CN111089402A

CN111089402A - Air conditioner operation control method for improving room airflow organization, computer readable storage medium and air conditioner

Info

Publication number: CN111089402A
Application number: CN201911257881.4A
Authority: CN
Inventors: 尔驰玛; 赖孝成; 欧硕文
Original assignee: Gree Electric Appliances Inc of Zhuhai
Current assignee: Gree Electric Appliances Inc of Zhuhai
Priority date: 2019-12-10
Filing date: 2019-12-10
Publication date: 2020-05-01
Anticipated expiration: 2039-12-10
Also published as: CN111089402B

Abstract

The invention provides an air conditioner operation control method for improving room airflow organization, a computer readable storage medium and an air conditioner. After the conventional heating shutdown, the operation parameters of the inner fan are adaptively adjusted by analyzing the environmental temperature data, so that the room airflow organization and the temperature field distribution are improved, and the user experience comfort is greatly improved.

Description

Air conditioner operation control method for improving room airflow organization, computer readable storage medium and air conditioner

Technical Field

The invention relates to the technical field of air conditioners, in particular to an air conditioner operation control method for improving room airflow organization, a computer readable storage medium and an air conditioner.

Background

When the air conditioner is used for heating, the temperature field distribution of the room is uneven due to the physical characteristic that hot air moves from bottom to top in the room. The existing split air conditioner is shut down at a heating temperature reaching point and is subjected to temperature compensation T supplement, so that the temperature of a human body activity area approaches the temperature of a temperature sensing bulb when the split air conditioner is shut down at the temperature reaching point.

Because the temperature drop speed of the environment temperature sensing bulb is inconsistent with the temperature drop speed of the human body activity area, after the heating shutdown operation is finished and the temperature is stopped, the air conditioner cannot be started for a long time, the room temperature is lower than the set temperature, but the air conditioner is not started to perform the heating operation, and the human body comfort experience is poor.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an air conditioner operation control method for improving room airflow organization, which solves the problems that the air conditioner cannot recover heating operation for a long time after the air conditioner is shut down when the heating operation reaches a temperature point, the environmental temperature is lower than the set temperature of a remote controller, and the temperature fluctuation of the whole room is large, effectively improves the room airflow organization, and improves the comfort experience of users.

In order to achieve the purpose, the invention adopts the following technical scheme:

an air conditioner operation control method for improving room airflow organization is characterized in that an air conditioner unit is operated in a heating mode, after the air conditioner unit is shut down when the heating operation reaches a temperature point, an inner fan is operated according to a set rotating speed, the ambient temperature and the operating time are detected in real time and analyzed, the rotating speed of the inner fan and the direction of an air deflector are further adjusted, the air conditioner unit is operated according to adjustment parameters, then the ambient temperature is detected in real time, and when the ambient temperature meets judgment conditions, the air conditioner unit is operated in the heating mode. After the conventional heating shutdown, the operation parameters of the inner fan are adaptively adjusted by analyzing the environmental temperature data, so that the room airflow organization and the temperature field distribution are improved, and the user experience comfort is greatly improved.

Further, the heating operation to the temperature point and the shutdown are specifically as follows: detecting ambient temperatureDegree T_{Ring (C)}When T is_{Ring (C)}-T_{Supplement device}＜T_{Is provided with}At + C deg.C, stopping compressor, stopping external fan, and running internal fan at set rotation speed, wherein T_{Supplement device}Is a preset temperature value, T_{Is provided with}And C is a preset constant value. When T is_{Ring (C)}-T_{Supplement device}＜T_{Is provided with}+ C deg.C to indicate that the current ambient temperature has reached the set temperature value, shutdown is the most appropriate way, and T is set_{Supplement device}And C, the judgment error can be effectively reduced, and the difference value between the environmental temperature and the set temperature is small when the machine is stopped.

