CN110631127A

CN110631127A - Split type air processor, control method and device

Info

Publication number: CN110631127A
Application number: CN201810542116.6A
Authority: CN
Inventors: 林枫; 孔祥华; 袁新宏
Original assignee: Yifeng Beijing Environmental Technology Co Ltd
Current assignee: Yifeng Beijing Environmental Technology Co Ltd
Priority date: 2018-05-30
Filing date: 2018-05-30
Publication date: 2019-12-31

Abstract

The application discloses a split air processor, a control method and a device, wherein the device comprises an environment monitor; the outdoor unit is connected with the environment monitor and comprises an outdoor unit shell, a control circuit board and a blower connected with the control circuit board are arranged inside the outdoor unit shell, and the control circuit board is connected with the environment monitor; an indoor unit connected to the outdoor unit; the indoor unit comprises an indoor unit shell, wherein a multi-stage filter screen is arranged in the indoor unit shell; and the signal output end of the environment monitor is connected with the signal receiving end of the control circuit board and used for controlling the outdoor unit to start air supply and sending the air into the indoor unit. Therefore, the operation is convenient, and moreover, the intelligent degree is high.

Description

Split type air processor, control method and device

Technical Field

The present application relates to the field of air treatment devices, and more particularly, to a split air treatment device, a control method and an apparatus.

Background

The air processor, also called air conditioning box, can be understood as an ultra-large indoor unit, has large refrigerating capacity and air volume, and is suitable for various places, such as: family, market, etc. The air pipes are connected to all areas, and most of the air handlers are combined, namely, some fresh air modules can be added.

In the using process, the door needs to be opened or closed manually, and the operation is not convenient enough.

Disclosure of Invention

1) The technical problem to be solved is as follows:

the invention aims to provide a split type air processor, a control method and a device, which solve the problem of inconvenient operation.

2) The technical scheme is as follows:

in order to solve the above technical problem, the present application provides a control method applied to a split type air handler, including the following steps:

receiving indoor real-time data: receiving indoor real-time data from an environmental monitor;

pre-storing a temperature difference threshold value: pre-storing a temperature difference threshold value between outdoor environment data and the indoor real-time data in a server;

and starting a ventilation mode: when the temperature difference value between the outdoor environment data and the indoor real-time data is within the temperature difference threshold range, the server controls the split type air processor to start a ventilation mode;

and starting an air conditioner mode: and when the temperature difference value between the outdoor environment data and the indoor real-time data is larger than the temperature difference threshold range, the server controls the split type air processor to start an air conditioning mode.

The application discloses a control method, through receiving the indoor real-time data that comes from the environmental monitor, prestore outdoor environment data in the server with the difference in temperature threshold value between the indoor real-time data works as outdoor environment data with the difference in temperature of indoor real-time data is in under the condition in the difference in temperature threshold value scope, server control split type air handler opens the ventilation mode, works as outdoor environment data with the difference in temperature of indoor real-time data is greater than under the condition of difference in temperature threshold value scope, server control split type air handler opens the air conditioner mode. Therefore, the operation is convenient, and moreover, the intelligent degree is high.

Optionally, in the above control method, before the step of receiving indoor real-time data, the method further includes a step of: the environment monitor is connected with the server through WIFI signals.

Optionally, in the above control method, before the step of prestoring the temperature difference threshold, the method further includes an outdoor environment data acquisition step of the server: and acquiring the outdoor environment data of the address according to the address of the indoor real-time data uploaded by the environment monitor.

Optionally, in the above control method, after the step of prestoring the temperature difference threshold, the method further includes a step of prestoring an air quality difference threshold: and pre-storing an air quality difference threshold value between the outdoor environment data of the server and the indoor real-time data.

In another aspect of the present application, there is provided a control device applied to a split type air handler, including:

a receive indoor real-time data module configured to receive indoor real-time data from an environmental monitor;

the pre-storage temperature difference threshold module is configured to pre-store a temperature difference threshold between outdoor environment data and the indoor real-time data in the server;

a start ventilation mode module configured to control the split air handler to start a ventilation mode if the temperature difference between the outdoor environmental data and the indoor real-time data is within the temperature difference threshold range;

and the air conditioning mode starting module is configured to control the split type air processor to start an air conditioning mode when the temperature difference value between the outdoor environment data and the indoor real-time data is larger than the temperature difference threshold range.

