CN104374055A - Control method and system for air conditioner unit - Google Patents

Abstract

The invention provides a control method for an air conditioner unit. The control method includes the steps of obtaining the set temperature, internal environment temperature and external environment temperature of the air conditioner unit, determining a corresponding refrigeration reference temperature and a corresponding heating reference temperature according to the external environment temperature, comparing the difference obtained by subtracting the internal environment temperature from the set temperature with the refrigeration reference temperature and the heating reference temperature, controlling the air conditioner unit to enter a refrigeration mode if the difference is smaller than or equal to the refrigeration reference temperature, controlling the air conditioner unit to enter an air supply mode if the difference is larger than the refrigeration reference temperature and smaller than the heating reference temperature, and controlling the air conditioner unit to enter a heating mode if the difference is larger than or equal to the heating reference temperature. Thus, a user does not need to switch the modes through buttons, and the problem that running modes of an air conditioner unit in the prior art cannot be automatically switched according to actual requirements of users is solved.

Description

The control method of air-conditioner set and system

Technical field

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

Background technology

Existing air-conditioner set, after needing user key-press to select refrigeration mode or heating mode, the temperature needed could be set, further, in the use procedure of air-conditioner set, after user selects refrigeration mode, air-conditioner set can only be blown a cold wind over, after user selects heating mode, air-conditioner set can only blowing hot-air, and operational mode is single and can not according to the actual demand automatic switchover operational mode of user.

Summary of the invention

In view of this, the invention provides a kind of control method and system of air-conditioner set, need artificial button to select operational mode and can not according to the problem of the actual demand automatic switchover operational mode of user to solve air-conditioner set in prior art.

For achieving the above object, the invention provides following technical scheme:

A control method for air-conditioner set, comprising:

Obtain the design temperature of air-conditioner set, environment temperature and external environment temperature;

Determine corresponding refrigeration fiducial temperature according to described external environment temperature and heat fiducial temperature;

The difference described design temperature being deducted described environment temperature is respectively with described refrigeration fiducial temperature with heat fiducial temperature and compare;

If described difference is less than or equal to described refrigeration fiducial temperature, then controls described air-conditioner set and enter refrigeration mode;

If described difference is greater than described refrigeration fiducial temperature and heat fiducial temperature described in being less than, then controls described air-conditioner set and enter air supply pattern;

If heat fiducial temperature described in described difference is more than or equal to, then control described air-conditioner set and enter heating mode.

Preferably, the described process determined corresponding refrigeration fiducial temperature according to described external environment temperature and heat fiducial temperature comprises:

Determine corresponding temperature range according to described external environment temperature, and obtain the refrigeration fiducial temperature corresponding with described temperature range and heat fiducial temperature, described temperature range divides according to the fiducial temperature preset and return difference value.

Preferably, also comprise:

According to described environment temperature and external environment temperature to described refrigeration fiducial temperature with heat fiducial temperature correction, to obtain revised refrigeration fiducial temperature and revisedly to heat fiducial temperature.

Preferably, obtain revised refrigeration fiducial temperature and revised heat fiducial temperature after, also comprise:

The difference described design temperature being deducted described environment temperature compares with described revised refrigeration fiducial temperature and the revised fiducial temperature that heats respectively;

If described difference is less than or equal to described revised refrigeration fiducial temperature, then controls described air-conditioner set and enter refrigeration mode;

If described difference is greater than described revised refrigeration fiducial temperature and is less than describedly revisedly heat fiducial temperature, then control described air-conditioner set and enter air supply pattern;

If described difference is more than or equal to and describedly revisedly heats fiducial temperature, then control described air-conditioner set and enter heating mode.

Preferably, described revised refrigeration fiducial temperature equals the product of the first coefficient and described refrigeration fiducial temperature, the second coefficient and the product of described environment temperature and the sum of products of the 3rd coefficient and described external environment temperature; Described revised heat fiducial temperature equal Quaternary system number and described heat fiducial temperature product, the 5th coefficient and the product of described environment temperature and the sum of products of the 6th coefficient and described external environment temperature.

