fan when the air conditioner operates in cooling mode is calculated according to the following formula:

RPMn=Npn*(RPM_tn-RPM_gn),

Among them, RPMn is the speed correction amount of the indoor fan, Npn is the correction coefficient of the speed correction amount of the indoor fan, RPM_tn is the speed of the indoor fan, and RPM_gn is the rated speed of the indoor fan;

The speed correction of the outdoor fan is calculated according to the following formula:

RPMw=NPw*(RPM_tw-RPM_gw),

Among them, RPMw is the speed correction amount of the outdoor fan, NPw is the correction coefficient of the speed correction amount of the outdoor fan, RPM_tw is the speed of the outdoor fan, and RPM_gw is the rated speed of the outdoor fan;

In addition, the indoor relative humidity correction amount when the air conditioner is in cooling mode is calculated according to the following formula:

Tn=Ntn*(T_tn-T_gn),

Among them, Tn is the indoor relative humidity correction amount, Ntn is the correction coefficient of the indoor relative humidity correction amount, T_tn is the indoor humidity, and T_gn is the indoor rated humidity under rated working conditions.

In the embodiment, the mobile terminal obtains the actual performance parameters when the air conditioner operates in the cooling mode according to the initial performance parameters and the correction parameters. The specific process includes: the actual performance parameters when the air conditioner operates in the cooling mode are calculated according to the following formula:

COPc= _COP0 +RPMw+RPMn+Tn,

Wherein, COPc is the actual performance parameter, COP ₀ is the initial performance parameter calculated and determined in the above steps, RPMw, RPMn and Tn are the corrections calculated in the above embodiment, and the present invention only considers the indoor humidity when the air conditioner operates in the cooling mode, The outdoor humidity is not considered, so only the indoor relative humidity correction value Tn is involved in this step.

In the embodiment, the processor is also used to acquire the input power of the air conditioner when it is running in cooling mode; the transmitter is also used to send the input power of the air conditioner when it is running in cooling mode to the mobile terminal. The actual heat exchange capacity of the air conditioner determined by the mobile terminal according to the actual performance parameters is the cooling capacity of the air conditioner in cooling mode. The specific process includes: the cooling capacity of the air conditioner in cooling mode is calculated according to the following formula:

CC=COPc*Pc,

Wherein, CC is the cooling capacity, COPc is the actual performance parameter calculated and determined in the above steps, and Pc is the input power of the air conditioner in cooling mode.

Embodiment (2), when the air conditioner is in the winter heating condition, the process of the processor acquiring the reference parameters and the correction parameters of the air conditioner operation includes: determining the operation mode of the air conditioner, the operation mode includes the heating mode; When running in heating mode, the obtained temperature parameter is the indoor ambient temperature, the compressor frequency parameter is the operating frequency of the compressor under the current working condition, the fan speed parameter is the indoor fan speed and the outdoor fan speed, and the humidity parameter is the outdoor humidity.

Therefore, in the calculation formula COP ₀ =-A*f+B*T+C, T is the indoor ambient temperature, and f is the operating frequency of the compressor under the heating condition.

At the same time, the processor is also used to obtain the rated speed of the indoor fan, the rated speed of the outdoor fan, and the rated outdoor humidity under rated working conditions; wherein, the rated speed of the indoor fan refers to the rated working speed of the test under the rated working conditions specified in the national standard. The standard speed of the indoor fan used in the test condition; the rated speed of the outdoor fan refers to the standard speed of the outdoor fan used when testing the rated working condition under the rated working condition specified in the national standard; The outdoor rated humidity is the outdoor standard humidity rating used when testing the rated working conditions under the rated working conditions specified in the national standard. Therefore, the transmitter is also used to send the rated speed of the indoor fan, the rated speed of the outdoor fan, and the rated outdoor humidity under rated working conditions to the mobile terminal.

When the air conditioner is running in the heating mode, the mobile terminal obtains the actual performance parameters according to the initial performance parameters and the correction parameters. The specific process includes: according to the fan speed parameters, the rated speed of the indoor fan and the rated speed of the outdoor fan, where the fan speed parameters include The speed correction of the indoor fan and the speed of the outdoor fan in the above embodiment can be determined respectively according to the four speed parameters; according to the humidity parameters and the outdoor rated humidity under the rated working condition, where , the humidity parameter is the outdoor humidity in the above embodiment, and the outdoor relative humidity correction amount when the air conditioner operates in the heating mode can be determined according to the two parameters of the outdoor humidity and the rated outdoor humidity.