According to the control device, indoor real-time data from an environment monitor are received, a temperature difference threshold value between outdoor environment data and the indoor real-time data is prestored in the server, and the server controls the split air processor to start a ventilation mode under the condition that the temperature difference value between the outdoor environment data and the indoor real-time data is within the temperature difference threshold value range; and when the temperature difference value between the outdoor environment data and the indoor real-time data is larger than the temperature difference threshold range, the server controls the split type air processor to start an air conditioning mode. Therefore, the operation is convenient, and moreover, the intelligent degree is high.

Optionally, in the above control apparatus, the indoor real-time data receiving module is connected to: and the connection module is configured to connect the environmental monitor with the server through a WIFI signal.

Optionally, in the above control apparatus, the pre-stored temperature difference threshold module is connected to: and the outdoor environment data acquisition module of the server is configured to acquire the outdoor environment data of the address according to the address of the indoor real-time data uploaded by the environment monitor.

Optionally, in the above control apparatus, the pre-stored temperature difference threshold module is connected to: and the pre-storage air quality difference threshold module is configured to pre-store an air quality difference threshold between the outdoor environment data and the indoor real-time data of the server.

In another aspect of the present application, there is also provided a split type air handler, including: an environmental monitor; the outdoor unit is connected with the environment monitor and comprises an outdoor unit shell, a control circuit board and a blower connected with the control circuit board are arranged inside the outdoor unit shell, and the control circuit board is connected with the environment monitor; an indoor unit connected to the outdoor unit; the indoor unit comprises an indoor unit shell, wherein a multi-stage filter screen is arranged in the indoor unit shell; and the signal output end of the environment monitor is connected with the signal receiving end of the control circuit board and used for controlling the outdoor unit to start air supply and sending the air into the indoor unit.

The split type air processor is connected with the outdoor unit through the environment monitoring instrument, the outdoor unit is connected with the indoor unit, the environment monitoring instrument controls the outdoor unit to be automatically started and closed, and the indoor unit discharges the wind generated by the outdoor unit into the room.

Optionally, in the split type air handler described above, a condenser, a compressor and a condensation heat dissipation system are further installed inside the outdoor unit casing, wherein the condenser, the compressor and the condensation heat dissipation system are respectively connected to the control circuit board, and the compressor is connected to the condensation heat dissipation system.

Optionally, in the data transmission device described above, an air supply opening is provided on the first surface of the outdoor unit casing, and one end of the air supply opening is connected to the air supply blower and the other end is connected to the indoor unit.

Optionally, in the data transmission device, a fresh air inlet is provided on the second surface of the outdoor unit housing, and a power connection port is provided on one side of the control circuit board and extends to the outside of the outdoor unit housing.

Optionally, in the data transmission device, a third surface of the outdoor unit casing is provided with a return air inlet penetrating through the outdoor unit casing.

Optionally, in the data transmission device, an auxiliary heating device is further installed inside the casing of the indoor unit, so that the cool air fed by the blower is heated to form hot air.

Optionally, in the data transmission device, the indoor unit housing has an air inlet and a plurality of air outlets, and the air inlet is communicated with the air supply outlet.

Optionally, in the data transmission device, a cover opening power-off protection device and an air outlet environment monitor are further installed inside the casing of the indoor unit.

Optionally, in the data transmission device, a filter screen replacing cover plate is mounted on the front surface of the indoor unit housing.

Optionally, in the data transmission device, the front surface of the indoor unit housing is arc-shaped.

Optionally, in the data transmission device, the indoor unit and the outdoor unit are connected by a plastic pipe.

In another aspect of the present application, there is also provided a pre-stored device comprising a memory, a processor and a pre-stored machine program stored in the memory and executable by the processor, wherein the processor implements one of the above-mentioned methods when executing the pre-stored machine program.

In another aspect of the present application, there is also provided a pre-stored machine-readable storage medium, preferably a non-volatile readable storage medium, having stored therein a pre-stored machine program which, when executed by a processor, implements one of the above-described methods.

In another aspect of the present application, there is also provided a pre-stored machine program product comprising pre-stored machine readable code which, when executed by a pre-stored machine apparatus, causes the pre-stored machine apparatus to perform a method implementing one of the above.

