CN111928437A

CN111928437A - Remote intelligent control system for air conditioner

Info

Publication number: CN111928437A
Application number: CN202010794843.9A
Authority: CN
Inventors: 黄西昌
Original assignee: Guangzhou Xinwa Technology Co ltd
Current assignee: Guangzhou Xinwa Technology Co ltd
Priority date: 2020-08-10
Filing date: 2020-08-10
Publication date: 2020-11-13

Abstract

The invention discloses a remote intelligent control system of an air conditioner, and particularly relates to the field of air conditioner control systems. The air conditioner is provided with the mobile control terminal and the infrared remote controller, various electronic products send instructions to the central processing system module to adjust the air conditioner, the infrared remote controller can directly send infrared instructions to the infrared detection device, the infrared detection device sends instructions to the infrared receiver, and the infrared receiver sends instructions to the central processing system module to adjust the air conditioner, so that the control range is wider.

Description

Remote intelligent control system for air conditioner

Technical Field

The invention relates to the technical field of remote intelligent control systems, in particular to an air conditioner remote intelligent control system.

Background

An air conditioner, i.e., an air conditioner, is a device for manually adjusting and controlling parameters such as temperature, humidity, and flow rate of ambient air in a building or structure, and generally includes many parts such as a cold source/heat source device, a cold and hot medium distribution system, and a terminal device, and other auxiliary devices. The system mainly comprises a refrigeration host, a water pump, a fan and a pipeline system. The end device is responsible for utilizing the cold and heat from the transmission and distribution, the air state is specifically processed, the air parameter of the target environment reaches certain requirement, and the air conditioner remote intelligent control system is a system capable of executing remote control on the air conditioner, through the system, the remote control of the air conditioner by the PC can be realized, the air conditioner is not required to be directly operated through the air conditioner control panel, the operation is convenient, no additional power supply is required, the air conditioner is directly supplied by the communication interface of the air conditioner, the connecting wires are few, and the installation is convenient. The remote controller of the partial air conditioner also has the functions of timing switching and fault switching of the machine, ensures that the air conditioner with balanced operation of the machine is intelligently controlled, is used for achieving the effect of using by different people and achieving comfortable temperature.

However, in practical use, because the air conditioners are used by a large number of people, the indoor temperature is relatively high, and the air conditioners in malls, supermarkets and train and motor cars are troublesome to control or adjust, and an intelligent control system is not available.

Disclosure of Invention

In order to overcome the above-mentioned defects in the prior art, embodiments of the present invention provide a remote intelligent control system for an air conditioner, where a mobile control terminal and an infrared remote controller are used, the mobile control terminal can be applied to various electronic products, and sends control commands to a central processing system module through various electronic products in the market to intelligently adjust the air conditioner, and the infrared remote controller can directly send infrared commands to an infrared detection device, the infrared detection device detects and sends commands to an infrared receiver, and the infrared receiver sends commands to the central processing system module, and the air conditioner is intelligently adjusted in the later period, so as to solve the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a long-range intelligent control system of air conditioner, includes central processing system module, central processing system module output is connected with mobile control terminal, wireless connection module, temperature-sensing module, power module, display module and control module respectively, infrared remote controller is connected to the mobile control terminal output, infrared detection device is connected to the infrared remote controller output, infrared receiver is connected to the infrared detection device output, the air conditioner is connected to the control module output.

In a preferred embodiment, the mobile control terminal specifically further includes a mobile phone, a computer, a tablet, and an electronic product.

In a preferred embodiment, the display module further includes a liquid crystal display and a display screen.

In a preferred embodiment, the control module further comprises an indoor temperature sensing device and an outdoor temperature sensing device.

In a preferred embodiment, the mobile control terminal and the central processing system module are input and output.

In a preferred embodiment, the indoor temperature sensing device and the outdoor sensing device are used to detect indoor and outdoor temperatures.

In a preferred embodiment, the infrared receiver is used for receiving infrared emitted by the mobile control terminal.

