CN117847698A - Method and device for controlling air conditioner, air conditioner and computer readable storage medium - Google Patents

Abstract

The application relates to the technical field of intelligent household appliances, and discloses a method for controlling an air conditioner, which comprises the following steps: when the air conditioner is in cold running, acquiring indoor environment temperature and human sense information; and adjusting the running frequency of the compressor and the rotating speed of the indoor fan according to the indoor environment temperature and the human sense information. When the air conditioner is used for refrigerating, the running frequency of the compressor and the rotating speed of the indoor fan are adjusted, so that the air outlet temperature and the air outlet quantity during refrigerating can be improved, the adverse effect on the approach of a user to the air conditioner caused by the influence of the environment temperature on the air outlet temperature is reduced, and the user experience is improved. The application also discloses a device for controlling the air conditioner, the air conditioner and a computer readable storage medium.

Description

Method and device for controlling air conditioner, air conditioner and computer readable storage medium

Technical Field

The present application relates to the technical field of intelligent home appliances, and for example, to a method and apparatus for controlling an air conditioner, and a computer readable storage medium.

Background

At present, under the condition of setting air quantity, the heating quantity of the air conditioner drops along with the ambient temperature and the air outlet temperature drops along with the ambient temperature. When the ambient temperature is reduced to a certain temperature, the air outlet temperature is reduced to be lower than the human body temperature, and the air conditioner can obviously feel uncomfortable when heating the air outlet temperature. When the ambient temperature is increased to a certain temperature, the temperature of the air outlet is increased, so that people have obvious scalding sense and feel uncomfortable.

The related art discloses an air conditioner control method, comprising: when the air conditioner is detected to enter a heating mode, acquiring a target indoor temperature value of the air conditioner, the current set indoor fan rotating speed and the current set air outlet opening of the air guide strip; acquiring a current indoor temperature value, a current temperature value of an indoor heat exchanger of an air conditioner and a current outdoor fan rotating speed; determining a target outdoor fan rotating speed according to the current indoor temperature value and the target indoor temperature value, and adjusting the current outdoor fan rotating speed to the target outdoor fan rotating speed to operate; determining a target indoor fan rotating speed and a target air outlet opening according to the current temperature value and the preset temperature value of the indoor heat exchanger, adjusting the current set indoor fan rotating speed to the target indoor fan rotating speed, and adjusting the current set air outlet opening to the target air outlet opening. Heating comfort can be improved, so that the use experience of a user is improved.

In the process of implementing the embodiments of the present disclosure, it is found that at least the following problems exist in the related art:

the air conditioning heating experience is improved to a certain extent by adopting the related technology. However, when the air conditioner uses the traditional refrigeration control mode to perform refrigeration, the air outlet temperature may be unsuitable due to the influence of the ambient temperature on the air outlet temperature, so as to influence the user experience. In particular, when a user approaches the air conditioner, if the temperature of the air outlet is too low, the air is blown to the user, which may cause discomfort to the user. If the temperature of the air outlet is too high, the refrigerating effect is poor, and user complaints can be caused.

It should be noted that the information disclosed in the foregoing background section is only for enhancing understanding of the background of the present application and thus may include information that does not form the prior art that is already known to those of ordinary skill in the art.

Disclosure of Invention

The following presents a simplified summary in order to provide a basic understanding of some aspects of the disclosed embodiments. This summary is not an extensive overview, and is intended to neither identify key/critical elements nor delineate the scope of such embodiments, but is intended as a prelude to the more detailed description that follows.

The embodiment of the disclosure provides a method and a device for controlling an air conditioner, the air conditioner and a computer readable storage medium, so that adverse effects on approaching of a user to the air conditioner caused by influence of ambient temperature on air outlet temperature are reduced when the air conditioner is used for refrigerating, and user experience is improved.

In some embodiments, the method comprises: when the air conditioner is in cold running, acquiring indoor environment temperature and human sense information; and adjusting the running frequency of the compressor and the rotating speed of the indoor fan according to the indoor environment temperature and the human sense information.

Optionally, the adjusting the operation frequency of the compressor and the rotation speed of the indoor fan according to the indoor environment temperature and the human sense information comprises: when the distance between the person and the air outlet is smaller than or equal to the set distance, the running frequency of the compressor and the rotating speed of the indoor fan are reduced according to the indoor environment temperature. When the distance between the person and the air outlet is greater than the set distance, the running frequency of the compressor and the rotating speed of the indoor fan are adjusted according to the indoor environment temperature.

Optionally, the reducing the operation frequency of the compressor and the rotation speed of the indoor fan according to the indoor environment temperature includes: determining a target frequency and a target rotating speed corresponding to the indoor environment temperature according to the first relation; and respectively reducing the operating frequency of the compressor and the rotating speed of the indoor fan according to the target frequency and the target rotating speed.

Optionally, the reducing the operation frequency of the compressor and the rotation speed of the indoor fan according to the target frequency and the target rotation speed respectively includes: reducing the operating frequency of the compressor to a target frequency; and reducing the rotating speed of the indoor fan according to the set rotating speed until the rotating speed of the indoor fan is smaller than the target rotating speed.