A control system for air-conditioner set, comprising:

Acquisition module, for obtaining the design temperature of air-conditioner set, environment temperature and external environment temperature;

Definite value module, for determining corresponding refrigeration fiducial temperature and heating fiducial temperature according to described external environment temperature;

Comparison module, for described design temperature is deducted described environment temperature difference respectively with described refrigeration fiducial temperature with heat fiducial temperature and compare, if described difference is less than or equal to described refrigeration fiducial temperature, then send the first control instruction to control module; If described difference is greater than described refrigeration fiducial temperature and heat fiducial temperature described in being less than, then send the second control instruction to control module; If heat fiducial temperature described in described difference is more than or equal to, then send the 3rd control instruction to control module;

Control module, for after receiving described first control instruction, controls described air-conditioner set and enters refrigeration mode; After receiving described second control instruction, control described air-conditioner set and enter air supply pattern; After receiving described 3rd control instruction, control described air-conditioner set and enter heating mode.

Preferably, described definite value module comprises:

First module, for determining corresponding temperature range according to described external environment temperature, described temperature range divides according to the fiducial temperature preset and return difference value;

Second unit, for obtaining the refrigeration fiducial temperature corresponding with described temperature range and heating fiducial temperature.

Preferably, also comprise:

Correcting module, for according to described environment temperature and external environment temperature to described refrigeration fiducial temperature with heat fiducial temperature correction, to obtain revised refrigeration fiducial temperature and revisedly to heat fiducial temperature.

Preferably, the difference of described comparison module also for described design temperature being deducted described environment temperature compares with described revised refrigeration fiducial temperature and the revised fiducial temperature that heats respectively, if described difference is less than or equal to described revised refrigeration fiducial temperature, then send the first control instruction to control module; If described difference is greater than described revised refrigeration fiducial temperature and is less than describedly revisedly heat fiducial temperature, then send the second control instruction to control module; If described difference is more than or equal to and describedly revisedly heats fiducial temperature, then send the 3rd control instruction to control module.

Preferably, described revised refrigeration fiducial temperature equals the product of the first coefficient and described refrigeration fiducial temperature, the second coefficient and the product of described environment temperature and the sum of products of the 3rd coefficient and described external environment temperature; Described revised heat fiducial temperature equal Quaternary system number and described heat fiducial temperature product, the 5th coefficient and the product of described environment temperature and the sum of products of the 6th coefficient and described external environment temperature.

Compared with prior art, technical scheme provided by the present invention has the following advantages:

The control method of air-conditioner set provided by the present invention and system, determine refrigeration fiducial temperature according to the external environment temperature of air-conditioner set and heat fiducial temperature, then difference design temperature being deducted environment temperature is respectively with refrigeration fiducial temperature with heat fiducial temperature and compare, and enter refrigeration mode, air supply pattern or heating mode according to comparative result control air-conditioner set, thus do not need user key-press to carry out the switching of pattern, solving existing air-conditioner set can not according to the problem of the actual demand automatic switchover operational mode of user.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiments of the invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to the accompanying drawing provided.

The flow chart of the control method of the air-conditioner set that Fig. 1 provides for one embodiment of the present of invention;

The structure chart of the control system of the air-conditioner set that Fig. 2 provides for an alternative embodiment of the invention.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

An embodiment provides a kind of control method of air-conditioner set, its flow chart as shown in Figure 1, comprising:

S101: obtain the design temperature of air-conditioner set, environment temperature and external environment temperature;

In the present embodiment, environment temperature can obtain from the temperature-sensitive bag on machine in air-conditioner set, and external environment temperature can obtain from the temperature-sensitive bag on machine air-conditioner set.In addition, air-conditioner set in the present embodiment has the intelligent remote controller matched, and after user uses this remote controller to start shooting, air-conditioner set enters control system provided by the invention automatically, carry out the Based Intelligent Control of air-conditioner set, and the design temperature of meeting automatic acquisition intelligent remote controller.Wherein, design temperature in the present embodiment refers to the temperature arranged in intelligent remote controller, can the data of automatic acquisition this design temperature after air-conditioner set start, once user changes the temperature arranged in intelligent remote controller, then system also can the numerical value of real-time update design temperature.

