CN110986314A - Intelligent air supply adjusting method of air conditioner and air conditioner - Google Patents

Abstract

The invention provides an intelligent air supply adjusting method of an air conditioner and the air conditioner. Based on the method provided by the invention, the air conditioner can be intelligently controlled to adjust the air supply amount according to the actual use environment of the indoor user by establishing the training space correlation model of the indoor environment space, so that the air blown out by the air conditioner can be matched with the current environment state direction of the indoor space, the requirements of users are better met, the comfort experience of the indoor user is improved, the intelligent level of the air conditioner is improved, and the requirements of the users on intelligent household appliances are met.

Description

Intelligent air supply adjusting method of air conditioner and air conditioner

Technical Field

The invention relates to the technical field of smart home, in particular to an intelligent air supply adjusting method of an air conditioner and the air conditioner.

Background

With the development of science and technology and the improvement of the living standard of users, the ordinary air conditioner can not meet the requirements of users by simply having the functions of refrigeration and heating. In addition to the user enjoying the experience of cooling and heating brought by the air conditioner, how to make the user blow more comfortable air has become an urgent need of the user.

The existing air-conditioning air supply technology basically realizes control according to set parameters, the control logic is more mechanized, so that the user can not know the actual use environment of the user in a partial way easily, and can not know what kind of comfortable air is really needed by the user at the moment.

Disclosure of Invention

The invention aims to provide an intelligent air supply adjusting method of an air conditioner.

A further object of the present invention is to provide an air conditioner that can provide more air in a more consistent manner.

It is another further object of the present invention to provide an air conditioner having the above-mentioned function.

In particular, according to an aspect of the present invention, there is provided an intelligent supply air adjusting method of an air conditioner, including:

identifying an indoor environment space where an air conditioner is currently located, and constructing at least one training space;

acquiring a temperature parameter and a humidity parameter of a training space and a three-dimensional model of the training space;

establishing a three-dimensional model of the space temperature and humidity of the training space according to the temperature parameter, the humidity parameter and the three-dimensional model;

and adjusting the air supply quantity of the air conditioner based on the three-dimensional model of the space temperature and humidity.

Optionally, obtaining a temperature parameter and a humidity parameter of the training space and a three-dimensional model of the training space includes:

identifying at least one object deployed in a training space, scanning the training space through infrared rays to obtain a plurality of space vectors of the training space, and establishing a three-dimensional model of the training space based on the plurality of space vectors; and the number of the first and second electrodes,

acquiring the radiation intensity of an object based on infrared rays, and calculating the surface temperature of the object according to the radiation intensity;

and acquiring the water content of the surface of the object, and calculating the surface humidity of the object according to the water content.

Optionally, the establishing of the three-dimensional model of the space temperature and humidity of the training space according to the temperature parameter, the humidity parameter and the three-dimensional model includes:

respectively determining the temperature value and the humidity value of each space vector based on the surface temperature and the surface humidity of each object;

and on the basis of the three-dimensional model, simultaneously superposing the temperature value and the humidity value of each space vector to establish a three-dimensional model of the space temperature and humidity of the training space.

Optionally, adjusting an air supply amount of the air conditioner based on the three-dimensional model of the temperature and the humidity of the space includes:

selecting an object to be detected in a training space based on the three-dimensional model of the space temperature and humidity, and determining at least one space vector on the object to be detected as a test point of the object;

acquiring a temperature value and a humidity value of a test point;

and comparing the temperature value and the humidity value with a preset standard temperature threshold value and a preset standard humidity threshold value respectively, and adjusting the air supply quantity of the air conditioner according to the comparison result.

Optionally, adjusting the air supply amount of the air conditioner according to the comparison result includes:

and adjusting the air supply speed of the air conditioner according to the comparison result, and adjusting swing vanes at the air outlet of the air conditioner to change the air supply angle.

Optionally, adjusting the air supply speed of the air supply component in the air conditioner according to the comparison result comprises:

if the temperature value is greater than the standard temperature threshold value and/or the humidity value is greater than the standard humidity threshold value, increasing the air supply speed of the air conditioner;

if the temperature value is smaller than the standard temperature threshold value and/or the humidity value is smaller than the standard humidity threshold value, reducing the air supply speed of the air conditioner;

if the temperature value is equal to the standard temperature threshold value and/or the humidity value is equal to the standard humidity threshold value, the air supply speed of the air conditioner is kept unchanged.

