CN112484261A

CN112484261A - High-efficiency energy-saving household air conditioner with intelligent multi-air-channel regulation and control

Info

Publication number: CN112484261A
Application number: CN202011471162.5A
Authority: CN
Inventors: 雷建明
Original assignee: Nanjing Vocational University of Industry Technology NUIT
Current assignee: Nanjing Vocational University of Industry Technology NUIT
Priority date: 2020-12-15
Filing date: 2020-12-15
Publication date: 2021-03-12

Abstract

The invention discloses a high-efficiency energy-saving household air conditioner with intelligent multi-air-channel regulation and control, which relates to the field of air conditioners. Accurate human body tracing is realized through an ultraviolet solar blind APD (avalanche photo diode) distance measurement and imaging technology and an infrared temperature field imaging technology, and finally, the following of the man-made wind by man-made wind is realized through multi-air-channel regulation, door and window linkage and algorithm processing of a central processing unit; the wind is blown to people by the upper section, the middle section and the lower section with different intensities; people feel the arrival of wind firstly, the temperature of people and the local area around the people is changed quickly in a low-energy consumption mode, the final temperature change of the whole indoor environment temperature can be realized at the speed set by a user, and the air conditioner is automatically turned off after the people leave the room for a period of time.

Description

High-efficiency energy-saving household air conditioner with intelligent multi-air-channel regulation and control

Technical Field

The invention relates to the field of air conditioners, in particular to a high-efficiency energy-saving household air conditioner with intelligent multi-air-channel regulation and control.

Background

The air conditioner has developed into one of indispensable electrical appliances in family life, can take away summer-heat for users in summer and can also send warm air for users in winter, but the huge number of traditional air conditioners bring comfort to people and bring huge energy consumption, so how to make the air conditioner efficient and save energy has become an industry consensus. Reviewing the development process of the traditional air conditioner, the air conditioner changes the wind and the wind direction from the initial fixed frequency to the frequency conversion, automatically senses and adjusts the room temperature, and the implementation of the measures is beneficial to improving the energy efficiency, but complex manual operation is required, and the user experience is unsatisfactory.

Due to the progress of science and technology, air conditioners become more and more intelligent and humanized, various intelligent household air conditioners come out endlessly, for example, the cloud and rice science and technology has released a kind of cook high-end intelligent variable frequency air conditioner in the near future, and its main characteristics have four points: adopting a Japan pine down-conversion compressor; the direct current frequency conversion technology is adopted to enable the energy efficiency to reach 2020 new national standard first-level energy efficiency; the 'soft wind' is created by using the released blade type patent micropores; IFD micro-electrostatic dust removal air purification system is joined in marriage on embedded high-end top. However, the "full room temperature field" technology adopted by coking relies on the implanted room temperature sensor and a plurality of external temperature and humidity sensors for sensing, so that a sensor fixed at a certain position can only measure the temperature point, the temperature field of each point in the whole room cannot be obtained in time, and the temperature distribution information of the user and the environment in the deep part cannot be fed back in time. The human body detector that it adopted also is traditional pyroelectric infrared sensor, can detect user's existence, but can't confirm the position that these users specifically are located, just so can't adopt exact air-out mode in time to promote user experience, can only realize simply that the people comes at wind, and the people stops to stop, and wind keeps away the people and blows. Therefore, there is a need to further make the air conditioner efficient and energy-saving, and at the same time improve the user experience.

Disclosure of Invention

The invention aims to provide an efficient energy-saving household air conditioner with intelligent multi-air-channel regulation, which realizes accurate human body tracing through an ultraviolet solar blind APD (avalanche photo diode) ranging and imaging technology and an infrared temperature field imaging technology, and finally realizes that the human moves can follow the human moves through multi-air-channel regulation, door and window linkage and central processing unit algorithm processing; the wind is blown to people by the upper section, the middle section and the lower section with different intensities; people feel the arrival of wind firstly, the temperature of people and the local area around the people is changed quickly in a low-energy consumption mode, the final temperature change of the whole indoor environment temperature can be realized at the speed set by a user, and the air conditioner is automatically turned off after the people leave the room for a period of time. According to the invention, the multi-air channel is utilized to perform rapid temperature change preferentially aiming at the local environment around each person, and then the whole room is subjected to temperature change in a low-energy-consumption mode, so that the energy consumption is reduced while the use experience of users is met.