Further, the operation of the inner fan according to the set rotating speed specifically comprises: and after the air conditioning unit is shut down, the inner fan runs for t1 s at a set rotating speed, wherein t1 is a preset time value, and t1 is less than or equal to 90. The air conditioning unit stops working just, and the inner fan runs for a period of time according to the preset rotating speed, so that the normal running of the system is ensured, and the abnormal condition is prevented.

Further, the adjusting of the rotation speed of the inner fan and the direction of the air deflector specifically comprises: detecting ambient temperature T_{Ring (C)}When T is_{Ring (C)}-T_{Supplement device}＞T_{Is provided with}And (4) operating the inner fan at a micro-wind gear rotating speed at the temperature of-D ℃, and adjusting the air supply position of the air deflector to the horizontal direction, wherein D is a preset constant value, and the micro-wind gear rotating speed is between 300r/min and 550 r/min. By adjusting the air guide plates to be horizontal, cold wind can be prevented from blowing to a human body to cause cold wind feeling experience, and meanwhile, the airflow organization of a room can be effectively improved by blowing breeze.

Further, the operation of the inner fan at the micro-wind gear rotating speed specifically comprises: when T is_{Ring (C)}-T_{Supplement device}≤T_{Is provided with}And (4) continuously starting the internal fan for t2min at the temperature of-D ℃, and enabling the internal fan to exit the gentle draft operating mode, wherein t2 is a preset time value, and t2 is less than or equal to 2. And the judgment condition for quitting the micro-wind shield is set, so that the improvement of the air flow in the room after the micro-wind shield is operated can be ensured, and the use experience of a user is improved.

Further, the step of starting the heating mode of the air conditioning unit to operate when the ambient temperature meets the judgment condition specifically includes: detecting ambient temperature T_{Ring (C)}When T is_{Ring (C)}-T_{Supplement device}＜T_{Is provided with}Air conditioning unit starts heating mode operation. When T is_{Ring (C)}-T_{Supplement device}＜T_{Is provided with}And the current environment temperature is lower than a set value, a human body may generate cold feeling, and the unit starts heating operation to heat in time, so that the temperature in a room is ensured to be within a controllable range.

Further, the operation of the inner fan at the micro-wind gear rotating speed specifically comprises: and when an opening instruction of the air conditioning unit is detected, the inner fan directly exits the micro-wind-gear running mode. The control instruction of the user is used as the priority processing instruction, so that different special situations can be handled.

A computer-readable storage medium for storing a computer program which, when invoked by a processor, implements the method for controlling operation of an air conditioner for improving the airflow pattern in a room as set forth in any one of the preceding claims.

An air conditioner comprising a processor and a memory for storing a computer program which, when invoked by the processor, implements any of the above air conditioner operation control methods for improving the airflow pattern in a room.

The air conditioner operation control method for improving the room airflow organization, the computer readable storage medium and the air conditioner have the advantages that: (1) the intellectualization of the heating operation of the air conditioner is improved, and the starting and stopping environmental temperature participating in logic calculation is closer to the environmental temperature of a human body activity area; (2) the airflow organization of the whole room is improved, so that the temperature fluctuation in the room is small, the comfort of user experience is enhanced, and the experience of cold and hot is thoroughly solved.

Drawings

FIG. 1 is a schematic flow diagram of the present invention;

FIG. 2 is a schematic view of the position of the air deflector of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments obtained by a person skilled in the art without making any inventive step are within the scope of the present invention.

Example 1: an air conditioner operation control method for improving the air flow organization of a room.

As shown in fig. 1, an air conditioner operation control method for improving the air flow organization of a room includes the following specific steps:

the split air conditioner operates in a heating mode when the environment temperature sensing bulb detects the environment temperature T_{Ring (C)}Satisfy T_{Ring (C)}- T_{Supplement device}＜T_{Is provided with}+ C deg.C (wherein T is_{Ring (C)}Ambient temperature, T, detected for ambient bulb_{Supplement device}For a given design of the fixed compensation temperature, T_{Is provided with}Setting temperature for a user remote controller, wherein C is a certain specific value temperature value designed according to an air conditioning system), and when the conditions are met, the air conditioner stops when the temperature is set by the user, the compressor stops running, and the external fan stops running.