Optionally, the reducing the rotation speed of the indoor fan according to the set speed until the rotation speed of the indoor fan is less than the target rotation speed includes: detecting indoor environment temperature at intervals of a first time period; when the indoor environment temperature is in the initial temperature range, the rotating speed of the indoor fan is controlled to be reduced by a set rotating speed until the rotating speed of the indoor fan is smaller than the target rotating speed.

Optionally, the adjusting the operation frequency of the compressor and the rotation speed of the indoor fan according to the indoor environment temperature includes: when the indoor environment temperature is higher than the set temperature, the running frequency of the compressor and the rotating speed of the indoor fan are increased; when the indoor environment temperature is less than or equal to the set temperature, the running frequency of the compressor and the rotating speed of the indoor fan are controlled to be unchanged.

Optionally, the air conditioner comprises an air deflector arranged at the air outlet and a polymerization rod, wherein the polymerization rod is rotatably arranged above the air deflector and is used for adjusting air circulation above the air deflector; after the indoor environment temperature and the human sense information are acquired, the method further comprises the following steps: and adjusting the angles of the aggregation rod and the air deflector according to the indoor environment temperature and the human sense information.

Optionally, the adjusting the angle of the polymerizing rod and the air deflector according to the indoor environment temperature and the human sense information comprises: when the distance between the person and the air outlet is smaller than or equal to the set distance, the angle between the aggregation rod and the air deflector is adjusted according to the indoor environment temperature; when the distance between the person and the air outlet is greater than the set distance, the aggregation rod and the air deflector are controlled to run according to the current angle.

Optionally, the adjusting the angle of the polymerizing rod and the air deflector according to the indoor environment temperature comprises: determining a first target angle and a second target angle corresponding to the indoor environment temperature according to the second relation; and respectively adjusting the angles of the polymerization rod and the air deflector to a first target angle and a second target angle.

Optionally, the air conditioner further comprises a fan arranged on the aggregation rod; when the distance between the person and the air outlet is smaller than or equal to the set distance, the method further comprises the following steps: and controlling the operation of the fan according to the indoor environment temperature.

Optionally, the controlling the operation of the fan according to the indoor environment temperature includes: and controlling the start and stop of the fan according to the indoor environment temperature, and regulating the rotating speed of the fan.

Optionally, the controlling the start and stop of the fan according to the indoor environment temperature and adjusting the rotation speed of the fan includes: when the indoor environment temperature is higher than the set temperature, determining a target fan and a target rotating speed corresponding to the indoor environment temperature according to a third relation; starting a target fan and adjusting the rotating speed of the target fan to a target rotating speed; and when the indoor environment temperature is less than or equal to the set temperature, the fan is turned off.

Optionally, after the target fan is started and the rotation speed of the target fan is adjusted to the target rotation speed, the method further includes: detecting the indoor environment temperature at intervals of a second duration; when the temperature of the indoor environment is in the initial temperature range, sequentially reducing the rotating speed of the target fan until the rotating speed of the target fan is the lowest rotating speed; alternatively, the target fans are turned off sequentially until the target fans are all turned off.

In some embodiments, the apparatus comprises: the air conditioner control device comprises a processor and a memory storing program instructions, wherein the processor is configured to execute the method for controlling the air conditioner when executing the program instructions.

In some embodiments, the air conditioner includes:

an air conditioner body;

the device for controlling an air conditioner is installed in the air conditioner body.

In some embodiments, the computer readable storage medium stores program instructions that, when executed, perform the method for controlling an air conditioner described above.

The method and device for controlling the air conditioner, the air conditioner and the computer readable storage medium provided by the embodiment of the disclosure can realize the following technical effects:

when the air conditioner is in cold operation, the indoor environment temperature and the human sense information are acquired, and the operation frequency of the compressor and the rotating speed of the indoor fan are adjusted according to the indoor environment temperature and the human sense information. When the air conditioner is used for refrigerating, the running frequency of the compressor and the rotating speed of the indoor fan are adjusted, so that the air outlet temperature and the air outlet quantity during refrigerating can be improved, the adverse effect on the approach of a user to the air conditioner caused by the influence of the environment temperature on the air outlet temperature is reduced, and the user experience is improved.

The foregoing general description and the following description are exemplary and explanatory only and are not restrictive of the application.

Drawings

One or more embodiments are illustrated by way of example and not limitation in the figures of the accompanying drawings, in which like references indicate similar elements, and in which like reference numerals refer to similar elements, and in which:

FIG. 1 is a schematic diagram of a method for controlling an air conditioner provided by an embodiment of the present disclosure;

FIG. 2 is a schematic diagram of another method for controlling an air conditioner provided by an embodiment of the present disclosure;

FIG. 3 is a schematic diagram of another method for controlling an air conditioner provided by an embodiment of the present disclosure;

FIG. 4 is a schematic diagram of another method for controlling an air conditioner provided by an embodiment of the present disclosure;

FIG. 5 is a schematic view of an apparatus for controlling an air conditioner provided in an embodiment of the present disclosure;

fig. 6 is a schematic view of an air conditioner provided in an embodiment of the present disclosure.