S102: determine corresponding refrigeration fiducial temperature according to described external environment temperature and heat fiducial temperature;

The described process determined corresponding refrigeration fiducial temperature according to described external environment temperature and heat fiducial temperature comprises: determine corresponding temperature range according to described external environment temperature, and obtain the refrigeration fiducial temperature Δ T corresponding with described temperature range _{refrigeration benchmark}with heat fiducial temperature Δ T _{heat benchmark}, described temperature range divides according to the fiducial temperature preset and return difference value.

Wherein, the partition process of temperature range is as follows: a selected temperature T, as fiducial temperature, arranges several time difference DELTA T _i, according to this fiducial temperature and return difference value, external environment temperature is divided into several intervals, such as, (T, T+ Δ T ₁), (T+ Δ T ₁, T+ Δ T ₂), (T+ Δ T ₂, T+ Δ T ₃), (T+ Δ T ₃, T+ Δ T ₄) etc. interval.

S103: the difference described design temperature being deducted described environment temperature respectively with described refrigeration fiducial temperature Δ T _{refrigeration benchmark}with heat fiducial temperature Δ T _{heat benchmark}compare, if described difference is less than or equal to described refrigeration fiducial temperature Δ T _{refrigeration benchmark}, then S104 is entered; If described difference is greater than described refrigeration fiducial temperature Δ T _{refrigeration benchmark}and described in being less than, heat fiducial temperature Δ T _{heat benchmark}, then S105 is entered; If heat fiducial temperature Δ T described in described difference is more than or equal to _{heat benchmark}, then S106 is entered.

S104: control described air-conditioner set and enter refrigeration mode;

S105: control described air-conditioner set and enter air supply pattern;

S106: control described air-conditioner set and enter heating mode.

In the present embodiment, by the difference that design temperature deducted environment temperature respectively with refrigeration fiducial temperature Δ T _{refrigeration benchmark}with heat fiducial temperature Δ T _{heat benchmark}compare, judge that user needs refrigeration, heats or blow, and then control air-conditioner set according to judged result and enter corresponding refrigeration, heat or the operational mode such as air-supply.

In the present embodiment, also can according to described environment temperature and external environment temperature to described refrigeration fiducial temperature Δ T _{refrigeration benchmark}with heat fiducial temperature Δ T _{heat benchmark}revise, obtain revised refrigeration fiducial temperature Δ T _{refrigeration is revised}fiducial temperature Δ T is heated with revised _{heat correction}, with the demand making the operational mode of air-conditioner set more meet user.

Wherein, described revised refrigeration fiducial temperature Δ T _{refrigeration is revised}equal the first coefficient A and described refrigeration fiducial temperature Δ T _{refrigeration benchmark}product, the second coefficient B and the product of described environment temperature and the sum of products of the 3rd coefficient C and described external environment temperature, i.e. Δ T _{refrigeration is revised}=A Δ T _{refrigeration benchmark}+ B environment temperature+C external environment temperature; Describedly revisedly heat fiducial temperature Δ T _{heat correction}equal Quaternary system number a and describedly heat fiducial temperature Δ T _{heat benchmark}product, the 5th coefficient b and the product of described environment temperature and the sum of products of the 6th coefficient c and described external environment temperature, i.e. Δ T _{heat correction}=a Δ T _{heat benchmark}+ b environment temperature+c external environment temperature.