Optionally, adjust air conditioner air outlet department pendulum leaf in order to change the air supply angle, include:

acquiring vector coordinates of the test points, and calculating the distance between the test points and an air outlet of the air conditioner based on the vector coordinates;

the angle of the swinging blade at the air outlet of the air conditioner is adjusted based on the distance.

Optionally, adjusting an angle of the swinging blade at the air outlet of the air conditioner based on the distance includes:

comparing the distance with a preset distance threshold;

if the distance is larger than or equal to the preset distance threshold, controlling an air outlet of the air conditioner to face the position of the test point and supplying air;

and if the distance is smaller than the preset distance threshold value, controlling the swinging blade to swing back and forth within the preset angle range.

Optionally, identifying an indoor environment space in which the air conditioner is currently located, and constructing at least one training space, includes:

identifying an indoor environment space where an air conditioner is currently located;

and performing space division on the indoor environment space to obtain at least one sub-environment space, and constructing a corresponding training space based on the sub-environment space.

According to another aspect of the present invention, there is also provided an air conditioner including:

an indoor unit;

and a controller including a memory and a processor, the memory storing a computer program, the computer program being executed by the processor to implement the intelligent air supply adjusting method of the air conditioner according to any one of the above.

The invention provides an intelligent air supply adjusting method of an air conditioner and the air conditioner. Based on the method provided by the invention, the training space correlation model of the indoor environment space is established, so that the air supply quantity of the air conditioner can be intelligently controlled to be adjusted according to the actual use environment of the indoor user, the air blown out by the air conditioner can be matched with the current environment state direction of the indoor space, the requirements of the user can be better met, and the comfortable experience of the indoor user can be improved.

Furthermore, according to the scheme provided by the invention, the current temperature value and the current humidity value of the object are respectively compared with the preset standard temperature threshold value and the preset standard humidity threshold value through the constructed temperature and humidity three-dimensional model, so that the condition of the current environment can be effectively obtained, and meanwhile, the influence of the current operation state of an air supply component of the air conditioner on the environment can be estimated, so that the air supply quantity can be used as a variable, and the air supply quantity of the air conditioner can be intelligently and efficiently adjusted.

The above and other objects, advantages and features of the present invention will become more apparent to those skilled in the art from the following detailed description of specific embodiments thereof, taken in conjunction with the accompanying drawings.

Drawings

Some specific embodiments of the invention will be described in detail hereinafter, by way of illustration and not limitation, with reference to the accompanying drawings. The same reference numbers in the drawings identify the same or similar elements or components. Those skilled in the art will appreciate that the drawings are not necessarily drawn to scale. In the drawings:

fig. 1 is a flow chart illustrating an intelligent air supply adjusting method of an air conditioner according to an embodiment of the present invention;

FIG. 2 is a schematic view of an air conditioner outlet according to an embodiment of the present invention;

fig. 3 is a schematic structural view of an air conditioner according to an embodiment of the present invention.

Detailed Description

Fig. 1 is a schematic flow chart of an intelligent air supply adjustment method for an air conditioner according to an embodiment of the present invention, and as can be seen from fig. 1, the intelligent air supply adjustment method for an air conditioner according to an embodiment of the present invention may include:

step S102, identifying an indoor environment space where an air conditioner is currently located, and constructing at least one training space;

step S104, acquiring a temperature parameter and a humidity parameter of a training space and a three-dimensional model of the training space;

step S106, establishing a space temperature and humidity three-dimensional model of a training space according to the temperature parameter, the humidity parameter and the three-dimensional model;

and S108, adjusting the air supply quantity of the air conditioner based on the space temperature and humidity three-dimensional model.

The embodiment of the invention provides an intelligent air supply adjusting method of an air conditioner. Based on the method provided by the embodiment of the invention, the air conditioner can be intelligently controlled to adjust the air supply amount according to the actual use environment of the indoor user by establishing the training space correlation model of the indoor environment space, so that the air blown out by the air conditioner can be matched with the current environment state direction of the indoor space, the requirements of users are better met, and the comfortable experience of the indoor user is improved.

As mentioned in the above step S102, after the indoor environmental space where the air conditioner is located is identified, at least one training space may be constructed. The training space may be the indoor environmental space itself, or one or more subspaces in the indoor environmental space. In an optional embodiment of the present invention, it may further include: identifying an indoor environment space where an air conditioner is currently located; and performing space division on the indoor environment space to obtain at least one sub-environment space, and constructing a corresponding training space based on the sub-environment space. Alternatively, when the space division is performed, the division may be performed according to a layout manner of an indoor environment space, according to a distance range from the air conditioner, according to a frequent activity area of the user, and the like. In this embodiment, obtain at least one sub-environment space through dividing indoor environment space, can confirm user's normal activity region in indoor environment, especially for great indoor space, can reflect indoor environment overall arrangement more when constructing corresponding training space based on the sub-environment space that the division obtained, and then can satisfy user's user demand when can making follow-up adjustment air conditioner's air output.