Detailed Description

So that the manner in which the features and techniques of the disclosed embodiments can be understood in more detail, a more particular description of the embodiments of the disclosure, briefly summarized below, may be had by reference to the appended drawings, which are not intended to be limiting of the embodiments of the disclosure. In the following description of the technology, for purposes of explanation, numerous details are set forth in order to provide a thorough understanding of the disclosed embodiments. However, one or more embodiments may still be practiced without these details. In other instances, well-known structures and devices may be shown simplified in order to simplify the drawing.

The terms first, second and the like in the description and in the claims of the embodiments of the disclosure and in the above-described figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate in order to describe embodiments of the present disclosure. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion.

The term "plurality" means two or more, unless otherwise indicated.

In the embodiment of the present disclosure, the character "/" indicates that the front and rear objects are an or relationship. For example, A/B represents: a or B.

The term "and/or" is an associative relationship that describes an object, meaning that there may be three relationships. For example, a and/or B, represent: a or B, or, A and B.

The term "corresponding" may refer to an association or binding relationship, and the correspondence between a and B refers to an association or binding relationship between a and B.

In the embodiment of the disclosure, the intelligent home appliance refers to a home appliance formed after a microprocessor, a sensor technology and a network communication technology are introduced into the home appliance, and has the characteristics of intelligent control, intelligent sensing and intelligent application, the operation process of the intelligent home appliance often depends on the application and processing of modern technologies such as the internet of things, the internet and an electronic chip, for example, the intelligent home appliance can realize remote control and management of a user on the intelligent home appliance by connecting the electronic appliance.

In the disclosed embodiment, the terminal device refers to an electronic device with a wireless connection function, and the terminal device can be in communication connection with the intelligent household electrical appliance through connecting with the internet, or can be in communication connection with the intelligent household electrical appliance through Bluetooth, wifi and other modes. In some embodiments, the terminal device is, for example, a mobile device, a computer, or an in-vehicle device built into a hover vehicle, etc., or any combination thereof. The mobile device may include, for example, a cell phone, smart home device, wearable device, smart mobile device, virtual reality device, etc., or any combination thereof, wherein the wearable device includes, for example: smart watches, smart bracelets, pedometers, etc.

At present, under the condition of setting air quantity, the heating quantity of the air conditioner drops along with the ambient temperature and the air outlet temperature drops along with the ambient temperature. When the ambient temperature is reduced to a certain temperature, the air outlet temperature is reduced to be lower than the human body temperature, and the air conditioner can obviously feel uncomfortable when heating the air outlet temperature. When the ambient temperature is increased to a certain temperature, the temperature of the air outlet is increased, so that people have obvious scalding sense and feel uncomfortable. The related art discloses an air conditioner control method, comprising: when the air conditioner is detected to enter a heating mode, acquiring a target indoor temperature value of the air conditioner, the current set indoor fan rotating speed and the current set air outlet opening of the air guide strip; acquiring a current indoor temperature value, a current temperature value of an indoor heat exchanger of an air conditioner and a current outdoor fan rotating speed; determining a target outdoor fan rotating speed according to the current indoor temperature value and the target indoor temperature value, and adjusting the current outdoor fan rotating speed to the target outdoor fan rotating speed to operate; determining a target indoor fan rotating speed and a target air outlet opening according to the current temperature value and the preset temperature value of the indoor heat exchanger, adjusting the current set indoor fan rotating speed to the target indoor fan rotating speed, and adjusting the current set air outlet opening to the target air outlet opening. Heating comfort can be improved, so that the use experience of a user is improved. The air conditioning heating experience is improved to a certain extent by adopting the related technology. However, when the air conditioner uses the traditional refrigeration control mode to perform refrigeration, the air outlet temperature may be unsuitable due to the influence of the ambient temperature on the air outlet temperature, so as to influence the user experience. In particular, when a user approaches the air conditioner, if the temperature of the air outlet is too low, the air is blown to the user, which may cause discomfort to the user. If the temperature of the air outlet is too high, the refrigerating effect is poor, and user complaints can be caused.

The embodiment of the disclosure discloses an air conditioner, which comprises a processor, an air deflector and a polymerization rod which are arranged at an air outlet, and a fan arranged on the polymerization rod. The polymerization rod is rotatably arranged above the air deflector and used for adjusting air circulation above the air deflector. The polymerization rod sets up the installation cavity, and the fan sets up in the installation cavity. The processor is electrically connected with the electric components and used for controlling the electric components to operate.

When the polymerization rod is closed, namely the rotation angle of the polymerization rod is 0 DEG, the polymerization rod is vertically arranged at the air outlet, the shielding area of the air outlet is the largest, and the air outlet of the fan faces the inside of the air conditioner. When the polymerization rod rotates 90 degrees clockwise, the polymerization rod horizontally transversely extends to the middle position of the air outlet, the air outlet is divided into an upper part and a lower part, and wind can flow out from the air outlets on the upper side and the lower side of the polymerization rod, so that the shielding area of the position to the air outlet is minimum, and the air outlet direction of the fan is downward. When the aggregation rod rotates 180 degrees clockwise, the aggregation rod is reversely and vertically arranged at the air outlet, the shielding area of the air outlet is maximum, and the air outlet direction of the fan faces outwards. The aviation baffle sets up in polymerization pole below, and when the aviation baffle was closed, if polymerization pole is closed, then the aviation baffle can block the air outlet with polymerization pole cooperation.