In a preferred embodiment, the remote intelligent control system for the air conditioner further comprises a humidity sensing module and a humidity adjusting module; wherein,

the humidity sensing module is used for detecting indoor humidity information and sending the humidity information to the humidity adjusting module;

the humidity adjusting module is connected with the humidity sensing module and used for:

receiving humidity information sent by the humidity sensing module, and judging whether the humidity information is greater than a preset humidity threshold value; when the humidity information is determined to be larger than a preset humidity threshold value, carrying out dehumidification operation on the air in the air conditioner; and when the humidity information is determined to be less than or equal to a preset humidity threshold value, carrying out atomization and humidification operation on the air in the air conditioner.

In a preferred embodiment, the air conditioner comprises an air inlet, a first air quality detection module, an air purification treatment module, a second air quality detection module and an air outlet; wherein,

the air inlet is used for sucking outdoor air into the air conditioner;

the first air quality detection module is used for detecting air passing through the air inlet to obtain first dust concentration information and first bacteria concentration information;

the air purification treatment module is used for purifying the air passing through the air inlet;

the air purification treatment module includes: the device comprises a dust removal unit, an ultraviolet sterilization unit and a deodorization unit;

the dust removal unit is used for performing dust removal treatment on the air passing through the air inlet;

the ultraviolet sterilization unit is connected with the dust removal unit and is used for performing ultraviolet sterilization treatment on the air subjected to dust removal treatment by the dust removal unit;

the deodorization unit is connected with the ultraviolet sterilization unit and is used for deodorizing the air subjected to ultraviolet sterilization by the external sterilization unit;

the second air quality detection module is used for detecting the air purified by the air purification treatment module to obtain second dust concentration information and second bacteria concentration information;

the control module is respectively connected with the first air quality detection module, the second air quality detection module and the display module, and is used for:

receiving first dust concentration information and first bacteria concentration information sent by the first air quality detection module; receiving second dust concentration information and second bacteria concentration information sent by the second air quality detection module; controlling the display module to display the first dust concentration information, the first bacteria concentration information, the second dust concentration information and the second bacteria concentration information;

judging whether the second dust concentration information is greater than a preset dust concentration threshold value or not, and controlling an alarm module to send out a first alarm prompt when the second dust concentration information is determined to be greater than the preset dust concentration threshold value;

judging whether the second bacteria concentration information is greater than a preset bacteria concentration threshold value or not, and controlling the alarm module to send out a second alarm prompt when the second bacteria concentration information is determined to be greater than the preset bacteria concentration threshold value;

and the air outlet is used for discharging the air purified by the air purification treatment module into the room.

In a preferred embodiment, the control module is configured to calculate a dust removal efficiency of the dust removal unit, determine whether the dust removal efficiency is smaller than a preset dust removal efficiency, and control the alarm module to send a third alarm prompt when it is determined that the dust removal efficiency is smaller than the preset dust removal efficiency;

the dust removal unit comprises a corona level and a dust collection level, and a dust driving electric field is formed by the corona level and the dust collection level;

the step of calculating the dust removal efficiency includes:

calculating the moving speed V of the dust contained in the air sucked through the air inlet in the dust removing electric field, as shown in formula 1:

wherein q is the charge quantity carried by dust particles in the air sucked through the air inlet; e is the electric field intensity of the dust-removing electric field; k is the viscosity coefficient of the air sucked through the air inlet; r is the average particle size of the dust particles;

according to the moving speed V of dust contained in the air sucked through the air inlet in the dust removing electric field₁Calculating the dust removal efficiency eta as shown in the formula (2):

wherein p is the diffusion coefficient of dust particles in the dust-removing electric field; v₂The flow speed of air sucked by the air inlet in the air conditioner is controlled; and L is the length of a dust collection level in the dust removal unit.

The invention has the technical effects and advantages that:

1. the mobile control terminal is applied to various electronic products by arranging the mobile control terminal and the infrared remote controller, the air conditioner is intelligently adjusted by sending instructions to the central processing system module through various electronic products, the infrared remote controller can directly send infrared instructions to the infrared detection device, the infrared detection device detects and sends the instructions to the infrared receiver, the infrared receiver sends the instructions to the central processing system module, and the air conditioner is intelligently adjusted in the later period;

2. through setting up control module, indoor temperature sensing device and outdoor temperature sensing device among the control module carry out intelligent processing on next step to the temperature of air conditioner according to the indoor outer temperature condition, can increase the temperature according to central processing system module when indoor outer temperature is cold, and indoor outer temperature is when hot, adjusts the temperature through central processing system module and reduces, compares with prior art, can accomplish more intelligent effect, need not adjust the air conditioner temperature through the manual work.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic structural diagram of the mobile control terminal in fig. 1 according to the present invention;