A high-efficiency energy-saving household air conditioner with intelligent multi-air-channel regulation comprises an air conditioner body, and an infrared imager and an ultraviolet solar blind APD imager which are arranged on the top of the air conditioner, wherein a central processing unit is arranged in the air conditioner body, is connected with the air conditioner body, the infrared imager and the ultraviolet solar blind APD imager, and is also wirelessly interconnected with a door and a window, and a plurality of sections are respectively arranged on an air outlet channel of the air conditioner body in the vertical direction and the horizontal direction;

the infrared imager and the central processing unit are matched to construct an indoor temperature monitoring field monitoring system;

the ultraviolet solar blind APD imager maps the indoor three-dimensional coordinates and constructs an environment map through the central processor, and the ultraviolet solar blind APD imager determines the specific trunk part of the human body through mapping the coordinates and the angles of the human body and linking with the infrared imaging,

the central processing unit changes the wind direction and the wind speed by controlling the wind outlet channel, and interacts with the ultraviolet solar blind APD imager to realize intelligent tracing to the human body, and the central processing unit is also wirelessly interconnected with a door and a window to simulate the indoor wind channel flow direction to implement an optimal wind swinging mode, directional control of the wind outlet channel, frequency conversion and energy-saving control.

Preferably, the infrared imager and the ultraviolet solar blind APD imager can also be integrated on the upper part of the air conditioner, the air outlet channel of the air conditioner body is divided into an upper section, a middle section and a lower section in the vertical direction, and the air outlet channel is divided into a plurality of sections in the horizontal direction according to the size of the air conditioner.

Preferably, the ultraviolet solar blind APD imager maps indoor construction environment maps including room space size and shape and indoor article coordinates and size and shape.

Preferably, the central processing unit is wirelessly interconnected with the door and window, detects whether the door and window is closed or not through the sensor, detects the wind speed and the wind direction flowing through the door and the window through the sensor, and sends data to the central processing unit for processing so as to assist in simulating the indoor air duct, so that the central processing unit can calibrate the indoor air duct in real time.

Preferably, the air conditioner body sets up the multichannel air outlet, to the difference of different numbers of people and human and environmental temperature difference, implements the air-out of different quantity passageways and different intensity.

Preferably, the central processing unit controls the air conditioner body to blow out different wind speeds in the upper, middle and lower air outlet channels, wherein the wind speed of the middle section is greater than that of the upper section and is greater than that of the lower section.

Preferably, the horizontal direction multistage air-out passageway divide into a plurality of groups to different people and carry out the air-out.

The invention has the advantages that: accurate human body tracing is realized through an ultraviolet solar blind APD (avalanche photo diode) distance measurement and imaging technology and an infrared temperature field imaging technology, and finally, the following of the man-made wind by man-made wind is realized through multi-air-channel regulation, door and window linkage and algorithm processing of a central processing unit; the wind is blown to people by the upper section, the middle section and the lower section with different intensities; people feel the arrival of wind firstly, the temperature of people and the local area around the people is changed quickly in a low-energy consumption mode, the final temperature change of the whole indoor environment temperature can be realized at the speed set by a user, and the air conditioner is automatically turned off after the people leave the room for a period of time. According to the invention, the multi-air channel is utilized to perform rapid temperature change preferentially aiming at the local environment around each person, and then the whole room is subjected to temperature change in a low-energy-consumption mode, so that the energy consumption is reduced while the use experience of users is met.

Drawings

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

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

FIG. 3 is a schematic view of the air conditioning duct partition according to the present invention;

FIG. 4 is a schematic flow diagram of an air conditioning duct according to the present invention;

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 4, an energy-efficient household air conditioner with intelligent multi-air-duct regulation comprises an air conditioner body, and an infrared imager and an ultraviolet solar blind APD imager which are mounted at the top of the air conditioner, wherein a central processing unit is arranged in the air conditioner body, the central processing unit is connected with the air conditioner body, the infrared imager and the ultraviolet solar blind APD imager, the central processing unit is also wirelessly interconnected with a door and a window, and an air outlet channel of the air conditioner body is respectively provided with a plurality of sections in the vertical direction and the horizontal direction;

the infrared imager and the central processing unit are matched to construct an indoor temperature monitoring field monitoring system; the single infrared imaging technology has high misjudgment rate and is greatly influenced by the environment.

The ultraviolet solar blind APD imager maps an indoor three-dimensional coordinate and constructs an environment map through the central processing unit, and the ultraviolet solar blind APD imager maps the coordinates and angles of a human body and is linked with infrared imaging to determine the specific trunk part of the human body.

The infrared imager integrates mobile internet and cloud storage through online temperature field monitoring, and realizes monitoring and identification of human body temperature, environment temperature and human body trunk parts; the ultraviolet solar blind APD imager maps and constructs indoor 3D coordinates and angle positioning through interference-free imaging, and assists infrared imaging and identification, particularly imaging, identification and coordinate positioning of a human body. Among the two imagers, the infrared thermal imager is mainly used for thermal imaging, while the ultraviolet solar blind APD imager is mainly used for interference-free image imaging and coordinate mapping, and has the functions of both a laser range finder and a common camera, and the waveband of the ultraviolet solar blind APD imager is ultraviolet and is not perceived by a human body. In conclusion, the important data provided by the two imagers comprise room 3D coordinates, real-time position coordinates of a human body, upper, middle and lower distribution and position coordinates of a human body trunk, the distance and angle of the human body from an air conditioner and the distribution and coordinates of indoor obstacles, the data can realize quick, real-time and accurate intelligent tracing of the human body, and provide data basis for the algorithm to predict an indoor air duct, so that the central processing unit can start intelligent control.