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

Drawings

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

FIG. 1 is a flow chart of one embodiment of a control method applied to a split functional air handler according to the present application;

FIG. 2 is a block flow diagram of one embodiment of a control apparatus for a split functional air handler according to the present application;

FIG. 3 is a flow chart of one embodiment of a voice control method applied to a split functional air handler in accordance with the present application;

FIG. 4 is a schematic block diagram of one embodiment of a split functional air handler according to the present application;

FIG. 5 is a schematic view of an outdoor unit of a split type air handler according to the present application;

FIG. 6 is a schematic structural view of an indoor unit of a split functional air handler according to the present application;

FIG. 7 is a front view of an indoor unit of a split type air handler according to the present application;

FIG. 8 is a rear view structural view of an indoor unit of a split type air handler according to the present application;

FIG. 9 is a block diagram of a pre-stored machine-readable storage medium according to an embodiment of the present application;

fig. 10 is a partially enlarged view of a memory unit of the pre-stored machine-readable storage medium of fig. 9.

Detailed Description

The present application will now be described in further detail by way of specific examples with reference to the accompanying drawings. The following examples are intended to illustrate the present application but are not intended to limit the scope of the present application.

Throughout the description of the present application, it is to be noted that, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, as if they were fixed or removable or integrally connected, for example; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. There may be communication between the interiors of the two elements. "first", "second", "third" and "fourth" do not denote any sequence relationship, but are merely used for convenience of description. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

Because the problem that the operation of present air treatment ware is convenient enough, this application provides control method.

According to one aspect of the present application, a control method is provided. FIG. 1 is a flow chart of one embodiment of a control method applied to a split functional air handler according to the present application. The method comprises the following steps:

receiving indoor real-time data: receiving indoor real-time data from an environmental monitor; the environment monitor is not greatly different from the existing environment monitor, and is only connected with the cloud server to realize data transmission and control the split air processor to be started or closed.

wherein, before the pre-storing the temperature difference threshold, the method further comprises an outdoor environment data acquisition step of the server: and acquiring the outdoor environment data of the address according to the address of the indoor real-time data uploaded by the environment monitor. Thereby determining outdoor environment data of the server.

And starting a ventilation mode: and under the condition that the temperature difference value between the outdoor environment data and the indoor real-time data is within the temperature difference value range, the server controls the split type air processor to start a ventilation mode.

And starting an air conditioner mode: and when the temperature difference value between the outdoor environment data and the indoor real-time data is larger than the temperature difference value range, the server controls the split type air processor to start an air conditioning mode.

1. The environment monitor and the server are bound with the same account number of the cloud through wifi signals;

2. the cloud server collects real-time data of the monitor, and automatically judges the outdoor air state of the position where the equipment is located according to the data uploading address (the data is from a national meteorological data center);

3. the cloud server analyzes indoor and outdoor air quality and temperature conditions according to a user selection mode, and automatically judges whether an air conditioning mode or a ventilation mode is adopted to improve the indoor air condition.

The algorithm is as follows: when the difference between the indoor temperature difference and the outdoor temperature difference is more than or equal to 2 degrees, the trend accords with the mode selected by the user, and the difference between the temperature set by the user and the current indoor actual monitoring temperature is not more than 5 degrees, the equipment preferentially selects the ventilation mode (for example, when the user selects refrigeration, the indoor temperature is 32 degrees, the outdoor temperature is 27 degrees, the outdoor temperature is lower than the indoor temperature and is more than 2 degrees, and the user wants to preset the temperature to be 28 degrees, the equipment starts the ventilation mode for refrigeration).

The basis of the logic establishment of the algorithm is also related to the structure of the equipment, the equipment is provided with an air supply opening in one room, an air exhaust opening can be placed in another room, the purpose is to realize better air convection, comfortable air supplied by the air supply opening flows into another room in a one-way mode, and the air replacement effect is far higher than the air circulation in and out of one room through one piece of equipment (similar to the effect that north and south windows of a north and south permeable house are opened and compared with the effect that only south windows are opened).

In one embodiment, optionally, before the step of receiving indoor real-time data, the method further comprises a step of connecting: the environment monitor is connected with the server through WIFI signals.

In one embodiment, optionally, after the step of pre-storing the temperature difference threshold, the method further comprises the step of pre-storing the air quality difference threshold: and pre-storing an air quality difference threshold value between the outdoor environment data of the server and the indoor real-time data.