FIG. 3 is a schematic structural diagram of the display module of FIG. 1 according to the present invention;

FIG. 4 is a schematic diagram of the control module of FIG. 1 according to the present invention;

fig. 5 is a block diagram of an air conditioner remote intelligent control system according to an embodiment of the present invention;

fig. 6 is a block diagram of an air conditioner remote intelligent control system according to still another embodiment of the present invention;

fig. 7 is a block diagram of an air conditioner remote intelligent control system according to still another embodiment of the present invention.

The reference signs are: 1. a central processing system module; 2. a mobile control terminal; 3. a wireless connection module; 4. a temperature sensing module; 5. a power supply module; 6. a display module; 7. a control module; 8. an infrared remote controller; 9. an infrared detection device; 10. an infrared receiver; 11. an air conditioner; 12. a mobile phone; 13. a computer; 14. a flat plate; 15. a humidity sensing module; 16. a humidity adjustment module; 17. a display screen; 18. an indoor temperature sensing device; 19. an outdoor temperature sensing device; 20. an air inlet; 21. a first air quality detection module; 22. an air purification treatment module; 23. a second air quality detection module; 24. an air outlet; 25. a dust removal unit; 26. an ultraviolet sterilization unit; 27. a deodorizing unit; 28. and an alarm module.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The remote intelligent control system for the air conditioner comprises a central processing system module 1, wherein the output end of the central processing system module 1 is respectively connected with a mobile control terminal 2, a wireless connection module 3, a temperature sensing module 4, a power supply module 5, a display module 6 and a control module 7, the output end of the mobile control terminal 2 is connected with an infrared remote controller 8, the output end of the infrared remote controller 8 is connected with an infrared detection device 9, the output end of the infrared detection device 9 is connected with an infrared receiver 10, and the output end of the control module 7 is connected with an air conditioner 11.

Further, the mobile control terminal 2 specifically includes a mobile phone 12, a computer 13, and a tablet 14, so that the air conditioner 11 can be remotely controlled for various electronic products, and the mobile control terminal is convenient to use and is more widely applied.

Further, the display module 6 further includes a display screen 17, so that the current temperature of the air conditioner 11 can be displayed through the display module 6, and the ideal temperature can be adjusted conveniently.

Further, the control module 7 specifically includes an indoor temperature sensing device 18 and an outdoor temperature sensing device 19, so that the current temperature of the air conditioner 11 can be intelligently adjusted according to the indoor and outdoor temperature conditions in order to make the air conditioner 11 have a wider application range.

Further, the mobile control terminal 2 and the central processing system module 1 are input and output, so that the central processing system module 1 controls the mobile control terminal 2 and processes signals sent by the mobile control terminal 2.

Further, the indoor temperature sensing device 18 and the outdoor temperature sensing device 19 are used to detect the indoor and outdoor temperatures, and the indoor temperature sensing device 18 and the outdoor temperature sensing device 19 are provided to facilitate different adjustments of the air conditioner 11 according to different environments at present.

Further, the infrared receiver 10 is configured to receive infrared rays emitted by the mobile control terminal 2, and when the mobile control terminal 2 emits infrared rays, the infrared receiver 10 is configured to receive signals and process the signals through the central processing system module 1.