Based on the above-mentioned air conditioning structure, as shown in fig. 1, an embodiment of the disclosure provides a method for controlling an air conditioner, including:

and S01, when the air conditioner is in cold running, the processor acquires indoor environment temperature and human sense information.

S02, the processor adjusts the running frequency of the compressor and the rotating speed of the indoor fan according to the indoor environment temperature and the human sense information.

By adopting the method for controlling the air conditioner, when the air conditioner is in cold operation, the indoor environment temperature and the human sense information are obtained, and the operation frequency of the compressor and the rotating speed of the indoor fan are adjusted according to the indoor environment temperature and the human sense information. When the air conditioner is used for refrigerating, the running frequency of the compressor and the rotating speed of the indoor fan are adjusted, so that the air outlet temperature and the air outlet quantity during refrigerating can be improved, the adverse effect on the approach of a user to the air conditioner caused by the influence of the environment temperature on the air outlet temperature is reduced, and the user experience is improved.

Based on the above-mentioned air conditioning structure, as shown in fig. 2, an embodiment of the disclosure provides a method for controlling an air conditioner, including:

and S01, when the air conditioner is in cold running, the processor acquires indoor environment temperature and human sense information.

And S21, when the distance between the person and the air outlet is smaller than or equal to the set distance, the processor reduces the running frequency of the compressor and the rotating speed of the indoor fan according to the indoor environment temperature.

S22, when the distance between the person and the air outlet is larger than the set distance, the processor adjusts the running frequency of the compressor and the rotating speed of the indoor fan according to the indoor environment temperature.

The set distance may be any length, for example, 2.4m, 2.5m, 2.6m, or the like. The set distance may be specifically determined according to the user type. Because different types of users have different air-out feeling conditions, for example, old people are generally more easily affected by the air-out temperature of the air conditioner, when the indoor environment temperature is reduced to a certain temperature, the air-out temperature is reduced, at the moment, the air-out temperature of the air conditioner is obviously cold and uncomfortable, and compared with the old people, the young people have higher tolerance degree to the air-out temperature. Therefore, the processor determines the set distance according to the user type, so that the accuracy of judging whether the air conditioner is used for adjusting the running frequency of the compressor and the rotating speed of the indoor fan can be improved, the air outlet feeling of different types of users is considered, and the adverse influence of the air outlet temperature influenced by the ambient temperature on the approach of the user to the air conditioner is further reduced.

By adopting the method for controlling the air conditioner, when the distance between the person and the air outlet is smaller than or equal to the set distance, the distance between the person and the air outlet of the air conditioner is relatively short, and the processor reduces the running frequency of the compressor and the rotating speed of the indoor fan according to the indoor environment temperature, so that the air outlet of the air conditioner is softer, the circulation speed is lower, and discomfort to a user caused by the influence of the environment temperature on the air outlet temperature is avoided. When the distance between the person and the air outlet is larger than the set distance, the distance between the person and the air outlet of the air conditioner is longer, and the processor adjusts the running frequency of the compressor and the rotating speed of the indoor fan according to the indoor environment temperature.

Optionally, the processor reduces the operating frequency of the compressor and the rotation speed of the indoor fan according to the indoor environment temperature, including: the processor determines a target frequency and a target rotating speed corresponding to the indoor environment temperature according to the first relation; the processor reduces the operating frequency of the compressor and the rotational speed of the indoor fan according to the target frequency and the target rotational speed, respectively.

The processor determines a target frequency and a target rotating speed corresponding to the indoor environment temperature according to a first relation, and the first relation can be specifically determined by a method of looking up a table, experiments, introducing expert knowledge or experience. For example, when the ambient temperature T < 20 ℃, the target frequency is 0, and the target rotating speed is 200r/min; when the temperature T is more than or equal to 20 ℃ and less than or equal to 25 ℃, the target frequency is 50Hz, and the target rotating speed is 400r/min.

In this way, the processor determines the target frequency and the target rotation speed corresponding to the indoor environment temperature according to the first relationship, and can match the target frequency and the target rotation speed with the indoor environment temperature. The processor reduces the running frequency of the compressor and the rotating speed of the indoor fan according to the target frequency and the target rotating speed, so that the frequency reduced by the compressor and the rotating speed reduced by the indoor fan are more accurate, inaccurate temperature adjustment caused by excessive change of the air outlet temperature is avoided, and uncomfortable conditions of a user in a set distance caused by too small change of the air outlet temperature are avoided, and therefore the requirements of indoor environment adjustment and the user on air outlet feeling are met.

Optionally, the processor reduces the operating frequency of the compressor and the rotational speed of the indoor fan according to the target frequency and the target rotational speed, respectively, including: the processor reduces the operating frequency of the compressor to a target frequency; the processor reduces the rotating speed of the indoor fan according to the set rotating speed until the rotating speed of the indoor fan is smaller than the target rotating speed.

In this way, the processor reduces the operating frequency of the compressor to the target frequency and reduces the rotational speed of the indoor fan according to the set rotational speed until the rotational speed of the indoor fan is less than the target rotational speed. The speed of the rotation speed reduction of the indoor fan is slowed down by setting the set rotation speed, so that the requirements of indoor environment adjustment and users on air-out feeling can be further met.

