CN113883685A - Air conditioner intelligent temperature control system and method based on computing power of mobile client - Google Patents

Abstract

The invention discloses an air conditioner intelligent temperature control system and method based on computing power of a mobile client, which comprises the following steps: the temperature sensor is used for performing surface scanning on the top surface and the side surface of the room to obtain temperature information of the corresponding surface; the air conditioner host is used for storing the temperature information acquired by the temperature sensor and sending the temperature information to the mobile terminal; the mobile terminal is used for constructing a 3D temperature field distribution diagram of the room according to the temperature information of each surface in the room; carrying out temperature assignment on each position point in the room according to the 3D temperature field distribution diagram; determining a position point with the highest temperature in the room according to the temperature of each position point in the room; and determining an air conditioner control strategy according to the temperature of the position point with the highest temperature, and sending the control strategy to the air conditioner host, so as to regulate and control the temperature of the position point with the highest temperature according to the air conditioner control strategy. The accurate regulation and control of the temperature distribution in the room are realized.

Description

Air conditioner intelligent temperature control system and method based on computing power of mobile client

Technical Field

The invention relates to the technical field of air conditioner temperature control, in particular to an air conditioner intelligent temperature control system and method based on the computing power of a mobile client.

Background

The statements in this section merely provide background information related to the present disclosure and may not necessarily constitute prior art.

The existing air conditioner temperature control strategy mainly utilizes a temperature sensor of an air conditioner to obtain temperature information in a room, as long as the temperature in the room rises to a certain specified value, an air conditioner refrigerating device can be immediately put into operation, so that the temperature in the room gradually drops, and when the temperature drops to a certain value, a compressor is automatically turned off to stop refrigerating.

The air conditioner temperature control strategy mainly has the following defects:

the air conditioner internal temperature sensor is integrated to an air inlet of the air conditioner, the running state of the air conditioner is regulated and controlled by comparing the temperature of the air inlet with the set temperature, and the phenomenon of uneven cold and heat caused by uniform distribution of temperature fields in each space section in a room cannot be realized; the temperature in a specific area cannot be accurately controlled; the existing air conditioner temperature control strategy is based on the calculation of the control strategy by the single chip microcomputer of the air conditioner, and the calculation and storage capacities of the single chip microcomputer of the air conditioner are weak, so that the air conditioner temperature control strategy is not suitable for the occasions with more accurate temperature control and the application situations containing a large amount of data analysis and processing.

Disclosure of Invention

In order to solve the problems, the invention provides an air conditioner intelligent temperature control system and method based on the computing power of a mobile client.

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

in a first aspect, an air conditioner intelligent temperature control system based on computing power of a mobile client is provided, which includes:

the temperature sensor is used for performing surface scanning on the top surface and the side surface of the room to obtain temperature information of the corresponding surface;

the air conditioner host is used for storing the temperature information acquired by the temperature sensor and sending the temperature information to the mobile terminal;

the mobile terminal is used for constructing a 3D temperature field distribution diagram of the room according to the temperature information of each surface in the room; carrying out temperature assignment on each position point in the room according to the 3D temperature field distribution diagram; determining a position point with the highest temperature in the room according to the temperature of each position point in the room; and determining an air conditioner control strategy according to the temperature of the position point with the highest temperature, and sending the control strategy to the air conditioner host, so as to regulate and control the temperature of the position point with the highest temperature according to the air conditioner control strategy.