The infrared imager and the ultraviolet solar blind APD imager can also be integrated on the upper part of the air conditioner, the air outlet channel of the air conditioner body is divided into an upper section, a middle section and a lower section in the vertical direction, and the air outlet channel is divided into a plurality of sections in the horizontal direction according to the size of the air conditioner.

The ultraviolet solar blind APD imager maps indoor construction environment diagrams, including the size and shape of a room space and the coordinates and size and shape of indoor articles.

The central processing unit is wirelessly connected with the door and the window, and detects whether the door and the window are closed or not through the sensor and detects the wind speed and the wind direction flowing through the door and the window through the sensor. The central processing unit and the door and window judge whether the door and the window are closed or not in a wireless interconnection mode, the basis is provided for calculating and predicting the indoor air channel by detecting the wind speed and the wind direction flowing through the door and the window, and the data are sent to the central processing unit to be processed to assist in simulating the indoor air channel, so that the central processing unit can calibrate the indoor air channel in real time.

The air conditioner body sets up the multichannel air outlet, to the difference of different numbers and human and environmental temperature difference, implements the air-out of different quantity passageways and different intensity.

The central processing unit controls the air conditioner body to blow out different wind speeds in the upper, middle and lower air outlet channels, wherein the wind speed of the middle section is larger than that of the upper section than that of the lower section.

The air conditioner comprises an air conditioner body, and is characterized in that the upper, middle and lower three sections of air outlet channels of the air conditioner body are used for exhausting air for human trunk parts, and the horizontal multi-section air outlet channels of the air conditioner body are divided into a plurality of groups for exhausting air for different people.

The channel of the air conditioner is divided into an upper section, a middle section and a lower section in the vertical direction according to a human body three-partition method, the channel can be divided into a plurality of sections in the horizontal direction according to the size and different people number, and an auxiliary channel capable of adjusting the air channel is further designed, as shown in the third drawing. The upper, middle and lower sections in the vertical direction are used for controlling the wind speeds of different trunk parts of a human body, particularly the head, so that the user experience is improved; the horizontal direction is divided into a plurality of sections so as to be used for tracking 'wind' of each person in a room, each person at least corresponds to one air-conditioning channel, and each channel can be independently intelligently adjusted according to different distances and angles between the person and the air-conditioning channel. Therefore, the method can effectively improve the user experience, regulate the human body temperature very quickly and effectively save energy.

The central processing unit integrates the data and adds an intelligent algorithm to realize automatic control of the air channel, realize reminding of whether the door and the window are closed or not, directional control of the air outlet channel, simulation of the flow direction of the indoor air channel, implementation of an optimal air swinging mode, frequency conversion, energy-saving control and the like. This ability of intelligent control wind channel includes: controlling the wind speed and the angle of the human body to different positions, controlling the wind speed and the angle of different trunk parts of the human body, and controlling and predicting the flow direction of the indoor air channel, wherein the indoor air channel distribution sketch is shown as the fourth attached drawing. The two can realize the effect of 'soft wind' or 'natural wind' while quickly realizing the temperature adjustment of the human body, thereby improving the user experience; the latter can make the indoor environment temperature reach the final set required temperature in an optimal way, and effectively realizes energy conservation. The invention is only suitable for the domestic environment with a small number of people, and generally, the number of people is not more than ten.

The specific implementation mode and principle are as follows:

indoor coordinates are mapped by adopting an ultraviolet solar blind APD scanning and ranging technology, an environment map including indoor main obstacles and sizes is constructed through a central processing unit, and a basis is provided for automatically controlling an air channel. Compared with a laser ranging technology, the ultraviolet solar blind APD ranging technology has the advantages that a human body is not aware of the ultraviolet solar blind APD ranging technology, interference-free photographing can be achieved under the extremely dark condition due to high photoelectric gain, and common laser light is very strong in stimulation to human eyes.

The ultraviolet solar blind APD imaging technology is adopted to measure and draw the coordinates and the angles of the human body, and the coordinates and the angles are linked with the infrared imaging to determine the specific trunk part of the human body, so that the user is unaware in the whole implementation process, the photoelectric gain is high, the anti-interference capability is strong, and the human body misjudgment rate can be effectively reduced. The single infrared imaging technology has high misjudgment rate and is greatly influenced by the environment.