Referring to the step S104, after the training space is constructed, the temperature parameter, the humidity parameter, and the three-dimensional model of the training space may be obtained. Further, when the three-dimensional model of the training space is obtained, at least one object deployed in the training space may be identified, the training space is scanned by infrared rays to obtain a plurality of space vectors of the training space, and the three-dimensional model of the training space is established based on the plurality of space vectors. Alternatively, when acquiring the temperature parameter, the infrared-based radiation intensity of the object may be acquired, and the surface temperature of the object may be calculated from the radiation intensity. When acquiring the humidity parameter, can acquire the water content on object surface, calculate the surface humidity of object through the water content.

That is to say, in the embodiment of the present invention, the establishment of the three-dimensional model of the training space and the acquisition of the temperature and humidity data may be completed based on the infrared technology. In practical application, an air conditioner far infrared temperature and humidity module can be arranged on an indoor unit of an air conditioner, infrared rays are emitted through the air conditioner far infrared temperature and humidity module, the surface temperature of a space object is calculated through measuring the infrared radiation intensity emitted by a target, the surface humidity of the object is calculated through obtaining the surface moisture content of the object, furthermore, an indoor space three-dimensional model is established through infrared rays to an air conditioner scanning result, and the space temperature and humidity three-dimensional model is established according to a space vector temperature and humidity value.

Wherein, when measuring the temperature, the infrared ray with the wavelength related to the temperature is emitted according to the surface of the material, and the radiation law lambda of the Planck black body is adopted_mT is K, wherein_mRepresents the wavelength, T represents the temperature, and K is a constant (0.002897 mK). Then obtaining W ═ epsilon sigma T according to Boltzmann law⁴Where W represents total emissivity, epsilon represents blackness of an object, sigma represents boltzmann's constant, and T represents temperature.

When humidity is measured, the infrared wavelengths of absorption peaks of water in the near infrared region are 1.45um, 1.93um and 2.95um, and the Lambert beer law is followed, so that I ═ I₀e^-a/HThe formula calculates the humidity H. Wherein, I₀The infrared light intensity is shown, a is the absorption coefficient, H is the humidity, and I is the optical line length.

Further, after the temperature parameter and the humidity parameter of the training space and the three-dimensional model of the training space are respectively obtained, the three-dimensional model of the space temperature and humidity of the training space can be established. Alternatively, the temperature value and the humidity value of each space vector may be determined based on the surface temperature and the surface humidity of each object, respectively; and on the basis of the three-dimensional model, simultaneously superposing the temperature value and the humidity value of each space vector to establish a three-dimensional model of the space temperature and humidity of the training space. Namely, according to the indoor space vector coordinates, the temperature and humidity data of the point coordinates are simultaneously superposed to obtain the three-dimensional model of the space temperature and humidity of the training space.

After the space temperature and humidity three-dimensional model is built, the air supply quantity of the air conditioner can be adjusted based on the space temperature and humidity three-dimensional model, and in practical application, the specific adjusting process can be as follows:

s1, selecting an object to be detected in a training space based on the three-dimensional model of the space temperature and humidity, and determining at least one space vector on the object to be detected as a test point of the object;

s2, acquiring a temperature value and a humidity value of the test point;

and S3, comparing the temperature value and the humidity value with a preset standard temperature threshold value and a preset standard humidity threshold value respectively, and adjusting the air supply quantity of the air conditioner according to the comparison result. If the temperature value is greater than the standard temperature threshold value and/or the humidity value is greater than the standard humidity threshold value, the air supply speed of the air conditioner is increased; if the temperature value is smaller than the standard temperature threshold value and/or the humidity value is smaller than the standard humidity threshold value, reducing the air supply speed of the air conditioner; if the temperature value is equal to the standard temperature threshold value and/or the humidity value is equal to the standard humidity threshold value, the air supply speed of the air conditioner is kept unchanged. According to the embodiment of the invention, the current temperature value and the current humidity value of the object are respectively compared with the preset standard temperature threshold and the preset standard humidity threshold, so that the current environment condition can be effectively obtained, and the influence of the current operation state of the air supply component of the air conditioner on the environment can be estimated, so that the air supply quantity can be taken as a variable, and the air supply quantity of the air conditioner can be intelligently and efficiently adjusted. The preset standard temperature threshold and the preset standard humidity threshold may be set according to an installation environment of the air conditioner and a size of an indoor space, which is not limited in the present invention.