The working principle of the invention is as follows: when the weather is hot in summer, the air conditioner 11 can be turned on, and then the central processing system module 1 is instructed by the mobile control terminal 2, or the air conditioner 11 can be instructed by the infrared remote controller 8 through the infrared detection device 9 and the infrared receiver 10, so that the mobile control terminals 2 of different types can be controlled, after the infrared remote controller 8 is instructed, the infrared detection device 9 can be used for receiving the infrared rays sent by the infrared remote controller 8, after the sent infrared rays are detected, the infrared detection device 9 sends an instruction to the infrared receiver 10, after the infrared receiver 10 receives the instruction sent by the infrared detection device 9, the infrared receiver 10 sends an infrared instruction to the central processing system module 1, and the central processing system module 1 carries out instruction processing on the instruction sent by the mobile control terminal 2 or the infrared remote controller 8, after the central processing system module 1 finishes processing the instructions sent by each device, the central processing system module 1 sends each instruction to the wireless connection module 3, the temperature sensing module 4, the power supply module 5, the display module 6 and the control module 7 respectively, after each instruction is sent out, the wireless connection module 3 is used for connecting the mobile control terminal 2 and the infrared remote controller 8 to the central processing system module 1, the temperature sensing module 4 senses the current temperature and intelligently adjusts the ideal temperature according to the temperature, the power supply module 5 can be used for controlling the on-off of the air conditioner 11 or protecting the air conditioner in case of thunderstorm weather, the display module 6 can be used for displaying the current display temperature of the air conditioner 11 and the mobile control terminal 2 and adjusting the current display temperature in the later period, and the indoor temperature sensing device 18 in the control module 7 carry out the next processing on the temperature of the air conditioner 11 according to the indoor and outdoor temperature conditions, the effect of more intellectualization can be achieved without manually adjusting the temperature of the air conditioner 11.

As shown in fig. 5, the present invention provides a technical solution, wherein the remote intelligent control system for an air conditioner further comprises a humidity sensing module 15 and a humidity adjusting module 16; wherein,

the humidity sensing module 15 is configured to detect indoor humidity information and send the humidity information to the humidity adjusting module 16;

the humidity adjusting module 16 is connected to the humidity sensing module 15, and is configured to:

receiving humidity information sent by the humidity sensing module 15, and judging whether the humidity information is greater than a preset humidity threshold value; when the humidity information is determined to be larger than a preset humidity threshold value, carrying out dehumidification operation on the air in the air conditioner; and when the humidity information is determined to be less than or equal to a preset humidity threshold value, carrying out atomization and humidification operation on the air in the air conditioner.

The working principle of the scheme is as follows: the humidity sensing module 15 is configured to detect indoor humidity information, and the humidity adjusting module 16 is configured to receive the humidity information sent by the humidity sensing module 15 and determine whether the humidity information is greater than a preset humidity threshold; when the humidity information is determined to be larger than a preset humidity threshold value, carrying out dehumidification operation on the air in the air conditioner; and when the humidity information is determined to be less than or equal to a preset humidity threshold value, carrying out atomization and humidification operation on the air in the air conditioner.

The beneficial effect of above-mentioned scheme: humidity response module can be automatically to indoor carrying out the humidity response, if the air is too dry, atomizing humidification module then can carry out humidification processing to the air through atomizing mode, if the air is too moist, the dehumidification module then can carry out the dehumidification processing to the air, avoids air humidity to influence user's health problem.

As shown in fig. 6, the present invention provides a technical solution, and in the remote intelligent control system for an air conditioner, the air conditioner 11 includes an air inlet 20, a first air quality detection module 21, an air purification processing module 22, a second air quality detection module 23, and an air outlet 24; wherein,

the air inlet 20 is used for sucking outdoor air into the air conditioner 11;

the first air quality detection module 21 is configured to detect air passing through the air inlet 20 to obtain first dust concentration information and first bacteria concentration information;

the air purification treatment module 22 is used for purifying the air passing through the air inlet 20;

the air purification treatment module 22 includes: a dust removing unit 25, an ultraviolet sterilizing unit 26, and a deodorizing unit 27;

the dust removal unit 25 is used for performing dust removal treatment on the air passing through the air inlet 20;

the ultraviolet sterilization unit 26 is connected with the dust removal unit 25 and is used for performing ultraviolet sterilization treatment on the air subjected to dust removal treatment by the dust removal unit 25;

the deodorization unit 27 is connected to the ultraviolet sterilization unit 26, and is configured to perform deodorization on the air subjected to ultraviolet sterilization by the external sterilization unit 26;

the second air quality detection module 23 is configured to detect the air purified by the air purification processing module 22 to obtain second dust concentration information and second bacteria concentration information;

the control module 7 is respectively connected 6 with the first air quality detection module 21, the second air quality detection module 23 and the display module, and is configured to:

receiving first dust concentration information and first bacteria concentration information sent by the first air quality detection module 21; receiving second dust concentration information and second bacteria concentration information sent by the second air quality detection module 23; controlling the display module 6 to display the first dust concentration information, the first bacteria concentration information, the second dust concentration information and the second bacteria concentration information;