Optionally, the processor reduces the rotation speed of the indoor fan according to the set speed until the rotation speed of the indoor fan is less than the target rotation speed, including: the processor detects the indoor environment temperature at intervals of a first time period; when the indoor environment temperature is in the initial temperature range, the processor controls the rotating speed of the indoor fan to be reduced by a set rotating speed until the rotating speed of the indoor fan is smaller than the target rotating speed.

The first duration may be any duration, for example, 9min, 10min, 11min, or the like. The set rotational speed may be any rotational speed, for example, 90r/min, 100r/min, 110r/min, or the like. The first duration and the set rotational speed may be specifically determined according to the target rotational speed and/or the current rotational speed, for example, by a method of table lookup, experiment, and experience, where the first duration and the set rotational speed corresponding to the target rotational speed or the current rotational speed or a rotational speed difference between the current rotational speed and the target rotational speed is determined. The current rotation speed refers to the rotation speed of the indoor fan when the indoor ambient temperature is detected every time the first time interval. And, as the current rotation speed is slower, the rotation speed difference is smaller, the first duration is shorter, and the set rotation speed is smaller. Therefore, the lower the current rotation speed is, the smaller the rotation speed difference value is, the rotation speed of the indoor fan is closer to the target rotation speed, and the possibility that the user can give consideration to the air outlet temperature feeling and the indoor environment adjusting rotation speed of the indoor fan is higher at the moment. As the current rotation speed is slower, the rotation speed difference value is smaller, and the set rotation speed is smaller, so that the frequency of adjusting the rotation speed of the indoor fan is improved. The conditions that the first time is too long or the set rotating speed is too small, the time for adjusting the rotating speed of the indoor fan to the target rotating speed is too long, and the first time is too short or the set rotating speed is too large, so that the indoor environment adjustment and the requirement of a user on the air outlet feeling cannot be well considered are avoided, and the accuracy of the set rotating speed is improved.

The initial temperature range refers to a temperature range in which an indoor environment temperature is located before an operation frequency of the compressor and a rotational speed of the indoor fan are reduced.

Like this, the indoor ambient temperature is detected to the first time interval of treater, and when indoor ambient temperature was in initial temperature range, because the user is close to the air conditioner air outlet, and air-out temperature is lower for the user this moment, so the rotational speed of indoor fan is reduced to the rotational speed of treater control and sets for the rotational speed to the rotational speed of indoor fan is less than the target rotational speed, thereby makes the air conditioner air-out become softer. In addition, in the process of periodically detecting the indoor environment temperature, when the indoor environment temperature is in the initial temperature range, the indoor fan is not reduced to the target rotating speed, the air outlet temperature can be more suitable, and the processor controls the indoor fan to stop reducing the rotating speed at the moment in order to achieve the temperature regulation effect of the indoor environment.

Optionally, the processor adjusts the operating frequency of the compressor and the rotational speed of the indoor fan according to the indoor environment temperature, including: when the indoor environment temperature is higher than the set temperature, the processor increases the running frequency of the compressor and the rotating speed of the indoor fan; when the indoor environment temperature is less than or equal to the set temperature, the processor controls the running frequency of the compressor and the rotating speed of the indoor fan to be unchanged.

The set temperature may be any temperature value, for example 24 ℃, 25 ℃ or 26 ℃. The set temperature may be specifically determined according to the outdoor ambient temperature. The set temperature corresponding to the outdoor ambient temperature is determined, for example, by look-up tables, experiments, or experience.

Therefore, the user is far away from the air outlet of the air conditioner, and the influence of the air outlet temperature influenced by the ambient temperature on the user is small, so that the indoor ambient temperature is regulated. When the indoor environment temperature is higher than the set temperature, the processor increases the running frequency of the compressor and the rotating speed of the indoor fan so as to quickly refrigerate. When the indoor environment temperature is less than or equal to the set temperature, the processor controls the running frequency of the compressor and the rotating speed of the indoor fan to be unchanged so as to maintain the current temperature.

Based on the above-mentioned air conditioning structure, as shown in fig. 3, an embodiment of the disclosure provides a method for controlling an air conditioner, including:

and S01, when the air conditioner is in cold running, the processor acquires indoor environment temperature and human sense information.

S02, the processor adjusts the running frequency of the compressor and the rotating speed of the indoor fan according to the indoor environment temperature and the human sense information.

And S31, the processor adjusts the angles of the aggregation rod and the air deflector according to the indoor environment temperature and the human sense information.

By adopting the method for controlling the air conditioner, when the air conditioner is in cold running, the indoor environment temperature and the human sense information are obtained, and the angles of the aggregation rod and the air deflector are adjusted according to the indoor environment temperature and the human sense information. When the air conditioner is used for refrigerating, the angles of the aggregation rod and the air deflector are adjusted, so that the air outlet area and the air outlet direction of the air conditioner during refrigerating can be improved, the air outlet is softer, the influence of the air outlet area and the air outlet direction on a user when the user approaches the air conditioner is reduced, and the user experience is improved.

Based on the above-mentioned air conditioning structure, as shown in fig. 4, an embodiment of the disclosure provides a method for controlling an air conditioner, including:

and S01, when the air conditioner is in cold running, the processor acquires indoor environment temperature and human sense information.

S02, the processor adjusts the running frequency of the compressor and the rotating speed of the indoor fan according to the indoor environment temperature and the human sense information.