And simulating the flow direction of an indoor air duct by using the central processor, and implementing an optimal air swinging mode, directional control of an air outlet channel, frequency conversion and energy-saving control.

The temperature field is adopted for monitoring, and the coordinates, the angle and the accurate positioning of the trunk part are added, so that the accurate intelligent tracing of the human body is realized, the dynamic real-time tracing is realized, and the response speed is high.

Because the human body is accurately positioned, the directional wind swinging can be carried out on the human body, the speed of the wind reaching the human body is controlled, the temperature of the human body and the local area near the human body is quickly changed, and the softness of the wind reaching the human body is improved. The air outlet channels in the horizontal direction blow air for different people, and meanwhile, the upper, middle and lower three different air speeds can be implemented according to different parts of the human body, so that the comfort level of the human body is improved.

Adopt the multichannel air outlet, to the difference of different numbers of people and human and environmental temperature difference, implement the air-out of different quantity passageways and different intensity, direct quick change human and near human local area's temperature to the wind channel flow direction in whole room is controlled through supplementary air outlet, makes whole indoor temperature can change to the expected value slowly under the most energy-conserving mode.

Based on the above, the invention realizes accurate human body tracing by ultraviolet solar blind APD (avalanche photo diode) ranging and imaging technology and infrared temperature field imaging technology, and finally realizes that the human moves can follow the human moves by the aid of multi-air-channel regulation, door and window linkage and algorithm processing of a central processing unit; the wind is blown to people by the upper section, the middle section and the lower section with different intensities; people feel the arrival of wind firstly, the temperature of people and the local area around the people is changed quickly in a low-energy consumption mode, the final temperature change of the whole indoor environment temperature can be realized at the speed set by a user, and the air conditioner is automatically turned off after the people leave the room for a period of time. According to the invention, the multi-air channel is utilized to perform rapid temperature change preferentially aiming at the local environment around each person, and then the whole room is subjected to temperature change in a low-energy-consumption mode, so that the energy consumption is reduced while the use experience of users is met.

It will be appreciated by those skilled in the art that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The embodiments disclosed above are therefore to be considered in all respects as illustrative and not restrictive. All changes which come within the scope of or equivalence to the invention are intended to be embraced therein.

Claims

1. A high-efficiency energy-saving household air conditioner with intelligent multi-air-channel regulation and control is characterized by comprising an air conditioner body, an infrared imager and an ultraviolet solar blind APD imager, wherein the infrared imager and the ultraviolet solar blind APD imager are mounted at the top of the air conditioner;

2. The high-efficiency energy-saving household air conditioner with intelligent multi-air-duct regulation and control function as claimed in claim 1, is characterized in that: the infrared imager and the ultraviolet solar blind APD imager can also be integrated on the upper part of the air conditioner, the air outlet channel of the air conditioner body is divided into an upper section, a middle section and a lower section in the vertical direction, and the air outlet channel is divided into a plurality of sections in the horizontal direction according to the size of the air conditioner.

3. The high-efficiency energy-saving household air conditioner with intelligent multi-air-duct regulation and control function as claimed in claim 1, is characterized in that: the ultraviolet solar blind APD imager maps indoor construction environment diagrams, including the size and shape of a room space and the coordinates and size and shape of indoor articles.

4. The high-efficiency energy-saving household air conditioner with intelligent multi-air-duct regulation and control function as claimed in claim 1, is characterized in that: the central processing unit is wirelessly interconnected with the door and the window, detects whether the door and the window are closed or not through the sensor, detects the wind speed and the wind direction flowing through the door and the window through the sensor, and sends data to the central processing unit to process so as to assist in simulating an indoor air channel, so that the central processing unit can calibrate the indoor air channel in real time.

5. The high-efficiency energy-saving household air conditioner with intelligent multi-air-duct regulation and control function as claimed in claim 2, is characterized in that: the air conditioner body sets up the multichannel air outlet, to the difference of different numbers and human and environmental temperature difference, implements the air-out of different quantity passageways and different intensity.

6. The high-efficiency energy-saving household air conditioner with intelligent multi-air-duct regulation and control function as claimed in claim 2, is characterized in that: the central processing unit controls the air conditioner body to blow out different wind speeds in the upper, middle and lower air outlet channels, wherein the wind speed of the middle section is larger than that of the upper section than that of the lower section.

7. The high-efficiency energy-saving household air conditioner with intelligent multi-air-duct regulation and control function as claimed in claim 2, is characterized in that: the air conditioner comprises an air conditioner body, and is characterized in that the upper, middle and lower three sections of air outlet channels of the air conditioner body are used for exhausting air for human trunk parts, and the horizontal multi-section air outlet channels of the air conditioner body are divided into a plurality of groups for exhausting air for different people.