According to another aspect of the present application, a control apparatus is provided. FIG. 2 is a flow diagram of one embodiment of a control device according to the present application as applied to a split functional air handler. The device includes:

the pre-storage temperature difference threshold module is configured to pre-store a temperature difference threshold between outdoor environment data and the indoor real-time data in the server; the pre-storage temperature difference threshold value module is connected with an outdoor environment data acquisition module of the server and configured to acquire the outdoor environment data of the address according to the address of the indoor real-time data uploaded by the environment monitor.

The simple operation, moreover, intelligent degree is high.

The basis for the logic of the algorithm is also related to the structure of the equipment, the equipment is provided with an air supply opening in one room, an air exhaust opening is placed in another room, the purpose is to realize better air convection, comfortable air supplied by the air supply opening flows into another room in a single direction, and the air replacement effect is far higher than the air circulation in and out of one room through one piece of equipment (similar to the effect that the north and south windows of a north and south permeable house are opened compared with the effect that the south windows are opened only).

In one embodiment, optionally, the pre-stored temperature difference threshold module is connected with: and the pre-storage air quality difference threshold module is configured to pre-store an air quality difference threshold between the outdoor environment data and the indoor real-time data of the server.

According to another aspect of the application, a voice control method is provided for use with a split air handler. FIG. 3 is a flow chart of one embodiment of a voice control method applied to a split functional air handler in accordance with the present application. The method comprises the following steps:

a voice receiving step: receiving voice information of a user;

matching information: searching information matched with the voice and information in a database of a server;

and an information executing step: executing the information under the condition that the information matched with the voice and information is found in a database of the server;

and receiving voice information of a user through a server of the air processor, searching information matched with the voice information in a database of the server after the server receives the voice information, and executing information operation under the condition of finding. For example: the user says that the air conditioner is started, the temperature setting is 24 ℃, the server of the air processor receives the information, the information that the air conditioner is started is found in the database, the temperature setting is 24 ℃, the two information are matched, and then the server gives an electric signal to the control circuit board of the air processor to start the air processor.

For example: the user starts the air conditioning mode for the air processor, the temperature setting is 50 ℃, the server of the air processor receives the information, the information that the air conditioning mode is started is found in the database, the temperature setting is 50 ℃, the two information cannot be matched, and then the air processor sends a prompt for exceeding the conventional temperature.

In accordance with another aspect of the present application, a split air handler is provided. FIG. 4 is a schematic block diagram of one embodiment of a split functional air handler according to the present application. It includes: at least one environmental monitor 1; the outdoor unit 2 is connected with the environment monitoring instrument 1, the outdoor unit 2 comprises an outdoor unit shell, a control circuit board 210 and a blower 29 connected with the control circuit board 210 are arranged inside the outdoor unit shell, and the control circuit board 210 is connected with the environment monitoring instrument 1; at least one indoor unit 3 connected with the outdoor unit 2; the indoor unit 3 includes an indoor unit casing, and a multi-stage filter 326 is installed inside the indoor unit casing; the signal output end of the environment monitor 1 is connected with the signal receiving end of the control circuit board 210, and is used for controlling the outdoor unit 2 to open and supply air, and sending the air into the room through the indoor unit 3.

The air-conditioning system can be used for comprehensive treatment split equipment for ventilation, air purification, air temperature and humidity adjustment and air replacement of indoor areas in houses, apartments, public buildings and the like.

Through the numerical value of parameters such as the real-time wireless monitoring indoor temperature of environmental monitor 1, humidity, PM2.5, carbon dioxide, indoor, outdoor environmental difference are compared to the high in the clouds, the regional air health degree and the comfort level in automatically regulated equipment place.

Through intelligent unified management, realize high efficiency, the low energy consumption unites two into one new trend and purifies the repeated function between the two, reduces the running cost of equipment work.

The noise source is arranged outside, the indoor part is a physical filtering unit, noise pollution caused by equipment use is reduced, and meanwhile, the daily maintenance and management of a user are facilitated.

The user side performs remote monitoring, so that the user experience is truly reflected, and better unification between the user experience and the equipment energy consumption is realized.

The method comprises the steps that indoor real-time data from an environment monitor are received, environment numerical values of outdoor environment data and indoor real-time data of a server are prestored, a temperature difference range value between a temperature value of the indoor real-time data and a temperature value of the outdoor environment data is received, and when the temperature value of the indoor real-time data is in the temperature difference range value, a first signal is sent to the environment monitor to control the split air processor to start a ventilation mode; under the condition that the temperature value of indoor real-time data is greater than the temperature difference range value, send the second signal to environmental monitor, make the split type air processor of server control open the air conditioner mode, consequently, the simple operation, moreover, intelligent degree is high. Through cloud data analysis and diversified data acquisition, the method for realizing the same result and adopting different working modes is provided, and the aims of energy conservation and high efficiency are finally fulfilled.