For example, the position temperature and humidity of the space vector a (X1, Y2, Z3) obtained according to the model are 27 degrees and 60 percent, the system automatically determines that the comfort level of the user is low (the preset comfortable temperature and humidity of the human body is defined as 26 degrees and 52 percent), at this time, the air conditioner enters an active air supply control mode, and the air speed is adjusted to be R α R₀Wherein R is₀The wind speed α may be set by a combination of environmental, traffic, or other factors before entering the active wind speed mode.

In this embodiment, the adjustment of the air supply amount can be realized by the air supply speed and the air supply angle of the air supply component of the air conditioner. Therefore, the step S3 may include: and adjusting the air supply speed of the air conditioner according to the comparison result, and adjusting swing vanes at the air outlet of the air conditioner to change the air supply angle. Acquiring vector coordinates of the test points, and calculating the distance between the test points and an air outlet of the air conditioner based on the vector coordinates; the angle of the swinging blade at the air outlet of the air conditioner is adjusted based on the distance. Wherein, the angle of the air outlet department pendulum leaf of air conditioner based on distance adjustment includes: comparing the distance with a preset distance threshold; and if the distance is larger than or equal to the preset distance threshold, controlling the air outlet of the air conditioner to be over against the position of the test point and supplying air. And if the distance is smaller than the preset distance threshold value, controlling the swinging blade to swing back and forth within the preset angle range.

Optionally, when the distance between the test point and the air outlet of the air conditioner is calculated, the distance between the test point and the central point of the air outlet of the air conditioner may be calculated. Taking the space vector a of the above embodiment as an example of a test point, the coordinates thereof are (X1, Y2, Z3), and the adjustment angle of the swing blade is determined by the position of the space vector a (X1, Y2, Z3). When the distance between the position A (X1, Y2 and Z3) and the air outlet of the air conditioner is more than or equal to 2 m, the direction of the swing blade is over against the position A (X1, Y2 and Z3) to realize a direct blowing mode, namely the air outlet direction of the air outlet is parallel to the connecting direction of the space vector A and the central point of the air outlet. When the distance between the position A (X1, Y2 and Z3) and the air outlet of the air conditioner is less than 2 m, the direction of the swinging blade and the position A (X1, Y2 and Z3) form an angle direction of 30 degrees to blow air, and the swinging blade swings back and forth between the first position and the second position, as shown in figure 2. The distance is only described for the preset angle range and the preset distance threshold, and the distance can be adjusted according to different requirements in practical application, which is not limited in the invention.

Furthermore, because the humidity value and the temperature value corresponding to the space vector of the object to be detected in the training space can be changed frequently, the surface temperature and the surface humidity of each object in the training space can be updated in real time or at intervals, meanwhile, the space temperature and humidity three-dimensional model of the training space can be updated synchronously, and then the air supply quantity of the air conditioner is adjusted based on the updated space temperature and humidity three-dimensional model, so that the air supply quantity of the air conditioner can be adjusted adaptively according to the change of the environmental parameters in the training space, and the air conditioner can intelligently provide a more comfortable living and working environment for users.

Based on the same inventive concept, as shown in fig. 3, an embodiment of the present invention further provides an air conditioner 300, including:

an indoor unit 310;

and a controller 320 including a memory 321 and a processor 322, wherein the memory 321 stores a computer program, and the computer program is executed by the processor 322 to implement the intelligent air supply adjusting method of the air conditioner according to any one of the embodiments.

The embodiment of the invention provides an intelligent air supply adjusting method of an air conditioner and the air conditioner. Based on the method provided by the embodiment of the invention, the air conditioner can be intelligently controlled to adjust the air supply amount according to the actual use environment of the indoor user by establishing the training space correlation model of the indoor environment space, so that the air blown out by the air conditioner can be matched with the current environment state direction of the indoor space, the requirements of users are better met, and the comfortable experience of the indoor user is improved.

Furthermore, according to the scheme provided by the embodiment of the invention, the current temperature value and the current humidity value of the object are respectively compared with the preset standard temperature threshold value and the preset standard humidity threshold value through the constructed temperature and humidity three-dimensional model, so that the current environment condition can be effectively obtained, and meanwhile, the influence of the current operation state of the air supply component of the air conditioner on the environment can be estimated, so that the air supply quantity can be used as a variable, and the air supply quantity of the air conditioner can be intelligently and efficiently adjusted.