Specifically, the speed correction amount of the indoor fan is calculated according to the following formula:

RPMn=Npn*(RPM_tn-RPM_gn),

Among them, RPMn is the speed correction amount of the indoor fan, Npn is the correction coefficient of the speed correction amount of the indoor fan, RPM_tn is the speed of the indoor fan, and RPM_gn is the rated speed of the indoor fan;

The speed correction of the outdoor fan is calculated according to the following formula:

RPMw=NPw*(RPM_tw-RPM_gw),

Among them, RPMw is the speed correction amount of the outdoor fan, NPw is the correction coefficient of the speed correction amount of the outdoor fan, RPM_tw is the speed of the outdoor fan, and RPM_gw is the rated speed of the outdoor fan;

In addition, the outdoor relative humidity correction amount when the air conditioner is running in heating mode is calculated according to the following formula:

Tw=Ntw*(T_tw-T_gw),

Among them, Tw is the outdoor relative humidity correction amount, Ntw is the correction coefficient of the outdoor relative humidity correction amount, T_tw is the outdoor humidity, and T_gw is the outdoor rated humidity under rated working conditions.

In the embodiment, the mobile terminal obtains the actual performance parameters when the air conditioner operates in the heating mode according to the initial performance parameters and the correction parameters. The specific process includes: the actual performance parameters when the air conditioner operates in the heating mode are calculated according to the following formula:

COPh= _COP0 +RPMw+RPMn+Tw,

Wherein, COPh is the actual performance parameter, COP ₀ is the initial performance parameter calculated and determined in the above steps, RPMw, RPMn and Tn are the corrections calculated in the above embodiment, and the present invention only considers the outdoor humidity when the air conditioner operates in the heating mode , does not consider the indoor humidity, so only the outdoor relative humidity correction Tw is involved in this step.

In the embodiment, the processor is also used to acquire the input power of the air conditioner when running in the heating mode; the transmitter is also used to send the input power of the air conditioner when running in the heating mode to the mobile terminal. The actual heat exchange capacity of the air conditioner determined by the mobile terminal according to the actual performance parameters is the heating capacity. The specific process includes: the heating capacity of the air conditioner when it is running in the heating mode is calculated according to the following formula:

HC=COPh*Ph,

Wherein, HC is the heating capacity, COPh is the actual performance parameter calculated and determined in the above steps, and Ph is the input power of the air conditioner in the heating mode.

In addition, in the above-mentioned embodiment (1) and embodiment (2), the initial heat transfer capacity of the air conditioner determined by the mobile terminal according to the initial performance parameters is divided into an initial cooling capacity and an initial heating capacity, which are specifically calculated as follows:

When the air conditioner is running in the cooling mode, CC _initial = COP ₀ *Pc, where CC is the _initial cooling capacity, and Pc is the input power of the air conditioner in the cooling mode;

When the air conditioner operates in the heating mode, HC _initial =COP ₀ *Ph, where HC _initial is the initial heating capacity, and Ph is the input power of the air conditioner in the heating mode.

As shown in Figures 3 and 4, the present invention also provides a mobile terminal. In order to realize functions such as calculation and display of information such as air-conditioning performance and cooling/heating heat exchange, the mobile terminal mainly includes a receiver, Processor and display, among them, the receiver is mainly used to receive the reference parameters and correction parameters from the air conditioner, the processor is mainly used to calculate and determine the actual performance parameters and actual heat transfer parameters, and the display is mainly used to display the actual parameters to the user. Performance parameters and actual heat transfer. The mobile terminal of the present invention can complete the transmission and display of related performance parameters of the air conditioner through the above device, and can push these parameter information to the user, so that the user can understand the real-time operation performance of the air conditioner.

The mobile terminal can be a mobile phone or a tablet computer, etc., and the mobile terminal can perform data communication with one or more air conditioners, so as to realize the data exchange of related operating parameters of the air conditioners.