In this embodiment, in order to increase the cooling effect, optionally, fig. 5 is a schematic structural diagram of an outdoor unit of the split type air handler according to the present application. A condenser 28, a compressor 211 and a condensation heat dissipation system 212 are further installed inside the outdoor unit casing, wherein the condenser 28, the compressor 211 and the condensation heat dissipation system 212 are respectively connected to the control circuit board 210, and the compressor 211 is connected to the condensation heat dissipation system 212. The condenser 28, the compressor 211 and the condensation heat dissipation system 212 are respectively connected to the control circuit board 210, and the condenser 28, the compressor 211 and the condensation heat dissipation system 212 are controlled to be turned on and off by the control circuit board 210.

In this embodiment, in order to realize the air supply, the air supply port 23 is not limited to the first surface provided on the first surface of the outdoor unit casing, and one end of the air supply port 23 is connected to the air supply device 29 and the other end is connected to the indoor unit 3.

In this embodiment, optionally, a fresh air vent 22 is provided on the second side of the outdoor unit housing to provide fresh air for use. A power connection port 24 is formed at one side of the control circuit board 210 and extends to the outside of the outdoor unit casing, so that the connection of a power supply is facilitated.

In this embodiment, optionally, a return air outlet 21 is formed on a third surface of the outdoor unit casing to penetrate the outdoor unit casing.

In this embodiment, optionally, an auxiliary heating device 324 is further installed inside the indoor unit casing, so that the cool air fed by the blower 29 is heated to form hot air, and the cold air is converted into hot air.

In this embodiment, optionally, FIG. 7 is a front view of an indoor unit of a split functional air handler according to the present application. The indoor unit housing is provided with an air inlet 328 and a plurality of air outlets 321, and the air inlet 328 is communicated with the air supply outlet 23 for increasing the air outlet efficiency. The middle part of the indoor unit shell is also provided with a liquid crystal state monitoring area 322, and the liquid crystal display screen 322 is connected with the air outlet environment monitoring instrument 325 and is used for displaying real-time numerical values of air outlet PM2.5, temperature and humidity.

In this embodiment, optionally, FIG. 6 is a schematic view of the structure of the indoor unit of the split functional air handler according to the present application. The inside of indoor set shell still installs uncap power-off protection device 327 and air outlet environmental monitor 325, and power-off protection device 327 will open automatically when opening the lid, realizes power-off protection, avoids electrocuteeing. The front surface of the indoor unit shell is provided with a replacement cover plate 323, and a multistage filter screen 326 is convenient and quick to install. The front of the indoor unit shell is arc-shaped, attractive and elegant, and is convenient to install at corners. The indoor unit 3 and the outdoor unit 2 are connected through a plastic pipe or a threaded pipe, and another multi-stage filter screen can be arranged in the air supply opening 23 for filtering to realize first-stage filtering. The outdoor unit casing further has a plurality of outdoor unit heat dissipation areas for dissipating heat.

The working principle is as follows:

the compressor 211 generates cold energy, which is transmitted to the condenser 28 through the transmission pipe, the blower 29 transmits the cold energy to the air inlet 328 of the indoor unit 3 through the air outlet 23 and the transmission pipe, the cold air passes through the multi-stage filter 326, and is transmitted to the indoor through the auxiliary heat 324 and the air outlet 321 of the indoor unit 3. The return air inlet 21 sucks indoor air, the indoor return air enters the return air inlet 21 of the outdoor unit 2 through a transmission pipeline, the indoor return air is mixed with fresh air entering the fresh air inlet 22 at the moment, the air passes through the condenser 28, and the air is transmitted to the indoor space by the blower 29.

Briefly, the method comprises the following steps: the return air is mixed with fresh air and is sent into a room after being refrigerated and filtered, and the air entering the room is clean and comfortable healthy air.

In addition, the environment monitoring instrument 1 can judge that when the temperature state of outdoor air meets the expectation of a user, the equipment can increase the introduced amount of fresh air, reduce the work of the air conditioner and improve the indoor temperature through ventilation, so that the working energy consumption of the air conditioner is greatly saved.