In a second aspect, an air conditioner intelligent temperature control method based on computing power of a mobile client is provided, and includes:

acquiring temperature information of the top surface and the side surface of a room;

storing the acquired temperature information;

constructing a 3D temperature field distribution diagram of the room according to the temperature information of each surface in the room;

carrying out temperature assignment on each position point in the room according to the 3D temperature field distribution diagram;

determining a position point with the highest temperature in the room according to the temperature of each position point in the room;

determining an air conditioner control strategy according to the temperature of the position point with the highest temperature, and sending the control strategy to an air conditioner host;

and the air conditioner host machine regulates and controls the temperature of the position point with the highest temperature according to an air conditioner control strategy.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the temperature sensor with the surface scanning function is used for realizing real-time sensing of the temperature in the room, so that the temperature information in the room is obtained, the temperature information is transferred to the mobile terminal through the air conditioner host, the mobile terminal formulates a corresponding air conditioner control strategy according to the temperature information in the room, the air conditioner control strategy is injected into the air conditioner host for indoor temperature regulation, the strong edge computing capacity of the mobile terminal is fully utilized, and the processing of mass temperature data is realized.

2. According to the invention, the temperature information of each surface in the room is acquired through the sensor, so that the position point with the highest temperature in the room is determined according to the temperature information, and the temperature of the position point with the highest temperature is regulated, thereby realizing the accurate regulation of the temperature distribution in the room.

Advantages of additional aspects of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the application and, together with the description, serve to explain the application and are not intended to limit the application.

FIG. 1 is a schematic diagram of the system disclosed in example 1;

FIG. 2 is a schematic view of the surface scanning function of the temperature sensor disclosed in embodiment 1;

FIG. 3 is a block diagram of the disclosed system of example 1;

FIG. 4 is a schematic diagram of a memory cell disclosed in embodiment 1;

FIG. 5 is a transmission information of the temperature sensor disclosed in embodiment 1;

FIG. 6 is a flow chart of temperature information storage disclosed in embodiment 1;

FIG. 7 is a partition view of a room model disclosed in example 1;

FIG. 8 is a flow chart of the bubbling method disclosed in example 1;

fig. 9 is a signal flow diagram of the system disclosed in embodiment 1.

The specific implementation mode is as follows:

the invention is further described with reference to the following figures and examples.

It should be noted that the following detailed description is exemplary and is intended to provide further explanation of the disclosure. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

Example 1

In this embodiment, an air conditioner intelligent temperature control system based on mobile client computing power is disclosed, which includes:

the temperature sensor is used for performing surface scanning on the top surface and the side surface of the room to obtain temperature information of the corresponding surface;

the air conditioner host is used for storing the temperature information acquired by the temperature sensor and sending the temperature information to the mobile terminal;

the mobile terminal is used for constructing a 3D temperature field distribution diagram of the room according to the temperature information of each surface in the room; carrying out temperature assignment on each position point in the room according to the 3D temperature field distribution diagram; determining a position point with the highest temperature in the room according to the temperature of each position point in the room; and determining an air conditioner control strategy according to the temperature of the position point with the highest temperature, and sending the control strategy to the air conditioner host, so as to regulate and control the temperature of the position point with the highest temperature according to the air conditioner control strategy.

Furthermore, each surface of the top surface and the side surface in the room is provided with a temperature sensor, a rotating temperature sensing probe is arranged on the temperature sensor, and the temperature information of each surface is obtained through the rotation of the temperature sensing probe.

Further, the temperature sensing probe rotates 90 degrees at set time intervals to obtain the temperature distribution information of the corresponding surface, and the average surface temperature of the surface is determined according to the temperature distribution information, namely the temperature information of the surface.

Further, the temperature sensor sends the acquired temperature information to the air conditioner host for storage at set time intervals.

Furthermore, the information sent to the air conditioner host by the temperature sensor comprises temperature information and first password information, a plurality of storage units used for storing the temperature information of each surface are arranged in the air conditioner host, different second password information and position information are stored in each storage unit, the second password information is paired with the first password information, the position of the temperature information is verified, and the verified temperature information is stored in the corresponding storage unit.

Furthermore, the first password information sent by the temperature sensor is a sub information segment, the second password information stored in the storage unit is a mother information segment, and the sub information segment is matched with the mother information segment of the corresponding position storage unit to form a complete character segment, so that the position verification is realized.

Furthermore, the mobile terminal compares the temperature of each position point in the room by adopting a bubbling method, and determines the position point with the highest temperature in the room.