Thus, it should be appreciated by those skilled in the art that while a number of exemplary embodiments of the invention have been illustrated and described in detail herein, many other variations or modifications consistent with the principles of the invention may be directly determined or derived from the disclosure of the present invention without departing from the spirit and scope of the invention. Accordingly, the scope of the invention should be understood and interpreted to cover all such other variations or modifications.

Claims (10)

1. An intelligent air supply adjusting method of an air conditioner comprises the following steps:

identifying an indoor environment space where an air conditioner is currently located, and constructing at least one training space;

acquiring a temperature parameter and a humidity parameter of the training space and a three-dimensional model of the training space;

establishing a three-dimensional model of the space temperature and humidity of the training space according to the temperature parameter, the humidity parameter and the three-dimensional model;

and adjusting the air supply quantity of the air conditioner based on the space temperature and humidity three-dimensional model.

2. The method of claim 1, wherein obtaining the temperature parameter, the humidity parameter, and the three-dimensional volumetric model of the training space comprises:

identifying at least one object deployed in the training space, scanning the training space through infrared rays to obtain a plurality of space vectors of the training space, and establishing a three-dimensional model of the training space based on the plurality of space vectors; and the number of the first and second electrodes,

acquiring the radiation intensity of the object based on the infrared rays, and calculating the surface temperature of the object according to the radiation intensity;

and acquiring the water content of the surface of the object, and calculating the surface humidity of the object according to the water content.

3. The method of claim 2, wherein the establishing a three-dimensional model of the temperature and humidity of the training space according to the temperature parameter, the humidity parameter, and the three-dimensional model comprises:

determining a temperature value and a humidity value of each space vector based on the surface temperature and the surface humidity of each object respectively;

and on the basis of the three-dimensional model, simultaneously superposing the temperature numerical value and the humidity numerical value of each space vector to establish a three-dimensional model of the space temperature and humidity of the training space.

4. The method of claim 1, wherein the adjusting the air supply volume of the air conditioner based on the three-dimensional model of the temperature and the humidity of the space comprises:

selecting an object to be detected in the training space based on the three-dimensional space temperature and humidity model, and determining at least one space vector on the object to be detected as a test point of the object;

acquiring a temperature value and a humidity value of the test point;

and comparing the temperature value and the humidity value with a preset standard temperature threshold value and a preset standard humidity threshold value respectively, and adjusting the air supply quantity of the air conditioner according to the comparison result.

5. The method of claim 4, wherein the adjusting the amount of air supplied to the air conditioner according to the comparison comprises:

and adjusting the air supply speed of the air conditioner according to the comparison result, and adjusting swing vanes at an air outlet of the air conditioner to change the air supply angle.

6. The method of claim 5, wherein the adjusting the air supply speed of the air supply component in the air conditioner according to the comparison result comprises:

if the temperature value is greater than the standard temperature threshold value and/or the humidity value is greater than the standard humidity threshold value, increasing the air supply speed of the air conditioner;

if the temperature value is smaller than the standard temperature threshold value and/or the humidity value is smaller than the standard humidity threshold value, reducing the air supply speed of the air conditioner;

and if the temperature value is equal to the standard temperature threshold value and/or the humidity value is equal to the standard humidity threshold value, the air supply speed of the air conditioner is kept unchanged.

7. The method of claim 5, wherein said adjusting the air conditioner outlet louver to change an air supply angle comprises:

acquiring the vector coordinate of the test point, and calculating the distance between the test point and the air outlet of the air conditioner based on the vector coordinate;

and adjusting the angle of the swinging blade at the air outlet of the air conditioner based on the distance.

8. The method of claim 7, wherein said adjusting an angle of a swinging vane at an air outlet of the air conditioner based on the distance comprises:

comparing the distance to a preset distance threshold;

if the distance is larger than or equal to the preset distance threshold, controlling an air outlet of the air conditioner to face the position of the test point and supplying air;

and if the distance is smaller than the preset distance threshold value, controlling the swing blade to swing back and forth within a preset angle range.

9. The method of claim 1, wherein the identifying an indoor environmental space in which an air conditioner is currently located, constructing at least one training space comprises:

identifying an indoor environment space where the air conditioner is currently located;

and carrying out space division on the indoor environment space to obtain at least one sub-environment space, and constructing a corresponding training space based on the sub-environment space.

10. An air conditioner comprising:

an indoor unit;

a controller comprising a memory and a processor, the memory storing a computer program that when executed by the processor is for implementing the intelligent supply air adjustment method of an air conditioner according to any one of claims 1 to 9.

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