The cloud data center server monitors the outdoor temperature value of the environment monitoring instrument 1, the environment monitoring instrument 1 monitors the indoor temperature value, when the outdoor temperature meets the trend temperature of the user demand, the indoor temperature is improved through fresh air ventilation by utilizing the temperature difference principle, and therefore the energy consumption and cooling of an air conditioner are partially replaced.

Example (c): in early autumn in the midsummer, the outdoor temperature at night is generally relatively suitable, the indoor temperature is higher because the personnel concentrate at night and move frequently, if the independent air conditioner is adopted for reducing, the energy consumption is high, the air conditioner diseases are easily caused, the indoor and outdoor temperature is monitored by the equipment, when the outdoor temperature is suitable, the indoor temperature is improved in a controllable ventilation mode, the advantages that firstly, the energy consumption is low, the ventilation energy consumption is far lower than refrigeration, secondly, the controllable ventilation and ventilation can bring sufficient oxygen, the sleep at night is facilitated, and then, the temperature difference of the ventilation and ventilation cooling cannot be suddenly reduced at an extreme speed, the sustainable maintenance is realized, the cold risk of the indoor personnel is avoided, and the health is. In fact, ventilation and cooling are more like room windowing ventilation and cooling, but because windowing air convection is not controllable, and the pollution degree of outdoor air is high, indoor air quality is easily reduced by directly windowing.

All judgment logics are in a cloud server, the cloud server is in a logic state, the environment monitor 1 is only a data acquisition end, data are uploaded to the cloud server, and the server controls the working state of corresponding equipment according to the judgment logics.

This application contains air conditioner, new trend and intelligent monitoring's integrated function: adopt split type structure, 1) outer machine contains: the air conditioner comprises a compressor, a heat exchange unit, a fan and an air mixing unit; 2) indoor set, contains: a multi-stage high-efficiency filter element and electric auxiliary heating; 3) a mobile monitoring unit comprising: PM2.5, carbon dioxide, temperature, humidity. An intelligent energy-saving optimization logic control principle of an air conditioner and a fresh air system. The method comprises the step of adjusting the indoor temperature by utilizing the temperature state of the outdoor air, and further reducing the working energy consumption of the air conditioning unit. And the efficient and energy-saving temperature control is realized by installing air supply and air return in different rooms.

An embodiment of the present application further provides a pre-stored device, referring to fig. 9, comprising a memory 1120, a processor 1110 and a pre-stored machine program stored in said memory 1120 and executable by said processor 1110, the pre-stored machine program being stored in a space 1130 for program code in the memory 1120, the pre-stored machine program, when executed by the processor 1110, implementing the method steps 1131 for performing any of the methods according to the present invention.

The embodiment of the application also provides a prestored machine readable storage medium. Referring to fig. 10, the pre-stored machine-readable storage medium comprises a storage unit for program code provided with a program 1131' for performing the steps of the method according to the invention, which program is executed by a processor.

The embodiment of the application also provides a prestored computer program product containing the instruction. When the pre-stored machine program product is run on a pre-stored machine, it causes the pre-stored machine to perform the method steps according to the invention.

In the above embodiments, the implementation may be wholly or partially realized by software, hardware, firmware, or any combination thereof. When implemented in software, may be implemented in whole or in part in the form of a pre-stored computer program product. The pre-stored machine program product comprises one or more pre-stored machine instructions. When loaded into and executed by a pre-stored machine, causes, in whole or in part, the processes or functions described in accordance with embodiments of the application. The prestoring machine can be a general prestoring machine, a special prestoring machine, a prestoring machine network and other programmable devices. The pre-stored machine instructions may be stored in a pre-stored machine-readable storage medium or transmitted from one pre-stored machine-readable storage medium to another, for example, the pre-stored machine instructions may be transmitted from one website, pre-stored machine, server, or data center to another website, pre-stored machine, server, or data center via wire (e.g., coaxial cable, fiber optic, Digital Subscriber Line (DSL)) or wirelessly (e.g., infrared, wireless, microwave, etc.). The pre-stored machine-readable storage medium can be any available medium that can be accessed by the pre-stored machine or a data storage device, such as a server, a data center, etc., that is integrated with one or more available media. The usable medium may be a magnetic medium (e.g., floppy Disk, hard Disk, magnetic tape), an optical medium (e.g., DVD), or a semiconductor medium (e.g., Solid State Disk (SSD)), among others.