In the embodiment, the receiver is mainly used to execute step S410 in the work flow chart shown in FIG. 4 to receive the reference parameters and correction parameters sent by the air conditioner; the processor is mainly used to execute steps S421-S424, wherein, Step S421 is to determine the initial performance parameters according to the reference parameters, step S422 is to obtain the actual performance parameters according to the initial performance parameters and the correction parameters, step S423 is to determine the actual heat transfer capacity of the air conditioner according to the actual performance parameters, and step S424 is to determine according to the initial performance parameters The initial exchange rate of the air conditioner; the display is mainly used to perform the step S430 disclosed in the embodiment to display the actual performance parameters, the initial exchange rate and the actual exchange rate to the user.

The specific process for the processor of the mobile terminal to execute the above steps S421-S424 has been described in the embodiment of the air conditioner above, so it will not be repeated here.

After the processor completes the calculation of the actual performance parameters, initial heat transfer and actual heat transfer of the mobile terminal, it will transmit the relevant data to the display. Display information such as actual performance parameters, initial heat transfer and actual heat transfer to the user.

In addition, since the transmitter of the air conditioner is also used to send the rated rotational speed of the indoor fan of the air conditioner under cooling conditions, the rated rotational speed of the outdoor fan, and the rated indoor humidity under rated operating conditions to the mobile terminal, the receiver of the mobile terminal It is also used to receive the above-mentioned rated speed of the indoor fan, the rated speed of the outdoor fan and the indoor rated humidity under rated working conditions sent by the air conditioner.

The transmitter of the air conditioner is also used to send the input power of the air conditioner in cooling mode to the mobile terminal, so the receiver of the mobile terminal is also used to receive the input power of the air conditioner in cooling mode from the air conditioner.

Since the transmitter of the air conditioner is also used to send the rated speed of the indoor fan of the air conditioner under the heating condition, the rated speed of the outdoor fan and the rated outdoor humidity under the rated working condition to the mobile terminal, the receiver of the mobile terminal also It is used to receive the above-mentioned rated speed of the indoor fan, the rated speed of the outdoor fan and the rated outdoor humidity under the rated working conditions sent by the air conditioner.

The transmitter of the air conditioner is also used to send the input power of the air conditioner in the heating mode to the mobile terminal, so the receiver of the mobile terminal is also used to receive the input power of the air conditioner in the heating mode sent by the air conditioner.

It should be understood that the present invention is not limited to the processes and structures that have been described above and shown in the accompanying drawings, and various modifications and changes can be made without departing from the scope thereof. The scope of the invention is limited only by the appended claims.

Claims (22)