S41, when the distance between the person and the air outlet is smaller than or equal to the set distance, the processor adjusts the angles of the aggregation rod and the air deflector according to the indoor environment temperature.

And S42, when the distance between the person and the air outlet is greater than the set distance, the processor controls the aggregation rod and the air deflector to run according to the current angle.

By adopting the method for controlling the air conditioner, when the distance between the person and the air outlet is smaller than or equal to the set distance, the distance between the person and the air outlet of the air conditioner is relatively short, and the air outlet of the air conditioner blows to a user, so that the user feels uncomfortable, and the processor adjusts the angles of the aggregation rod and the air deflector according to the indoor environment temperature so as to adjust the cross section area and the air outlet direction of the air outlet, so that the air outlet of the air conditioner is softer. When the distance between the person and the air outlet is larger than the set distance, the indoor environment is adjusted to be the main task, so that the processor controls the aggregation rod and the air deflector to run according to the current angle.

Optionally, the processor adjusts the angle of the polymerizing rod and the air deflector according to the indoor environment temperature, including: the processor determines a first target angle and a second target angle corresponding to the indoor environment temperature according to the second relation; the processor adjusts the angles of the polymerizing rod and the air deflector to a first target angle and a second target angle, respectively.

The processor determines a first target angle and a second target angle corresponding to the indoor environment temperature according to a second relation, and the second relation can be specifically determined by a method of looking up a table, experiment, introducing expert knowledge or experience. For example, when the ambient temperature T < 20 ℃, the first target angle is 0 °, the second target angle is 15 °; when the temperature T is more than or equal to 20 ℃ and less than or equal to 25 ℃, the first target angle is 180 DEG, and the second target angle is 15 DEG; when T is more than or equal to 25 ℃, the first target angle is 90 degrees, and the second target angle is 45 degrees.

Thus, the processor determines the first target angle and the second target angle corresponding to the indoor environment temperature according to the second relation, and respectively adjusts the angles of the aggregation rod and the air deflector to the first target angle and the second target angle, so that the first target angle and the second target angle can be matched with the indoor environment temperature, the aggregation rod and the air deflector are rotated to proper angles, the air outlet area and the air outlet direction are proper, and the user experience is improved.

Optionally, when the distance between the person and the air outlet is less than or equal to the set distance, the method further includes: the processor controls the fan to operate according to the indoor environment temperature.

Thus, when the distance between the person and the air outlet is smaller than or equal to the set distance, the processor also controls the fan to operate according to the indoor environment temperature. Through the supplementary air-conditioner air-out of fan on the start polymerization pole, carry out the vortex to the air-out, can make the air-out temperature more even, blow on user's health softer to further promote user experience.

Optionally, the processor controls the fan to operate according to the indoor environment temperature, including: the processor controls the start and stop of the fan according to the indoor environment temperature and adjusts the rotating speed of the fan.

Like this, the treater is according to indoor ambient temperature, and control fan start-stop to adjust the rotational speed of fan, can make the quantity of opening of fan and rotational speed and indoor ambient temperature assorted, thereby promote the fan and to the effect of the supplementary air-out of air conditioner.

Optionally, the processor controls the start and stop of the fan according to the indoor environment temperature, and adjusts the rotation speed of the fan, including: when the indoor environment temperature is less than or equal to the set temperature, the processor determines a target fan and a target rotating speed corresponding to the indoor environment temperature according to a third relation; the processor starts the target fan and adjusts the rotating speed of the target fan to the target rotating speed; when the indoor environment temperature is higher than the set temperature, the processor turns off the fan.

The processor determines the target fan and the target rotating speed corresponding to the indoor environment temperature according to a third relation, and the third relation can be specifically determined by a method of looking up a table, experiments, introducing expert knowledge or experience. For example, when the ambient temperature T < 20 ℃, the target fan is all fans, and the target rotational speed is the highest rotational speed; when the temperature T is more than or equal to 20 ℃ and less than or equal to 25 ℃, the target fans are all fans, and the target rotating speed is the lowest rotating speed. Correspondingly, when the indoor environment temperature is higher than the set temperature, the processor turns off the fan. For example. When T is more than or equal to 25 ℃, the target fan is not arranged, and the target rotating speed is zero.

Thus, when the indoor environment temperature is less than or equal to the set temperature, the aggregation rod and the air deflector rotate to a smaller angle of air outlet, so that the refrigerating effect is poor, and therefore, the processor determines the target fan and the target rotating speed corresponding to the indoor environment temperature according to the third relation, starts the target fan, adjusts the rotating speed of the target fan to the target rotating speed, accelerates the air circulation of the air outlet of the air conditioner, ensures that the air outlet of the air conditioner is soft, and ensures the refrigerating effect of the air conditioner to a certain extent. When the indoor environment temperature is greater than the set temperature, the polymerizing rod and the air deflector rotate to a larger angle of air outlet, and the refrigerating effect is better, so that the processor turns off the fan.

Optionally, after the processor starts the target fan and adjusts the rotation speed of the target fan to the target rotation speed, the method further includes: the processor detects the indoor environment temperature at intervals of a second duration; when the temperature of the indoor environment is in the initial temperature range, the processor sequentially reduces the rotating speed of the target fan until the rotating speed of the target fan is the lowest rotating speed; alternatively, the processor turns off the target fans in sequence until the target fans are all off.