Obtaining revised refrigeration fiducial temperature Δ T _{refrigeration is revised}fiducial temperature Δ T is heated with revised _{heat and repair just}afterwards, air-conditioner set can re-start the judgement of pattern, the difference deducting described environment temperature by described design temperature respectively with described revised refrigeration fiducial temperature Δ T _{refrigeration is revised}fiducial temperature Δ T is heated with revised _{heat correction}compare; If described difference is less than or equal to described revised refrigeration fiducial temperature Δ T _{refrigeration is revised}, then control described air-conditioner set and enter refrigeration mode; If described difference is greater than described revised refrigeration fiducial temperature Δ T _{refrigeration is revised}and be less than and describedly revisedly heat fiducial temperature Δ T _{heat correction}, then control described air-conditioner set and enter air supply pattern; If described difference is more than or equal to and describedly revisedly heats fiducial temperature Δ T _{heat correction}, then control described air-conditioner set and enter heating mode.

The control method of the air-conditioner set that the present embodiment provides, determine refrigeration fiducial temperature according to the external environment temperature of air-conditioner set and heat fiducial temperature, then difference design temperature being deducted environment temperature is respectively with refrigeration fiducial temperature with heat fiducial temperature and compare, and enter refrigeration mode, air supply pattern or heating mode according to comparative result control air-conditioner set, thus do not need user key-press to carry out the switching of pattern, solving existing air-conditioner set can not according to the problem of the actual demand automatic switchover operational mode of user.

An alternative embodiment of the invention provides a kind of control system of air-conditioner set, as shown in Figure 2, comprises acquisition module 201, definite value module 202, comparison module 203 and control module 204.In the present embodiment, after the intelligent remote controller mated with air-conditioner set sends start-up command, control system controls air-conditioner set start and automatically enters intelligent mode.

Wherein, acquisition module 201 is for obtaining the design temperature of air-conditioner set, environment temperature and external environment temperature; Definite value module 202 is for determining corresponding refrigeration fiducial temperature Δ T according to described external environment temperature _{refrigeration base accurate}with heat fiducial temperature Δ T _{heat benchmark}; Comparison module 203 for described design temperature is deducted described environment temperature difference respectively with described refrigeration fiducial temperature Δ T _{refrigeration benchmark}with heat fiducial temperature Δ T _{heat benchmark}compare, if described difference is less than or equal to described refrigeration fiducial temperature Δ T _{refrigeration benchmark}, then the first control instruction is sent to control module 204; If described difference is greater than described refrigeration fiducial temperature Δ T _{refrigeration benchmark}and described in being less than, heat fiducial temperature Δ T _{heat benchmark}, then the second control instruction is sent to control module 204; If heat fiducial temperature Δ T described in described difference is more than or equal to _{heat benchmark}, then the 3rd control instruction is sent to control module 204; Control module 204, for after receiving described first control instruction, controls described air-conditioner set and enters refrigeration mode; After receiving described second control instruction, control described air-conditioner set and enter air supply pattern; After receiving described 3rd control instruction, control described air-conditioner set and enter heating mode.

Wherein, definite value module 202 comprises first module and second unit, and first module is used for determining corresponding temperature range according to described external environment temperature, and described temperature range divides according to the fiducial temperature preset and return difference value; Second unit is for obtaining the refrigeration fiducial temperature Δ T corresponding with described temperature range _{refrigeration benchmark}with heat fiducial temperature Δ T _{heat benchmark}.

The control system that the present embodiment provides also comprises correcting module 205, for according to described environment temperature and external environment temperature to described refrigeration fiducial temperature Δ T _{refrigeration benchmark}with heat fiducial temperature Δ T _{heat benchmark}revise, to obtain revised refrigeration fiducial temperature Δ T _{refrigeration is revised}fiducial temperature Δ T is heated with revised _{heat correction}.