Furthermore, the temperature sensor is in wireless connection with the air conditioner host.

Further, the air conditioner host computer adopts the bluetooth mode to be connected with the removal end.

The intelligent temperature control system of the air conditioner based on the computing power of the mobile client disclosed in this embodiment is described in detail by taking a vertical air conditioner in a family living room as an example.

An air conditioner intelligent temperature control system based on mobile client computing power is shown in fig. 1 and 3, and comprises: temperature sensor, air conditioner host computer and removal end.

The temperature sensor and the air conditioner host are in communication connection through a 2.4G frequency band wireless communication link technology, and the air conditioner host and the mobile terminal are connected through a Bluetooth communication technology.

Taking a vertical air conditioner in a family living room as an example, the vertical air conditioner is arranged at one corner in a room, temperature sensors with a wireless data transmission function are uniformly arranged on the upper, left, right, front and rear wall surfaces in the room, and the five temperature sensors are respectively as follows: s1, S2, S3, S4 and S5.

The temperature sensing probe on the temperature sensor can rotate freely and rotate 90 degrees at every set time, as shown in fig. 2, in the specific implementation, the set time is 5s, the temperature sensing probe on each temperature sensor rotates 90 degrees at intervals of 5s, the temperature distribution condition of the whole surface can be obtained by 20s, and the surface average temperature of the whole surface is obtained according to the obtained temperature distribution condition and is recorded as the temperature information of the surface.

The temperature information obtained by the temperature sensors on the five surfaces is respectively recorded as Ts1, Ts2, Ts3, Ts4 and Ts 5.

The temperature sensor sends the acquired temperature information to the air conditioner host for storage at set time intervals, and the set time can be set to be 30 min.

A miniature photovoltaic cell is integrated in the temperature sensor, and the temperature sensor is charged by means of natural light and illumination signals of a fluorescent lamp, so that the battery does not need to be replaced in the whole life cycle.

The air conditioner host is provided with a plurality of storage units VM1-VM5 for storing the temperature information sent by the temperature sensor.

Each temperature sensor transmits temperature information to the air conditioner host in a pulse mode every 30min, and the signal duration is 30 s.

In order to ensure that the temperature information acquired by the temperature sensor can be stored in the corresponding storage unit according to the position, the information sent by the temperature sensor to the air conditioner host computer is set to comprise the temperature information and the first password information, as shown in fig. 5, and the second password information and the position information are stored in each storage unit, as shown in fig. 4.

When the temperature sensor stores the temperature information into the storage unit, the position of the temperature information is verified through pairing the first password information and the second password information, and when the verification is passed, the temperature information is stored into the storage unit in which the corresponding position information is stored. As shown in fig. 6.

In specific implementation, as shown in fig. 6, the first password information is a sub information segment, the second password information is a main information segment, and a matching manner between the signal transmitted by the temperature sensor and the storage unit of the air conditioner host is a "primary-secondary" matching manner, that is, when the contents of the "sub information segment" transmitted by the temperature sensor and the "main information segment" of the virtual storage unit of the air conditioner chip are combined into a complete character segment, verification matching can be completed, so that the temperature information of the temperature sensor can be stored in the matched storage unit, and the character segment can be set to 1234.

And if the 'child information segment' sent by the temperature sensor and the 'parent information segment' stored in the storage unit cannot be combined into a complete '1234' character segment, executing the next comparison link, namely performing pairing verification with the 'parent information segment' in another storage unit, wherein the duration of the process is 10s until the pairing verification is passed, and storing the temperature information into the corresponding storage unit.

And analogizing in sequence, all the temperature information on five surfaces in the room is stored in the air-conditioning host in one time period (30min), and the whole data segment is packaged and transmitted to the mobile terminal because the air-conditioning host does not have the function of carrying out logic calculation on a large amount of data, and the mobile terminal carries out data processing on the temperature information.

And the mobile terminal is used for analyzing the temperature information so as to formulate a corresponding air conditioner control strategy.

