CN112611092A - Indoor air circulation allocation method, system, equipment and storage medium - Google Patents

Abstract

The application relates to the technical field of indoor air environment regulation, in particular to an indoor air circulation allocation method, a system, equipment and a storage medium, wherein the indoor air circulation allocation method comprises the following steps: acquiring the local air quality on the same day; matching a preset processing strategy according to the local air quality on the same day; and controlling the corresponding air treatment equipment to start according to the treatment strategy. This application has the effect of being convenient for adjust indoor air according to actual environment condition.

Description

Indoor air circulation allocation method, system, equipment and storage medium

Technical Field

The present application relates to the field of indoor air environment conditioning technologies, and in particular, to a method, a system, a device, and a storage medium for indoor air circulation allocation.

Background

With the rapid development of social economy, the physical and living conditions of people are better and better, and the rapid development of economy also brings a series of problems of living environment, such as air pollution, water pollution, light pollution and the like.

In order to deal with the problems caused by air pollution, people adopt indoor air treatment equipment such as air conditioners, air purification machines and the like to carry out treatment in home life so as to adjust the indoor environment and enable the indoor environment to be in a living state.

In view of the above-mentioned related art, the inventor believes that there is a drawback that the air conditioning apparatus in the existing home room cannot condition the indoor air according to the actual environmental conditions.

Disclosure of Invention

To facilitate conditioning of indoor air based on actual environmental conditions, the present application provides methods, systems, devices, and storage media for indoor air circulation blending.

In a first aspect, the indoor air circulation allocation method provided by the application adopts the following technical scheme:

the indoor air circulation allocation method comprises the following steps:

acquiring the local air quality on the same day;

matching a preset processing strategy according to the local air quality on the same day;

and controlling the corresponding air treatment equipment to start according to the treatment strategy.

By adopting the technical scheme, the air quality of the local area on the same day is obtained, the processing strategy corresponding to the air quality is preset, and the indoor air is adjusted according to the outdoor air quality, so that the effect of adjusting the indoor air condition according to the ambient environment condition is realized.

Preferably, the processing strategy comprises a family wind direction allocation sub-strategy;

the family wind direction adjusting sub-strategy comprises the following steps: acquiring position information of two pre-installed bidirectional exhaust fans forming convection;

acquiring the local wind direction of the current day;

calculating an included angle between the local wind direction and a connecting line of the two bidirectional exhaust fans on the same day;

the rotation directions of the two bidirectional fans are controlled by a preset rule according to the included angle.

Through adopting above-mentioned technical scheme, obtain the wind direction on the same day, can learn the flow direction of outdoor air on the same day, under the local air quality is in the circumstances of polluting on the same day, can adjust the indoor air of two-way suction fan water conservancy diversion and flow along the direction to have and adjust indoor air flow direction according to environment wind direction, with the effect that improves indoor air quality.

Preferably, the processing strategy further comprises a family humidity adjustment sub-strategy;

the family humidity adjustment sub-strategy comprises the following steps: acquiring the local humidity of the day;

the indoor temperature is adjusted according to the local humidity of the day.

By adopting the technical scheme, the indoor humidity can be adjusted according to the outdoor humidity, so that the indoor humidity is in a condition suitable for living, and the living comfort level is improved.

Preferably, the treatment strategy further comprises a sub-strategy for allocating the lightly polluted indoor gas;

the sub-strategy for allocating the slightly polluted indoor gas comprises the following steps: acquiring indoor air composition data;

and judging the indoor component data and a preset threshold value, and controlling the ozone generator to start and generating alarm information when the indoor component data is greater than the preset threshold value.

By adopting the technical scheme, if the indoor air composition data is in an abnormal state compared with the preset threshold value, the ozone generator can be started to preprocess the indoor abnormal composition and send out an alarm to remind residents to pay attention.

Preferably, the method further comprises the following steps:

detecting the difference value of the indoor pressure and the outdoor pressure, and judging the difference value of the indoor pressure and the outdoor pressure and a preset air pressure value;

and controlling the starting of the bidirectional exhaust fan according to the judgment result.

By adopting the technical scheme, the indoor air pressure is adjusted according to the indoor and outdoor pressure difference value, and the effect of reducing the indoor and outdoor pressure difference is achieved.

Preferably, the step of detecting the indoor pressure value, judging the indoor pressure value and the preset air pressure value, and controlling the start of the bidirectional exhaust fan according to the judgment result comprises the following substeps:

acquiring the difference value of indoor and outdoor pressure intensity;

acquiring the number of indoor personnel;

generating a preset air pressure value according to the difference value between the indoor pressure and the outdoor pressure and the number of indoor personnel;

and detecting the indoor pressure value, judging the indoor pressure value and a preset air pressure value, and controlling the starting of the bidirectional exhaust fan according to the judgment result.

Through adopting above-mentioned technical scheme, under the condition of different personnel quantity, the position atmospheric pressure of gathering at indoor personnel is higher easily, therefore according to indoor personnel quantity control predetermine atmospheric pressure self, has the effect that self-adaptation personnel quantity adjusted.

In a second aspect, the indoor air circulation allocation system provided by the application adopts the following technical scheme:

an indoor air circulation and distribution system comprises

The network acquisition module is used for acquiring the local air quality on the same day;

the matching module is used for matching a preset processing strategy according to the local air quality on the same day;

and the control module is used for controlling the corresponding air treatment equipment to be started according to the treatment strategy.

Through adopting above-mentioned technical scheme, the networking acquires the module and acquires outdoor air quality, and the matching module adjusts indoor air cycle allotment mode according to the air quality of environment, and control module control air treatment equipment starts to have the effect that can adjust indoor air according to the environment.