1. An air conditioner, comprising a controller, characterized in that the controller comprises: A processor, configured to obtain reference parameters and correction parameters for the operation of the air conditioner, wherein the reference parameters include compressor frequency parameters and temperature parameters, and the correction parameters include fan speed parameters and humidity parameters; and a transmitter, configured to send the reference parameter and the correction parameter to the mobile terminal to determine the actual performance parameter and the actual heat transfer amount of the air conditioner, and the actual performance parameter and the actual heat transfer amount are as follows Calculation and determination: determine the initial performance parameters according to the benchmark parameters, obtain the actual performance parameters according to the initial performance parameters and the correction parameters, and determine the actual heat transfer capacity of the air conditioner according to the actual performance parameters; the initial performance parameters are according to the following formula Calculated to get: COP ₀ = -A*f+B*T+C, Wherein, COP ₀ is the initial performance parameter, f is the compressor frequency parameter, T is the temperature parameter, A is the calculation coefficient of the compressor frequency parameter, B is the calculation coefficient of the temperature parameter, C is a computational constant. 2. The air conditioner according to claim 1, characterized in that, When the air conditioner operates in cooling mode, the temperature parameter is the outdoor ambient temperature, the fan speed parameter is the indoor fan speed and the outdoor fan speed, and the humidity parameter is the indoor humidity. 3. The air conditioner according to claim 2, characterized in that, The processor is also used to obtain the rated speed of the indoor fan, the rated speed of the outdoor fan and the indoor rated humidity under rated working conditions; The transmitter is also used to send the rated speed of the indoor fan, the rated speed of the outdoor fan, and the rated indoor humidity under rated working conditions to the mobile terminal; The obtaining actual performance parameters according to the initial performance parameters and the correction parameters includes: determining a speed correction amount of the indoor fan and a speed correction amount of the outdoor fan according to the fan speed parameter, the rated speed of the indoor fan, and the rated speed of the outdoor fan; and According to the humidity parameter and the indoor rated humidity under the rated working condition, the indoor relative humidity correction amount when the air conditioner operates in cooling mode is determined. 4. The air conditioner according to claim 3, characterized in that, The rotational speed correction amount of the indoor fan is calculated according to the following formula: RPMn=Npn*(RPM_tn-RPM_gn), Wherein, RPMn is the rotational speed correction amount of the indoor fan, Npn is the correction coefficient of the rotational speed correction amount of the indoor fan, RPM_tn is the rotational speed of the indoor fan, and RPM_gn is the rated rotational speed of the indoor fan; The rotational speed correction amount of the outdoor fan is calculated according to the following formula: RPMw=NPw*(RPM_tw-RPM_gw), Wherein, RPMw is the speed correction amount of the outdoor fan, NPw is a correction coefficient of the outdoor fan speed correction amount, RPM_tw is the speed of the outdoor fan, and RPM_gw is the rated speed of the outdoor fan; The indoor relative humidity correction amount when the air conditioner operates in cooling mode is calculated according to the following formula: Tn=Ntn*(T_tn-T_gn), Wherein, Tn is the indoor relative humidity correction amount, Ntn is the correction coefficient of the indoor relative humidity correction amount, T_tn is the indoor humidity, and T_gn is the indoor rated humidity under the rated working condition. 5. The air conditioner according to claim 4, wherein the actual performance parameters obtained according to the initial performance parameters and the correction parameters include: The actual performance parameters of the air conditioner in cooling mode are calculated according to the following formula: COPc= _COP0 +RPMw+RPMn+Tn, Wherein, COPc is the actual performance parameter. 6. The air conditioner according to claim 5, characterized in that, The processor is also used to obtain the input power of the air conditioner when it is running in cooling mode; The transmitter is also used to send the input power of the air conditioner in cooling mode to the mobile terminal; The determining of the actual heat transfer of the air conditioner according to the actual performance parameters, the actual heat transfer includes cooling capacity, including: The cooling capacity of the air conditioner in cooling mode is calculated according to the following formula: CC=COPc*Pc, Wherein, CC is the cooling capacity, and Pc is the input power of the air conditioner in cooling mode. 7. The air conditioner according to claim 1, characterized in that, When the air conditioner operates in the heating mode, the temperature parameter is the indoor ambient temperature, the fan speed parameter is the indoor fan speed and the outdoor fan speed, and the humidity parameter is the outdoor humidity. 