The specific process of analyzing and formulating the air conditioner control strategy by the mobile terminal to the temperature information is as follows:

the mobile terminal constructs the temperature field distribution condition of the whole room based on the acquired two-dimensional surface temperature information of the upper, left, right, front and back surfaces of the room, and generates a 3D temperature field distribution diagram in the room;

as shown in fig. 7, a 3D spatial structure model of the room interior is constructed, and the 3D spatial structure model is subjected to gridding processing to obtain spatially distributed position points Q₁、Q₂………Q_n；

According to the 3D temperature field distribution diagram, carrying out temperature assignment on each position point in the room;

comparing the temperature of each position point in the room by adopting a bubbling method, sequencing the temperature of each position point, and determining the position point with the highest temperature in the room, as shown in fig. 8;

and (3) making an air conditioner control strategy according to the temperature of the position point with the highest temperature, wherein the air conditioner control strategy can be made by adopting a machine self-learning method in specific implementation.

The mobile terminal sends the formulated air conditioner control strategy to the air conditioner host, and the air conditioner host regulates and controls the temperature of the position point with the highest temperature according to the air conditioner control strategy, so that the temperature distribution in the physical space is accurately regulated and controlled.

The determined air conditioning control strategy comprises wind speed, wind temperature and wind direction.

According to the embodiment, the temperature information is sent to the mobile terminal to analyze and process the data, so that the problems that the computing capacity of the existing air conditioner host is limited, and a complex logical operation program cannot be executed, a large amount of data cannot be analyzed, and the temperature distribution in a physical space is accurately regulated and controlled are solved.

As shown in fig. 9, the air conditioner host and the mobile terminal are connected in a pairing manner in a bluetooth manner, so as to realize information interaction. Firstly, the air conditioner host transmits temperature information stored in the storage units VM1-VM5 to a mobile terminal through a downlink data signal; an App small program 'temperature is randomly determined' with customized development is installed on a mobile terminal; the App has multidimensional display and configuration logic programming capacity of temperature field distribution; the App can display the temperature distribution condition in a room in real time, deeply analyzes and learns the data based on the temperature distribution condition and provides an air conditioner control strategy for guiding the adjustment of the running state of the air conditioner; meanwhile, an operator can add a programming module through logic configuration according to own preference (for example, the temperature in a specific area can be specified); the App packs the edited programs integrally, then the programs are injected into the air-conditioning host integrally through the downlink data signal link, and the air-conditioning host runs according to the set programs, so that the temperature in a room is adjusted.

The temperature sensor that this embodiment was swept the function through the face realizes the real-time perception to the room in temperature to obtain the temperature information in the room, temperature information passes through the air conditioner host computer and transfers to in removing the end, removes the end and formulates corresponding air conditioner control strategy according to the temperature information in the room, and pour into the air conditioner control strategy into the air conditioner host computer, carry out indoor temperature regulation, make full use of remove the powerful marginal computing power of end, realized the processing to magnanimity temperature data.

The temperature information of each side in the room is obtained through the sensor, the position point with the highest temperature in the room is determined according to the temperature information, temperature regulation and control are carried out on the position point with the highest temperature, and accurate regulation and control of temperature distribution in the room are achieved.

Example 2

In this embodiment, an air conditioner intelligent temperature control method based on computing power of a mobile client is disclosed, which includes:

acquiring temperature information of the top surface and the side surface of a room;

storing the acquired temperature information;

constructing a 3D temperature field distribution diagram of the room according to the temperature information of each surface in the room;

carrying out temperature assignment on each position point in the room according to the 3D temperature field distribution diagram;

determining a position point with the highest temperature in the room according to the temperature of each position point in the room;

determining an air conditioner control strategy according to the temperature of the position point with the highest temperature, and sending the control strategy to an air conditioner host;

and the air conditioner host machine regulates and controls the temperature of the position point with the highest temperature according to an air conditioner control strategy.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting the same, and although the present invention is described in detail with reference to the above embodiments, those of ordinary skill in the art should understand that: modifications and equivalents may be made to the embodiments of the invention without departing from the spirit and scope of the invention, which is to be covered by the claims.