Those of skill would further appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, pre-stored machine software, or combinations of both, the components and steps of the various examples having been described in terms of their functionality generally in the foregoing description for clarity of explanation of interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.

It will be understood by those skilled in the art that all or part of the steps in the method for implementing the above embodiments may be implemented by a program, and the program may be stored in a pre-stored machine-readable storage medium, which is a non-transitory medium, such as a random access memory, a read-only memory, a flash memory, a hard disk, a solid state disk, a magnetic tape (magnetic tape), a floppy disk (floppy disk), an optical disk (optical disk), and any combination thereof.

The above description is only for the preferred embodiment of the present application, but the scope of the present application is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present application should be covered within the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims

1. A split air handler comprising:

an environmental monitor (1);

the outdoor unit (2) is connected with the environment monitor (1), the outdoor unit (2) comprises an outdoor unit shell, a control circuit board (210) and a blower (29) connected with the control circuit board (210) are installed inside the outdoor unit shell, and the control circuit board (210) is connected with the environment monitor (1);

an indoor unit (3) connected to the outdoor unit (2); the indoor unit (3) comprises an indoor unit shell, and a multi-stage filter screen (326) is arranged in the indoor unit shell;

the signal output end of the environment monitor (1) is connected with the signal receiving end of the control circuit board (210) and used for controlling the outdoor unit (2) to start air supply and sending the air into the room through the indoor unit (3).

2. The split system air handler of claim 1, further comprising:

a condenser (28), a compressor (211) and a condensation heat dissipation system (212) are further installed inside the outdoor unit casing, wherein the condenser (28), the compressor (211) and the condensation heat dissipation system (212) are respectively connected with the control circuit board (210), and the compressor (211) is connected with the condensation heat dissipation system (212);

an air supply air port (23) is formed in the first surface of the outdoor unit shell, one end of the air supply air port (23) is connected with the air feeder (29), and the other end of the air supply air port is connected with the indoor unit (3);

a fresh air port (22) is arranged on the second surface of the outdoor unit shell, a power supply wiring port (24) is arranged on one side of the control circuit board (210), and the fresh air port extends to the outside of the outdoor unit shell;

a return air inlet (21) is formed in the third surface of the outdoor unit shell and penetrates through the outdoor unit shell;

an auxiliary heating device (324) is also arranged in the indoor unit shell, so that cold air fed by the blower (29) is heated to form hot air;

the indoor unit shell is provided with an air inlet (328) and a plurality of air outlets (321), and the air inlet (328) is communicated with the air supply outlet (23);

a cover opening power-off protection device (327) and an air outlet environment monitor (325) are further installed inside the indoor unit shell;

the front surface of the indoor unit shell is provided with a liquid crystal display screen (322), and the liquid crystal display screen (322) is connected with the air outlet environment monitor (325);

a filter screen replacing cover plate (323) is arranged on the front surface of the indoor unit shell;

the front surface of the indoor unit shell is arc-shaped;

the indoor unit (3) and the outdoor unit (2) are connected through plastic pipes.

3. A control method applied to the split type air handler of any one of claims 1 to 2, comprising the steps of:

4. The control method of claim 3, wherein prior to the step of receiving indoor real-time data, the method further comprises the step of connecting: the environment monitor is connected with the server through WIFI signals.

5. The control method according to claim 3, wherein, before the pre-storing the temperature difference threshold, the method further comprises an outdoor environment data acquiring step of the server: and acquiring the outdoor environment data of the address according to the address of the indoor real-time data uploaded by the environment monitor.

6. A control method according to claim 3, characterized in that after the step of prestoring the temperature difference threshold, the method further comprises the step of prestoring the air quality difference threshold: and pre-storing an air quality difference threshold value between the outdoor environment data of the server and the indoor real-time data.

7. A control device, comprising:

8. The control device of claim 7, wherein the indoor real-time data receiving module is connected with:

and the connection module is configured to connect the environmental monitor with the server through a WIFI signal.

9. The control method of claim 7, wherein the pre-stored temperature difference threshold module is coupled to:

and the outdoor environment data acquisition module of the server is configured to acquire the outdoor environment data of the address according to the address of the indoor real-time data uploaded by the environment monitor.

10. The control method of claim 7, wherein the pre-stored temperature difference threshold module is coupled to:

and the pre-storage air quality difference threshold module is configured to pre-store an air quality difference threshold between the outdoor environment data and the indoor real-time data of the server.