8. The air conditioner according to claim 7, characterized in that, The processor is also used to obtain the rated speed of the indoor fan and the rated speed of the outdoor fan; and obtain the outdoor rated humidity under rated working conditions; The transmitter is also used to send the rated speed of the indoor fan, the rated speed of the outdoor fan, and the rated outdoor humidity under rated working conditions to the mobile terminal; The obtaining actual performance parameters according to the initial performance parameters and the correction parameters includes: determining a speed correction amount of the indoor fan and a speed correction amount of the outdoor fan according to the fan speed parameter, the rated speed of the indoor fan, and the rated speed of the outdoor fan; and According to the humidity parameter and the rated outdoor humidity under the rated working condition, an outdoor relative humidity correction amount when the air conditioner operates in a heating mode is determined. 9. The air conditioner according to claim 8, characterized in that, The rotational speed correction amount of the indoor fan is calculated according to the following formula: RPMn=Npn*(RPM_tn-RPM_gn), Wherein, RPMn is the rotational speed correction amount of the indoor fan, Npn is the correction coefficient of the rotational speed correction amount of the indoor fan, RPM_tn is the rotational speed of the indoor fan, and RPM_gn is the rated rotational speed of the indoor fan; The rotational speed correction amount of the outdoor fan is calculated according to the following formula: RPMw=NPw*(RPM_tw-RPM_gw), Wherein, RPMw is the speed correction amount of the outdoor fan, NPw is a correction coefficient of the outdoor fan speed correction amount, RPM_tw is the speed of the outdoor fan, and RPM_gw is the rated speed of the outdoor fan; The outdoor relative humidity correction amount when the air conditioner operates in the heating mode is calculated according to the following formula: Tw=Ntw*(T_tw-T_gw), Wherein, Tw is the outdoor relative humidity correction amount, Ntw is the correction coefficient of the outdoor relative humidity correction amount, T_tw is the outdoor humidity, and T_gw is the outdoor rated humidity under the rated working condition. 10. The air conditioner according to claim 9, wherein said obtaining actual performance parameters according to said initial performance parameters and said correction parameters comprises: The actual performance parameters of the air conditioner in the heating mode are calculated according to the following formula: COPh= _COP0 +RPMw+RPMn+Tw, Wherein, COPh is the actual performance parameter. 11. The air conditioner according to claim 10, characterized in that, The processor is also used to obtain the input power of the air conditioner when it is running in a heating mode; The transmitter is also used to send the input power of the air conditioner in the heating mode to the mobile terminal; The determining of the actual heat transfer amount of the air conditioner according to the actual performance parameters, the actual heat transfer amount includes the heating amount, including: The heating capacity of the air conditioner in the heating mode is calculated according to the following formula: HC=COPh*Ph, Wherein, HC is the heating capacity, and Ph is the input power of the air conditioner in the heating mode. 12. A mobile terminal, characterized in that the mobile terminal comprises: The receiver is configured to receive reference parameters and correction parameters sent by the air conditioner, wherein the reference parameters include compressor frequency parameters and temperature parameters, and the correction parameters include fan speed parameters and humidity parameters; A processor, configured to determine an initial performance parameter according to a benchmark parameter, obtain an actual performance parameter according to the initial performance parameter and the correction parameter, and determine an actual heat transfer amount of the air conditioner according to the actual performance parameter; the initial performance parameter is according to Calculated by the following formula: COP ₀ = -A*f+B*T+C, Wherein, COP ₀ is the initial performance parameter, f is the compressor frequency parameter, T is the temperature parameter, A is the calculation coefficient of the compressor frequency parameter, B is the calculation coefficient of the temperature parameter, C is a computational constant; A display is used to display the actual performance parameter and the actual heat exchange amount to the user. 13. The mobile terminal according to claim 12, characterized in that, When the air conditioner operates in cooling mode, the temperature parameter is the outdoor ambient temperature, the fan speed parameter is the indoor fan speed and the outdoor fan speed, and the humidity parameter is the indoor humidity. 14. The mobile terminal according to claim 13, characterized in that, The air conditioner is also used to obtain the rated speed of the indoor fan and the rated speed of the outdoor fan; and obtain the indoor rated humidity under rated working conditions; The receiver is also used to receive the rated rotational speed of the indoor fan, the rated rotational speed of the outdoor fan, and the rated indoor humidity under rated working conditions sent by the air conditioner; The processor is used to obtain actual performance parameters according to the initial performance parameters and the correction parameters, including: determining a speed correction amount of the indoor fan and a speed correction amount of the outdoor fan according to the fan speed parameter, the rated speed of the indoor fan, and the rated speed of the outdoor fan; According to the humidity parameter and the indoor rated humidity under the rated working condition, the indoor relative humidity correction amount when the air conditioner operates in cooling mode is determined. 