The inner fan runs for t 1S according to the windshield set by the user (t 1 is the time when the air conditioner stops at the temperature point and the compressor stops, t1 is the design set value, generally the set value is less than or equal to 90S), the windshield set by the user in the windshield set by the user is the windshield set by the user using the remote controller at that time, the air conditioner generally has 7 windshields (7 different rotating speeds, air quantity, blowing distance, refrigerating capacity and noise value) and the user can select the windshield according to personal habits. As shown in fig. 2, the air guide plate of the air conditioner is positioned horizontally (e.g., in the L direction) during operation. L, A, B, C, D is designed for different wind sweeping angles of the wind deflector, and acts as different angles, and the room areas covered by wind blown out from different directions are different. The coordinate center in fig. 2 is the installation position of the air conditioner, the wind guiding direction of L, A, B, C, D causes the direction of the wind, the air flow organization of the wind flowing in the room is different, the user can select different wind guiding plate angles according to the room activity area, this point can be selected by the remote controller.

The air conditioner operates to meet the logic relationship of user set temperature point shutdown, compressor not on, synchronous detection and judgment as follows, when T is detected_{Ring (C)}- T_{Supplement device}＞T_{Is provided with}Run at-1 ℃ in gentle breeze (rotation of gentle windshield)The speed is a design set value and is a fixed value, and the general set range is as follows: 300r/min or less and the rotational speed of the breeze stage is less than or equal to 550 r/min), and the air supply position of the air deflector of the air conditioner is horizontal, such as the position in the L direction, so that cold wind is prevented from blowing to a human body, and cold feeling experience is avoided.

The logic for quitting the breeze blowing is as follows: when T is_{Ring (C)}- T_{Supplement device}≤T_{Is provided with}At the temperature of-1 ℃ and after the breeze is continuously started for t2 minutes (t 2 is the time calculated after the breeze is switched to the breeze gear and is a design determined value and is generally about 2 minutes) or the breeze is stopped after the compressor is detected to be started.

The heating operation reaches the set temperature point of the user remote controller, the whole process after the compressor is stopped synchronously executes the detection, and if T is met_{Ring (C)}- T_{Supplement device}＜T_{Is provided with}If the air conditioner meets the starting condition, the air conditioner starts heating operation, the compressor starts, the outer fan starts, the inner fan rotates at the rotating speed set by a user before the compressor is stopped (according to different windshields of a remote controller), and the air supply position (L, A, B, C, D in the figure 2) of the air deflector is set by the user before the compressor is stopped; that is, after the airflow organization is improved during the shutdown, the windshield and the wind sweeping angle are both restored to the user's selection after the startup.

In the whole process, the logic for detecting the shutdown or startup of the air conditioner is the highest priority, and the logic for improving the airflow organization is only entered after the shutdown, namely the logic for blowing the breeze is as described above.

In this embodiment, the temperature conditions after the heating shutdown of the conventional split air conditioner are listed as follows: the method comprises the steps of performing heating operation in a room, setting the temperature of a remote controller to be 23 ℃, starting up the machine to run to a temperature point, stopping the machine, enabling the temperature of an environment temperature sensing bulb to be equal to the environment temperature at the vertical distance of 1.3m (the position of the head of a dummy when the dummy sits), enabling the temperature difference to be within 1 ℃, enabling the temperature of the environment temperature at the vertical distance of 1.3m in the room after the machine is stopped to be fast, enabling the temperature of the environment temperature at the temperature sensing bulb to be slow, causing the temperature difference of 4 ℃, enabling the machine to stop for 35min, enabling the environment temperature at the operation recovery time of 1.3m to be 19.5 ℃, being lower than the set temperature by 3.5 ℃ (the set temperature being 23 ℃), enabling.