The processor sequentially reduces the rotation speed of the target fan or the processor sequentially turns off the target fan, and the reduced rotation speed and the turned off fan can be specifically determined according to the accumulated running time of the fans. For example, when the processor detects that the indoor environment temperature is in the initial temperature range, the rotating speed of the fan with the longest accumulated running time is reduced, or the fan with the longest accumulated running time is turned off, so that the load of the fan is reduced, and the service life of the fan is prolonged.

Thus, when the temperature of the indoor environment is within the initial temperature range, the processor sequentially decreases the rotation speed of the target fan until the rotation speed of the target fan is the lowest rotation speed, or the processor sequentially turns off the target fan until the target fan is turned off. After the aggregation rod, the air guide plate and the fan are in place, the processor detects the indoor environment temperature at intervals of a second time, so that dynamic adjustment is continuously carried out on the aggregation rod angle, the air guide plate angle, the starting quantity of the fans and the target rotating speed of the fans in a starting state based on the change condition of the indoor environment temperature, the continuously changing indoor environment is adapted, the auxiliary effect of the fans on air outlet of the air conditioner is improved, and the indoor environment adjustment and the user experience on the air outlet are considered.

As shown in connection with fig. 5, an embodiment of the present disclosure provides an apparatus 800 for controlling an air conditioner, including a processor (processor) 801 and a memory (memory) 802. Optionally, the apparatus may further comprise a communication interface (Communication Interface) 803 and a bus 804. The processor 801, the communication interface 803, and the memory 802 may communicate with each other via the bus 804. The communication interface 803 may be used for information transfer. The processor 801 may call logic instructions in the memory 802 to perform the method for controlling an air conditioner of the above-described embodiment.

Further, the logic instructions in the memory 802 described above may be implemented in the form of software functional units and stored in a computer-readable storage medium when sold or used as a stand-alone product.

The memory 802 is a computer-readable storage medium that can be used to store a software program, a computer-executable program, and program instructions/modules corresponding to the methods in the embodiments of the present disclosure. The processor 801 executes functional applications and data processing by executing program instructions/modules stored in the memory 802, i.e., implements the method for controlling an air conditioner in the above-described embodiment.

Memory 802 may include a storage program area that may store an operating system, at least one application program required for functionality, and a storage data area; the storage data area may store data created according to the use of the terminal device, etc. In addition, memory 802 may include high-speed random access memory, and may also include non-volatile memory.

As shown in conjunction with fig. 6, an embodiment of the present disclosure provides an air conditioner 900, including: an air conditioner body, and the above-described device 800 for controlling an air conditioner). The apparatus 800 for controlling an air conditioner is installed at an air conditioner body. The mounting relationship described herein is not limited to being placed inside the air conditioner, but also includes mounting connections with other components of the air conditioner, including but not limited to physical connections, electrical connections, or signal transmission connections, etc. Those skilled in the art will appreciate that the apparatus 800 for controlling an air conditioner may be adapted to a viable body of an air conditioner, thereby achieving other viable embodiments.

Embodiments of the present disclosure provide a computer-readable storage medium storing computer-executable instructions configured to perform the above-described method for controlling an air conditioner.

Embodiments of the present disclosure may be embodied in a software product stored on a storage medium, including one or more instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to perform all or part of the steps of a method according to embodiments of the present disclosure. And the aforementioned storage medium may be a non-transitory storage medium including: a usb disk, a removable hard disk, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), a magnetic disk or an optical disk, or the like, which can store program codes.

The above description and the drawings illustrate embodiments of the disclosure sufficiently to enable those skilled in the art to practice them. Other embodiments may involve structural, logical, electrical, process, and other changes. The embodiments represent only possible variations. Individual components and functions are optional unless explicitly required, and the sequence of operations may vary. Portions and features of some embodiments may be included in, or substituted for, those of others. Moreover, the terminology used in the present application is for the purpose of describing embodiments only and is not intended to limit the claims. As used in the description of the embodiments and the claims, the singular forms "a," "an," and "the" (the) are intended to include the plural forms as well, unless the context clearly indicates otherwise. Similarly, the term "and/or" as used in this application is meant to encompass any and all possible combinations of one or more of the associated listed. Furthermore, when used in this application, the terms "comprises," "comprising," and/or "includes," and variations thereof, mean that the stated features, integers, steps, operations, elements, and/or components are present, but that the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof is not precluded. Without further limitation, an element defined by the phrase "comprising one …" does not exclude the presence of other like elements in a process, method or apparatus comprising such elements. In this context, each embodiment may be described with emphasis on the differences from the other embodiments, and the same similar parts between the various embodiments may be referred to each other. For the methods, products, etc. disclosed in the embodiments, if they correspond to the method sections disclosed in the embodiments, the description of the method sections may be referred to for relevance.

Those of skill in the art will appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, or combinations of computer software and electronic hardware. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the solution. The skilled artisan may use different methods for each particular application to achieve the described functionality, but such implementation should not be considered to be beyond the scope of the embodiments of the present disclosure. It will be clearly understood by those skilled in the art that, for convenience and brevity of description, specific working procedures of the above-described systems, apparatuses and units may refer to corresponding procedures in the foregoing method embodiments, which are not repeated herein.