15. The mobile terminal according to claim 14, characterized in that, The rotational speed correction amount of the indoor fan is calculated according to the following formula: RPMn=Npn*(RPM_tn-RPM_gn), Wherein, RPMn is the speed correction amount of the indoor fan, Npn is the correction coefficient of the speed correction amount of the indoor fan, RPM_tn is the speed of the indoor fan, and RPM_gn is the rated speed of the indoor fan; The rotational speed correction amount of the outdoor fan is calculated according to the following formula: RPMw=NPw*(RPM_tw-RPM_gw), Wherein, RPMw is the speed correction amount of the outdoor fan, NPw is a correction coefficient of the outdoor fan speed correction amount, RPM_tw is the speed of the outdoor fan, and RPM_gw is the rated speed of the outdoor fan; The indoor relative humidity correction amount when the air conditioner operates in cooling mode is calculated according to the following formula: Tn=Ntn*(T_tn-T_gn), Wherein, Tn is the indoor relative humidity correction amount, Ntn is the correction coefficient of the indoor relative humidity correction amount, T_tn is the indoor humidity, and T_gn is the indoor rated humidity under the rated working condition. 16. The mobile terminal according to claim 15, wherein the processor is configured to obtain an actual performance parameter according to the initial performance parameter and the modified parameter, comprising: The actual performance parameters of the air conditioner in cooling mode are calculated according to the following formula: COPc= _COP0 +RPMw+RPMn+Tn, Wherein, COPc is the actual performance parameter. 17. The mobile terminal according to claim 16, characterized in that, The air conditioner is also used to acquire the input power of the air conditioner in cooling mode; The receiver is also used to receive the input power sent by the air conditioner when the air conditioner is running in cooling mode; The processor is used to determine the actual heat transfer capacity of the air conditioner according to the actual performance parameters, and the actual heat transfer capacity includes cooling capacity, including: The cooling capacity of the air conditioner in cooling mode is calculated according to the following formula: CC=COPc*Pc, Wherein, CC is the cooling capacity, and Pc is the input power of the air conditioner in cooling mode. 18. The mobile terminal according to claim 12, characterized in that, When the air conditioner operates in the heating mode, the temperature parameter is the indoor ambient temperature, the fan speed parameter is the indoor fan speed and the outdoor fan speed, and the humidity parameter is the outdoor humidity. 19. The mobile terminal according to claim 18, characterized in that, The air conditioner is also used to obtain the rated speed of the indoor fan and the rated speed of the outdoor fan; and obtain the outdoor rated humidity under rated working conditions; The receiver is also used to receive the rated speed of the indoor fan and the rated speed of the outdoor fan sent by the air conditioner, and the rated outdoor humidity under rated working conditions; The processor is used to obtain actual performance parameters according to the initial performance parameters and the correction parameters, including: determining a speed correction amount of the indoor fan and a speed correction amount of the outdoor fan according to the fan speed parameter, the rated speed of the indoor fan, and the rated speed of the outdoor fan; According to the humidity parameter and the rated outdoor humidity under the rated working condition, an outdoor relative humidity correction amount when the air conditioner operates in a heating mode is determined. 20. The mobile terminal according to claim 19, wherein: The rotational speed correction amount of the indoor fan is calculated according to the following formula: RPMn=Npn*(RPM_tn-RPM_gn), Wherein, RPMn is the rotational speed correction amount of the indoor fan, Npn is the correction coefficient of the rotational speed correction amount of the indoor fan, RPM_tn is the rotational speed of the indoor fan, and RPM_gn is the rated rotational speed of the indoor fan; The rotational speed correction amount of the outdoor fan is calculated according to the following formula: RPMw=NPw*(RPM_tw-RPM_gw), Wherein, RPMw is the speed correction amount of the outdoor fan, NPw is a correction coefficient of the speed correction amount of the outdoor fan, RPM_tw is the speed of the outdoor fan, and RPM_gw is the rated speed of the outdoor fan; The outdoor relative humidity correction amount when the air conditioner operates in the heating mode is calculated according to the following formula: Tw=Ntw*(T_tw-T_gw), Wherein, Tw is the outdoor relative humidity correction amount, Ntw is the correction coefficient of the outdoor relative humidity correction amount, T_tw is the outdoor humidity, and T_gw is the outdoor rated humidity under the rated working condition. 21. The mobile terminal according to claim 20, wherein the processor is configured to obtain an actual performance parameter according to the initial performance parameter and the modified parameter, comprising: The actual performance parameters of the air conditioner in the heating mode are calculated according to the following formula: COPh= _COP0 +RPMw+RPMn+Tw, Wherein, COPh is the actual performance parameter. 22. The mobile terminal according to claim 21, characterized in that, The air conditioner is also used to acquire the input power of the air conditioner when running in heating mode; The receiver is also used to receive the input power sent by the air conditioner when the air conditioner is running in heating mode; The processor is used to determine the actual heat transfer capacity of the air conditioner according to the actual performance parameters, and the actual heat transfer capacity includes heating capacity, including: The heating capacity of the air conditioner in the heating mode is calculated according to the following formula: HC=COPh*Ph, Wherein, HC is the heating capacity, and Ph is the input power of the air conditioner in the heating mode.