The method of the embodiment is applied as follows: starting up the machine, running to a temperature point, stopping the machine, enabling the temperature of an environmental temperature sensing bulb to be equal to the environmental temperature at the vertical distance of 1.3m (the head position of a dummy when the dummy sits on the machine) of a room, enabling the temperature difference to be within 1 ℃, enabling the temperature reduction speed at the vertical distance of 1.3m of the room after the machine is stopped to be equal to the temperature reduction speed at the temperature sensing bulb, enabling the shutdown time to be as long as 10min within 1 ℃, enabling the environmental temperature at the 1.3m of the operation time to be 24 ℃ and higher than the set temperature 23 ℃, and enabling the environmental temperature of the whole room to fluctuate within; the room airflow organization and the temperature field distribution are effectively improved, and the user experience comfort is greatly improved.

Example 2: a computer readable storage medium.

Example 3: an air conditioner.

The above description is only for the preferred embodiment of the present invention, but the present invention should not be limited to the embodiment and the disclosure of the drawings, and therefore, all equivalent or modifications that do not depart from the spirit of the present invention are intended to fall within the scope of the present invention.

Claims

1. The air conditioner operation control method is characterized in that an air conditioner unit is operated in a heating mode, after the heating operation reaches a temperature point and is stopped, an inner fan is operated according to a set rotating speed, the environmental temperature and the operating time are detected in real time and analyzed, the rotating speed of the inner fan and the direction of an air deflector are further adjusted, the environmental temperature is detected in real time after the air conditioner unit is operated according to adjustment parameters, and the air conditioner unit is operated in the heating mode after the environmental temperature meets judgment conditions.

2. An air conditioning operation control method for improving the air flow organization of a room as claimed in claim 1, wherein the heating operation shutdown up to the temperature point is specifically: detecting ambient temperature T_{Ring (C)}When T is_{Ring (C)}-T_{Supplement device}＜T_{Is provided with}At + C deg.C, stopping compressor, stopping external fan, and running internal fan at set rotation speed, wherein T_{Supplement device}Is a preset temperature value, T_{Is provided with}And C is a preset constant value.

3. An air conditioner operation control method for improving the air flow organization of a room according to claim 1, wherein the operation of the inner fan according to the set rotating speed is specifically as follows: and after the air conditioning unit is stopped, the inner fan runs for t1 s at a set rotating speed, wherein t1 is a preset time value.

4. The method as claimed in claim 1, wherein the adjusting the rotation speed of the inner fan and the direction of the air deflector is specifically: detecting ambient temperature T_{Ring (C)}When T is_{Ring (C)}-T_{Supplement device}＞T_{Is provided with}And (D), operating the inner fan at a micro-wind gear rotating speed, and adjusting the air supply position of the air deflector to the horizontal direction, wherein D is a preset constant value.

5. The method for controlling the operation of an air conditioner for improving the airflow distribution of a room according to claim 4, wherein the operation of the inner fan at a micro-wind speed specifically comprises: when T is_{Ring (C)}-T_{Supplement device}≤T_{Is provided with}And D ℃, continuously starting for t2min, and enabling the inner fan to exit the gentle draft running mode, wherein t2 is a preset time value.

6. The method as claimed in claim 1, wherein the step of starting the heating mode of the air conditioning unit when the ambient temperature meets the determination condition is specifically as follows: detecting ambient temperature T_{Ring (C)}When T is_{Ring (C)}-T_{Supplement device}＜T_{Is provided with}Air conditionerThe group starts the heating mode to operate.

7. The method for controlling the operation of an air conditioner for improving the airflow distribution of a room according to claim 4, wherein the operation of the inner fan at a micro-wind speed specifically comprises: and when an opening instruction of the air conditioning unit is detected, the inner fan directly exits the micro-wind-gear running mode.

8. A computer-readable storage medium for storing a computer program, wherein the computer program, when being executed by a processor, implements the method for controlling an operation of an air conditioner for improving an air flow organization of a room according to any one of claims 1 to 7.

9. An air conditioner comprising a processor and a memory for storing a computer program, wherein the computer program when invoked by the processor implements the method of controlling operation of an air conditioner for improving the airflow pattern in a room of any one of claims 1 to 7.