judging whether the second dust concentration information is greater than a preset dust concentration threshold value, and controlling an alarm module 28 to send out a first alarm prompt when the second dust concentration information is determined to be greater than the preset dust concentration threshold value;

judging whether the second bacteria concentration information is greater than a preset bacteria concentration threshold value, and controlling the alarm module 28 to send out a second alarm prompt when the second bacteria concentration information is determined to be greater than the preset bacteria concentration threshold value;

and the air outlet 24 is used for discharging the air purified by the air purification treatment module 22 to the indoor.

The working principle of the scheme is as follows: when the air conditioner is in a working state, the air inlet 20 is used for sucking outdoor air into the air conditioner 11, and the first air quality detection module 21 is used for detecting the air passing through the air inlet 20 to obtain first dust concentration information and first bacteria concentration information; an air purification treatment module 22 for purifying the air passing through the air inlet 20; a dust removing unit 25 for performing dust removal processing on the air passing through the air inlet 20; the ultraviolet sterilization unit is used for performing ultraviolet sterilization treatment on the air subjected to the dust removal treatment by the dust removal unit 25; a deodorization unit 27 for performing deodorization processing on the air subjected to the ultraviolet sterilization processing by the external sterilization unit 26; the second air quality detection module 23 is configured to detect the air purified by the air purification processing module 22, and obtain second dust concentration information and second bacteria concentration information; the control module 7 is configured to receive first dust concentration information and first bacteria concentration information sent by the first air quality detection module 21; receiving second dust concentration information and second bacteria concentration information sent by the second air quality detection module 23; the display module 6 displays the first dust concentration information, the first bacteria concentration information, the second dust concentration information and the second bacteria concentration information; the control module 7 is further configured to determine whether the second dust concentration information is greater than a preset dust concentration threshold, and control the alarm module 28 to send a first alarm prompt when it is determined that the second dust concentration information is greater than the preset dust concentration threshold; judging whether the second bacteria concentration information is greater than a preset bacteria concentration threshold value, and controlling the alarm module 28 to send out a second alarm prompt when the second bacteria concentration information is determined to be greater than the preset bacteria concentration threshold value; and the air outlet 24 is used for discharging the air purified by the air purification treatment module 22 to the indoor.

The beneficial effect of above-mentioned scheme: when a user uses the air conditioner, the air purification processing module 22 can remove dust, deodorize and sterilize the air passing through the air inlet 20, so that the situation that dust brought by outdoor air is harmful to human bodies and is difficult to clean is avoided, and the situation that the outdoor air carries bacteria and viruses to influence human health is avoided; meanwhile, the second air quality detection module 23 can perform a second detection on the air purified by the air purification processing module 22, so as to ensure the comfort and safety of the air entering the room; meanwhile, when the second dust concentration information is larger than a preset dust concentration threshold value, the dust removal unit is indicated to have a problem, and the alarm module sends out a first alarm prompt, so that a user can know the first time, maintain as soon as possible and reduce loss; when the second bacterium concentration information is larger than the preset bacterium concentration threshold value, the ultraviolet sterilization unit is indicated to have a problem, and the alarm module sends out a second alarm prompt, so that a user can know the problem at the first time, maintain the ultraviolet sterilization unit as soon as possible, reduce loss and guarantee the health of the user.

As shown in fig. 7, in the remote intelligent control system for an air conditioner, the control module 7 is configured to calculate the dust removal efficiency of the dust removal unit 25, determine whether the dust removal efficiency is lower than a preset dust removal efficiency, and control the alarm module 28 to send a third alarm prompt when it is determined that the dust removal efficiency is lower than the preset dust removal efficiency;

the dust removal unit 25 comprises a corona level and a dust collection level, and the corona level and the dust collection level form a dust driving electric field;

the step of calculating the dust removal efficiency includes:

calculating a moving speed V of the dust contained in the air sucked through the air inlet 20 in the dust-removing electric field, as shown in formula 1:

wherein q is the charge amount of the dust particles in the air sucked through the air inlet 20; e is the electric field intensity of the dust-removing electric field; k is the viscosity coefficient of the air sucked through the air inlet 20; r is the average particle size of the dust particles;

according to the moving speed V of the dust in the dust removing electric field in the air sucked through the air inlet 20₁Calculating the dust removal efficiency eta as shown in the formula (2):

wherein p is the diffusion coefficient of dust particles in the dust-removing electric field; v₂The flow speed of the air sucked by the air inlet 20 in the air conditioner 11; and L is the length of the dust collection stage in the dust removal unit 25.