Claims (10)

1. Intelligent temperature control system of air conditioner based on mobile client computing power, its characterized in that includes:

the temperature sensor is used for performing surface scanning on the top surface and the side surface of the room to obtain temperature information of the corresponding surface;

the air conditioner host is used for storing the temperature information acquired by the temperature sensor and sending the temperature information to the mobile terminal;

the mobile terminal is used for constructing a 3D temperature field distribution diagram of the room according to the temperature information of each surface in the room; carrying out temperature assignment on each position point in the room according to the 3D temperature field distribution diagram; determining a position point with the highest temperature in the room according to the temperature of each position point in the room; and determining an air conditioner control strategy according to the temperature of the position point with the highest temperature, and sending the control strategy to the air conditioner host, so as to regulate and control the temperature of the position point with the highest temperature according to the air conditioner control strategy.

2. The intelligent air-conditioning temperature control system based on the computing power of the mobile client side as claimed in claim 1, wherein a temperature sensor is arranged on each of the top surface and the side surface in the room, a rotary temperature sensing probe is arranged on the temperature sensor, and the temperature information of each surface is obtained through the rotation of the temperature sensing probe.

3. The intelligent air-conditioning temperature control system based on the computing power of the mobile client as claimed in claim 2, wherein the temperature sensing probe rotates 90 degrees at set intervals to obtain the temperature distribution information of the corresponding surface, and the average temperature of the surface is determined according to the temperature distribution information, namely the temperature information of the surface.

4. The intelligent air-conditioning temperature control system based on the computing power of the mobile client side as claimed in claim 1, wherein the temperature sensor sends the acquired temperature information to the air-conditioning host computer for storage at set time intervals.

5. The intelligent air-conditioning temperature control system based on the computing power of the mobile client as claimed in claim 1, wherein the information sent by the temperature sensor to the air-conditioning host includes temperature information and first password information, a plurality of storage units for storing the temperature information of each side are arranged in the air-conditioning host, different second password information and different position information are stored in each storage unit, the position of the temperature information is verified by pairing the second password information with the first password information, and the temperature information which passes the verification is stored in the corresponding storage unit.

6. The intelligent air conditioner temperature control system based on the computing power of the mobile client as claimed in claim 5, wherein the first password information sent by the temperature sensor is a sub information segment, the second password information stored in the storage unit is a mother information segment, and the sub information segment is paired with the mother information segment of the corresponding position storage unit to form a complete character segment, thereby realizing the position verification.

7. The intelligent air-conditioning temperature control system based on the computing power of the mobile client side as claimed in claim 1, wherein the mobile terminal compares the temperature of each position point in the room by using a bubbling method to determine the position point with the highest temperature in the room.

8. The intelligent air-conditioning temperature control system based on the computing power of the mobile client side as claimed in claim 1, wherein the temperature sensor is wirelessly connected with the air-conditioning host.

9. The intelligent air-conditioning temperature control system based on the computing power of the mobile client side as claimed in claim 1, wherein the air-conditioning host computer and the mobile terminal are connected in a bluetooth mode.

10. An air conditioner intelligent temperature control method based on computing power of a mobile client is characterized by comprising the following steps:

acquiring temperature information of the top surface and the side surface of a room;

storing the acquired temperature information;

constructing a 3D temperature field distribution diagram of the room according to the temperature information of each surface in the room;

carrying out temperature assignment on each position point in the room according to the 3D temperature field distribution diagram;

determining a position point with the highest temperature in the room according to the temperature of each position point in the room;

determining an air conditioner control strategy according to the temperature of the position point with the highest temperature, and sending the control strategy to an air conditioner host;

and the air conditioner host machine regulates and controls the temperature of the position point with the highest temperature according to an air conditioner control strategy.

Images