Correcting module 205 is to heating fiducial temperature Δ T _{heat benchmark}with refrigeration fiducial temperature Δ T _{refrigeration benchmark}after revising, described comparison module 203 also for described design temperature is deducted described environment temperature difference respectively with described revised refrigeration fiducial temperature Δ T _{refrigeration is revised}fiducial temperature Δ T is heated with revised _{heat correction}compare, if described difference is less than or equal to described revised refrigeration fiducial temperature Δ T _{refrigeration is revised}, then the first control instruction is sent to control module 204; If described difference is greater than described revised refrigeration fiducial temperature Δ T _{refrigeration is revised}and be less than and describedly revisedly heat fiducial temperature Δ T _{heat correction}, then the second control instruction is sent to control module 204; If described difference is more than or equal to and describedly revisedly heats fiducial temperature Δ T _{heat correction}, then the 3rd control instruction is sent to control module 204.Equally, control module 204 according to the control instruction received, can control air-conditioner set and enters corresponding operational mode.

In the present embodiment, revised refrigeration fiducial temperature Δ T _{refrigeration is revised}equal the first coefficient A and described refrigeration fiducial temperature Δ T _{refrigeration benchmark}product, the second coefficient B and the product of described environment temperature and the sum of products of the 3rd coefficient C and described external environment temperature, i.e. Δ T _{refrigeration is revised}=A Δ T _{refrigeration benchmark}+ B environment temperature+C external environment temperature; Describedly revisedly heat fiducial temperature Δ T _{heat correction}equal Quaternary system number a and describedly heat fiducial temperature Δ T _{heat benchmark}product, the 5th coefficient b and the product of described environment temperature and the sum of products of the 6th coefficient c and described external environment temperature, i.e. Δ T _{heat correction}=a Δ T _{heat benchmark}+ b environment temperature+c external environment temperature.

The control system of the air-conditioner set that the present embodiment provides, determine refrigeration fiducial temperature according to the external environment temperature of air-conditioner set and heat fiducial temperature, then difference design temperature being deducted environment temperature is respectively with refrigeration fiducial temperature with heat fiducial temperature and compare, and enter refrigeration mode, air supply pattern or heating mode according to comparative result control air-conditioner set, thus do not need user key-press to carry out the switching of pattern, solving existing air-conditioner set can not according to the problem of the actual demand automatic switchover operational mode of user.

In this description, each embodiment adopts the mode of going forward one by one to describe, and what each embodiment stressed is the difference with other embodiments, between each embodiment identical similar portion mutually see.For device disclosed in embodiment, because it corresponds to the method disclosed in Example, so description is fairly simple, relevant part illustrates see method part.

To the above-mentioned explanation of the disclosed embodiments, professional and technical personnel in the field are realized or uses the present invention.To be apparent for those skilled in the art to the multiple amendment of these embodiments, General Principle as defined herein can without departing from the spirit or scope of the present invention, realize in other embodiments.Therefore, the present invention can not be restricted to these embodiments shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (10)

1. a control method for air-conditioner set, is characterized in that, comprising:

Obtain the design temperature of air-conditioner set, environment temperature and external environment temperature;

Determine corresponding refrigeration fiducial temperature according to described external environment temperature and heat fiducial temperature;

The difference described design temperature being deducted described environment temperature is respectively with described refrigeration fiducial temperature with heat fiducial temperature and compare;

If described difference is less than or equal to described refrigeration fiducial temperature, then controls described air-conditioner set and enter refrigeration mode;

If described difference is greater than described refrigeration fiducial temperature and heat fiducial temperature described in being less than, then controls described air-conditioner set and enter air supply pattern;

If heat fiducial temperature described in described difference is more than or equal to, then control described air-conditioner set and enter heating mode.

2. method according to claim 1, is characterized in that, the described process determined corresponding refrigeration fiducial temperature according to described external environment temperature and heat fiducial temperature comprises:

Determine corresponding temperature range according to described external environment temperature, and obtain the refrigeration fiducial temperature corresponding with described temperature range and heat fiducial temperature, described temperature range divides according to the fiducial temperature preset and return difference value.