The working principle of the scheme is as follows: dust removal unit 25 includes electrostatic precipitator, in order to guarantee dust removal unit 25's dust collection efficiency, control module 7 is used for calculating dust removal unit 25's dust collection efficiency and judgement whether dust removal efficiency is less than preset dust removal efficiency, is confirming when dust removal efficiency is less than preset dust removal efficiency, control alarm module 28 sends the third warning suggestion, wherein, the driving dust electric field is the gravitational field that forms between corona level (positive level) and the level (negative pole) of gathering dust among the electrostatic precipitator.

The beneficial effect of above-mentioned scheme: when the dust removal efficiency of the dust removal unit 25 is calculated, the diffusion coefficient of dust particles in a dust removing electric field and the air sucked by the air inlet 20 are considered, the flowing speed in the air conditioner 11, the length of a dust collection plate in the dust removal unit 25 and other factors make the calculated dust removal efficiency more accurate, the accuracy of the dust removal efficiency of the dust removal unit 25 and the size of the preset dust removal efficiency is improved, when the dust removal efficiency of the dust removal unit 25 is smaller than the preset dust removal efficiency, the alarm module 28 sends a third alarm prompt to remind a worker of timely checking whether the electrostatic dust collector has a fault, when the electrostatic dust collector has a fault, the electrostatic dust collector is timely maintained, loss is reduced, and the dust removal efficiency is guaranteed.

The points to be finally explained are: first, in the description of the present application, it should be noted that, unless otherwise specified and limited, the terms "mounted," "connected," and "connected" should be understood broadly, and may be a mechanical connection or an electrical connection, or a communication between two elements, and may be a direct connection, and "upper," "lower," "left," and "right" are only used to indicate a relative positional relationship, and when the absolute position of the object to be described is changed, the relative positional relationship may be changed;

secondly, the method comprises the following steps: in the drawings of the disclosed embodiments of the invention, only the structures related to the disclosed embodiments are referred to, other structures can refer to common designs, and the same embodiment and different embodiments of the invention can be combined with each other without conflict;

and finally: the above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that are within the spirit and principle of the present invention are intended to be included in the scope of the present invention.

Claims

1. The utility model provides a remote intelligent control system of air conditioner, includes central processing system module (1), its characterized in that: the intelligent temperature control system is characterized in that the output end of the central processing system module (1) is respectively connected with a mobile control terminal (2), a wireless connection module (3), a temperature sensing module (4), a power module (5), a display module (6) and a control module (7), an infrared remote controller (8) is connected with the output end of the mobile control terminal (2), an infrared detection device (9) is connected with the output end of the infrared remote controller (8), an infrared receiver (10) is connected with the output end of the infrared detection device (9), and an air conditioner (11) is connected with the output end of the control module (7).

2. The remote intelligent control system of the air conditioner as claimed in claim 1, wherein: the mobile control terminal (2) comprises at least one of a mobile phone (12), a computer (13) and a tablet (14).

3. The remote intelligent control system of the air conditioner as claimed in claim 1, wherein: the display module (6) comprises a display screen (17).

4. The remote intelligent control system of the air conditioner as claimed in claim 1, wherein: the mobile control terminal (2) and the central processing system module (1) are used for inputting and outputting, and the central processing system module (1) is used for controlling the mobile control terminal (2) and processing signals sent by the mobile control terminal (2).

5. The remote intelligent control system of the air conditioner as claimed in claim 1, wherein: also comprises an indoor temperature sensing device (18) and an outdoor temperature sensing device (19); the indoor temperature sensing device (18) and the outdoor temperature sensing device (19) are used for detecting indoor and outdoor temperatures, and the indoor temperature sensing device (18) and the outdoor temperature sensing device (19) are arranged to adjust the air conditioner (11) differently according to different environments at present.