In the embodiments disclosed herein, the disclosed methods, articles of manufacture (including but not limited to devices, apparatuses, etc.) may be practiced in other ways. For example, the apparatus embodiments described above are merely illustrative, and for example, the division of the units may be merely a logical function division, and there may be additional divisions when actually implemented, for example, multiple units or components may be combined or integrated into another system, or some features may be omitted, or not performed. In addition, the coupling or direct coupling or communication connection shown or discussed with each other may be through some interface, device or unit indirect coupling or communication connection, which may be in electrical, mechanical or other form. The units described as separate units may or may not be physically separate, and units shown as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units may be selected according to actual needs to implement the present embodiment. In addition, each functional unit in the embodiments of the present disclosure may be integrated in one processing unit, or each unit may exist alone physically, or two or more units may be integrated in one unit.

The flowcharts and block diagrams in the figures illustrate the architecture, functionality, and operation of possible implementations of systems, methods and computer program products according to embodiments of the present disclosure. In this regard, each block in the flowchart or block diagrams may represent a module, segment, or portion of code, which comprises one or more executable instructions for implementing the specified logical function(s). In some alternative implementations, the functions noted in the block may occur out of the order noted in the figures. For example, two blocks shown in succession may, in fact, be executed substantially concurrently, or the blocks may sometimes be executed in the reverse order, depending upon the functionality involved. In the description corresponding to the flowcharts and block diagrams in the figures, operations or steps corresponding to different blocks may also occur in different orders than that disclosed in the description, and sometimes no specific order exists between different operations or steps. For example, two consecutive operations or steps may actually be performed substantially in parallel, they may sometimes be performed in reverse order, which may be dependent on the functions involved. Each block of the block diagrams and/or flowchart illustration, and combinations of blocks in the block diagrams and/or flowchart illustration, can be implemented by special purpose hardware-based systems which perform the specified functions or acts, or combinations of special purpose hardware and computer instructions.

Claims (10)

1. A method for controlling an air conditioner, comprising:

when the air conditioner is in cold running, acquiring indoor environment temperature and human sense information;

and adjusting the running frequency of the compressor and the rotating speed of the indoor fan according to the indoor environment temperature and the human sense information.

2. The method of claim 1, wherein adjusting the operating frequency of the compressor and the rotational speed of the indoor fan according to the indoor environmental temperature and the human-sense information comprises:

when the distance between the person and the air outlet is smaller than or equal to the set distance, reducing the running frequency of the compressor and the rotating speed of the indoor fan according to the indoor environment temperature;

when the distance between the person and the air outlet is greater than the set distance, the running frequency of the compressor and the rotating speed of the indoor fan are adjusted according to the indoor environment temperature.

3. The method of claim 2, wherein reducing the operating frequency of the compressor and the rotational speed of the indoor fan according to the indoor environment temperature comprises:

determining a target frequency and a target rotating speed corresponding to the indoor environment temperature according to the first relation;

and respectively reducing the operating frequency of the compressor and the rotating speed of the indoor fan according to the target frequency and the target rotating speed.

4. A method according to claim 3, wherein said reducing the operating frequency of the compressor and the rotational speed of the indoor fan in accordance with the target frequency and the target rotational speed, respectively, comprises:

reducing the operating frequency of the compressor to a target frequency;

and reducing the rotating speed of the indoor fan according to the set rotating speed until the rotating speed of the indoor fan is smaller than the target rotating speed.

5. The method of claim 4, wherein reducing the rotational speed of the indoor fan at the set rate until the rotational speed of the indoor fan is less than the target rotational speed comprises:

detecting indoor environment temperature at intervals of a first time period;

when the indoor environment temperature is in the initial temperature range, the rotating speed of the indoor fan is controlled to be reduced by a set rotating speed until the rotating speed of the indoor fan is smaller than the target rotating speed.

6. The method of claim 2, wherein adjusting the operating frequency of the compressor and the rotational speed of the indoor fan according to the indoor environmental temperature comprises:

when the indoor environment temperature is higher than the set temperature, the running frequency of the compressor and the rotating speed of the indoor fan are increased;

when the indoor environment temperature is less than or equal to the set temperature, the running frequency of the compressor and the rotating speed of the indoor fan are controlled to be unchanged.

7. The method of any one of claims 1 to 6, wherein the air conditioner comprises an air deflector disposed at the air outlet and a coalescing lever rotatably disposed above the air deflector for regulating air circulation above the air deflector; after the indoor environment temperature and the human sense information are acquired, the method further comprises the following steps:

and adjusting the angles of the aggregation rod and the air deflector according to the indoor environment temperature and the human sense information.

8. An apparatus for controlling an air conditioner comprising a processor and a memory storing program instructions, wherein the processor is configured to perform the method for controlling an air conditioner according to any one of claims 1 to 7 when the program instructions are run.

9. An air conditioner, comprising:

an air conditioner body;

the apparatus for controlling an air conditioner as claimed in claim 8, mounted to the air conditioner body.

10. A computer readable storage medium storing program instructions which, when executed, are adapted to cause a computer to carry out the method for controlling an air conditioner according to any one of claims 1 to 7.