3. method according to claim 2, is characterized in that, also comprises:

According to described environment temperature and external environment temperature to described refrigeration fiducial temperature with heat fiducial temperature correction, to obtain revised refrigeration fiducial temperature and revisedly to heat fiducial temperature.

4. method according to claim 3, is characterized in that, obtain revised refrigeration fiducial temperature and revised heat fiducial temperature after, also comprise:

The difference described design temperature being deducted described environment temperature compares with described revised refrigeration fiducial temperature and the revised fiducial temperature that heats respectively;

If described difference is less than or equal to described revised refrigeration fiducial temperature, then controls described air-conditioner set and enter refrigeration mode;

If described difference is greater than described revised refrigeration fiducial temperature and is less than describedly revisedly heat fiducial temperature, then control described air-conditioner set and enter air supply pattern;

If described difference is more than or equal to and describedly revisedly heats fiducial temperature, then control described air-conditioner set and enter heating mode.

5. method according to claim 4, it is characterized in that, described revised refrigeration fiducial temperature equals the product of the first coefficient and described refrigeration fiducial temperature, the second coefficient and the product of described environment temperature and the sum of products of the 3rd coefficient and described external environment temperature; Described revised heat fiducial temperature equal Quaternary system number and described heat fiducial temperature product, the 5th coefficient and the product of described environment temperature and the sum of products of the 6th coefficient and described external environment temperature.

6. a control system for air-conditioner set, is characterized in that, comprising:

Acquisition module, for obtaining the design temperature of air-conditioner set, environment temperature and external environment temperature;

Definite value module, for determining corresponding refrigeration fiducial temperature and heating fiducial temperature according to described external environment temperature;

Comparison module, for described design temperature is deducted described environment temperature difference respectively with described refrigeration fiducial temperature with heat fiducial temperature and compare, if described difference is less than or equal to described refrigeration fiducial temperature, then send the first control instruction to control module; If described difference is greater than described refrigeration fiducial temperature and heat fiducial temperature described in being less than, then send the second control instruction to control module; If heat fiducial temperature described in described difference is more than or equal to, then send the 3rd control instruction to control module;

Control module, for after receiving described first control instruction, controls described air-conditioner set and enters refrigeration mode; After receiving described second control instruction, control described air-conditioner set and enter air supply pattern; After receiving described 3rd control instruction, control described air-conditioner set and enter heating mode.

7. system according to claim 6, is characterized in that, described definite value module comprises:

First module, for determining corresponding temperature range according to described external environment temperature, described temperature range divides according to the fiducial temperature preset and return difference value;

Second unit, for obtaining the refrigeration fiducial temperature corresponding with described temperature range and heating fiducial temperature.

8. system according to claim 7, is characterized in that, also comprises:

Correcting module, for according to described environment temperature and external environment temperature to described refrigeration fiducial temperature with heat fiducial temperature correction, to obtain revised refrigeration fiducial temperature and revisedly to heat fiducial temperature.

9. system according to claim 8, it is characterized in that, the difference of described comparison module also for described design temperature being deducted described environment temperature compares with described revised refrigeration fiducial temperature and the revised fiducial temperature that heats respectively, if described difference is less than or equal to described revised refrigeration fiducial temperature, then send the first control instruction to control module; If described difference is greater than described revised refrigeration fiducial temperature and is less than describedly revisedly heat fiducial temperature, then send the second control instruction to control module; If described difference is more than or equal to and describedly revisedly heats fiducial temperature, then send the 3rd control instruction to control module.

10. system according to claim 9, it is characterized in that, described revised refrigeration fiducial temperature equals the product of the first coefficient and described refrigeration fiducial temperature, the second coefficient and the product of described environment temperature and the sum of products of the 3rd coefficient and described external environment temperature; Described revised heat fiducial temperature equal Quaternary system number and described heat fiducial temperature product, the 5th coefficient and the product of described environment temperature and the sum of products of the 6th coefficient and described external environment temperature.