6. The remote intelligent control system of the air conditioner as claimed in claim 1, wherein: the device also comprises a humidity sensing module (15) and a humidity adjusting module (16); wherein,

the humidity sensing module (15) is used for detecting indoor humidity information and sending the humidity information to the humidity adjusting module (16);

the humidity adjusting module (16) is connected with the humidity sensing module (15) and used for:

receiving humidity information sent by the humidity sensing module (15), and judging whether the humidity information is greater than a preset humidity threshold value; when the humidity information is determined to be larger than a preset humidity threshold value, carrying out dehumidification operation on the air in the air conditioner; and when the humidity information is determined to be less than or equal to the preset humidity threshold value, carrying out atomization and humidification operation on the air in the air conditioner 11.

7. The remote intelligent control system of the air conditioner as claimed in claim 1, wherein: the air conditioner comprises an air inlet (20), a first air quality detection module (21), an air purification treatment module (22), a second air quality detection module (23) and an air outlet (24); wherein,

the air inlet (20) is used for sucking outdoor air into the air conditioner (11);

the first air quality detection module (21) is used for detecting air passing through the air inlet (20) to obtain first dust concentration information and first bacteria concentration information;

the air purification treatment module (22) is used for purifying the air passing through the air inlet (20);

the air purification treatment module (22) comprises: a dust removal unit (25), an ultraviolet sterilization unit (26), and a deodorization unit (27);

the dust removal unit (25) is used for performing dust removal treatment on the air passing through the air inlet (20);

the ultraviolet sterilization unit (26) is connected with the dust removal unit (25) and is used for performing ultraviolet sterilization treatment on the air subjected to dust removal treatment by the dust removal unit (25);

the deodorization unit (27) is connected with the ultraviolet sterilization unit (26) and is used for deodorizing the air subjected to the ultraviolet sterilization treatment of the external sterilization unit (26);

the second air quality detection module (23) is used for detecting the air purified by the air purification treatment module (22) to obtain second dust concentration information and second bacteria concentration information;

the control module (7) is respectively connected with the first air quality detection module (21), the second air quality detection module (23) and the display module (6) and is used for:

receiving first dust concentration information and first bacteria concentration information sent by the first air quality detection module (21); receiving second dust concentration information and second bacteria concentration information sent by the second air quality detection module (23); controlling the display module (6) to display the first dust concentration information, the first bacteria concentration information, the second dust concentration information and the second bacteria concentration information;

judging whether the second dust concentration information is greater than a preset dust concentration threshold value or not, and controlling an alarm module (28) to send out a first alarm prompt when the second dust concentration information is determined to be greater than the preset dust concentration threshold value;

judging whether the second bacteria concentration information is greater than a preset bacteria concentration threshold value or not, and controlling the alarm module (28) to send out a second alarm prompt when the second bacteria concentration information is determined to be greater than the preset bacteria concentration threshold value;

and the air outlet (24) is used for discharging the air purified by the air purification treatment module (22) to the indoor.

8. The remote intelligent control system of the air conditioner as claimed in claim 7, wherein:

the control module (7) is used for calculating the dust removal efficiency of the dust removal unit (25), judging whether the dust removal efficiency is smaller than the preset dust removal efficiency or not, and controlling the alarm module (28) to send out a third alarm prompt when the dust removal efficiency is determined to be smaller than the preset dust removal efficiency;

the dust removal unit (25) comprises a corona level and a dust collection level, and a dust driving electric field is formed by the corona level and the dust collection level;

the step of calculating the dust removal efficiency includes:

calculating the moving speed V of the dust contained in the air sucked through the air inlet (20) in the dust removing electric field, as shown in formula 1:

wherein q is the charge quantity carried by dust particles in the air sucked through the air inlet (20); e is the electric field intensity of the dust-removing electric field; k is the viscosity coefficient of the air sucked through the air inlet (20); r is the average particle size of the dust particles;

according to the moving speed V of dust contained in the air sucked through the air inlet (20) in the dust removing electric field₁Calculating the dust removal efficiency eta as shown in the formula (2):

wherein p is dust particleThe diffusion coefficient of particles in the dust-removing electric field; v₂The flow speed of air sucked by an air inlet (20) in the air conditioner (11); and L is the length of a dust collection grade in the dust removal unit (25).