In a third aspect, the present application provides an intelligent device, which adopts the following technical solution:

a smart device comprising a memory and a processor, the memory having stored thereon a computer program that can be loaded by the processor and executed to perform a method as any one of the preceding.

In a fourth aspect, the present application provides a computer-readable storage medium, which adopts the following technical solutions:

a computer-readable storage medium storing a computer program that can be loaded by a processor and executed to perform a method according to any one of the preceding claims.

In summary, the present application includes at least one of the following beneficial technical effects:

1. acquiring the local air quality of the current day, presetting a processing strategy corresponding to the air quality, and adjusting indoor air according to the outdoor air quality so as to realize the effect of adjusting the indoor air condition according to the ambient environment condition;

2. the current day wind direction is obtained, so that the current day outdoor air flow direction can be obtained, and the air in the guide chamber of the bidirectional exhaust fan can be adjusted to flow along the direction under the condition that the current day local air quality is polluted, so that the effect of adjusting the indoor air flow direction according to the environmental wind direction to improve the indoor air quality is achieved;

3. the indoor humidity can be adjusted according to the outdoor humidity, which means that the indoor humidity is in a condition suitable for living, and the living comfort level is improved;

4. if the indoor air composition data is in an abnormal state compared with a preset threshold value, the ozone generator can be started to preprocess the indoor abnormal composition and send out an alarm to remind resident personnel to pay attention;

5. the networking acquisition module acquires outdoor air quality, the matching module adjusts the indoor air circulation allocation mode according to the air quality of the environment, and the control module controls the air treatment equipment to be started, so that the effect of adjusting indoor air according to the environment is achieved.

Drawings

FIG. 1 is a block flow diagram of a method for indoor air cycle allocation according to an embodiment of the present disclosure;

FIG. 2 is a block flow diagram of a method for indoor air cycle allocation according to another embodiment of the present application;

fig. 3 is a flowchart of step S4 according to another embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is further described in detail below with reference to fig. 1-3 and the embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

Referring to fig. 1, an embodiment of the present application discloses an indoor air circulation blending method, including the following steps:

s1: and acquiring the local air quality of the current day.

Specifically, the local air quality of the current day is obtained in a networked manner, and the obtained value can be an index of PM2.5 and PM10, and the air quality is evaluated by weather forecast, such as excellent, good and pollution.

S2: and matching a preset processing strategy according to the local air quality of the current day.

S3: and controlling the corresponding air treatment equipment to start according to the treatment strategy.

Specifically, an air conditioner with a filtering effect is preset in a house to control the indoor temperature, two opposite side surfaces of the house are respectively provided with a two-way suction fan, a channel for air circulation is arranged between the two-way suction fans, in the actual use, a plurality of two-way suction fans can be arranged according to the requirement, and a plurality of air flow circulation paths are formed among the two-way suction fans; in this embodiment, two bi-directional fans are used for example, one bi-directional fan pumps indoor air out of the room, and the other bi-directional fan pumps outdoor air into the room for air circulation; an ozone generator is also arranged in the room to deal with extreme air conditions so as to meet the requirement of a user on ambient air; in this embodiment, the preset processing strategy is a strategy for dealing with different air qualities and automatically starting and adjusting equipment such as an air conditioner, a double-sided suction fan, an ozone generator and the like in a home; when the air quality is the evaluation of the air quality obtained by the weather forecast, for example, when the local air quality is light pollution, the indoor and outdoor temperatures are detected, the air conditioner is started, the indoor temperature is adjusted to a proper indoor temperature by using the air conditioner, specifically, the temperature adjustment range of the air conditioner is set to 26-28 ℃, when the outdoor temperature is lower than 26 ℃, the indoor temperature is adjusted to 28 ℃, when the outdoor temperature is higher than 28 ℃, the indoor temperature is adjusted to 26 ℃, that is, the temperature is higher than the maximum end value of the temperature adjustment range, the air conditioner gradually adjusts toward the lower temperature direction in the temperature adjustment range along with the increase of the temperature, and when the temperature is lower than the minimum end value of the temperature adjustment range, the air conditioner gradually adjusts toward the higher temperature direction in the temperature adjustment range along with the decrease of the temperature.

Optionally, in another embodiment, the processing policy includes a family wind direction deployment sub-policy.

The family wind direction adjusting sub-strategy comprises the following steps:

(1) position information of two pre-installed bi-directional extraction fans forming convection is acquired.

(2) And acquiring the local wind direction of the current day.

(3) And calculating an included angle between the local wind direction and a connecting line of the two bidirectional exhaust fans on the same day.

(4) The rotation directions of the two bidirectional fans are controlled by a preset rule according to the included angle.

Specifically, the length of the house in the north-south direction is an X axis, the length of the house in the east-west direction is a Y axis, a coordinate system is established by taking the center point of the house as an origin, after the two-way suction fans are installed, the coordinates of the two-way suction fans on the coordinate system are determined, the position information is the coordinates of the two-way suction fans, a comparison vector in a fixed direction is established by taking a connecting line between the two-way suction fans, and the direction of the preset comparison vector is the gas flow direction of an air flow channel between the two-way suction fans.

Acquiring the local air quality of the current day as light pollution, starting a family wind direction allocation subsystem, networking to acquire the local wind direction of the current day, and establishing a wind direction virtual vector on a coordinate system, wherein in the embodiment, the preset rule is that an included angle between the comparative vector and the virtual vector is calculated, and if the included angle is smaller than 90 degrees, the rotation direction of the bidirectional exhaust fan is reversed, so that the component of the indoor gas flowing direction in the outdoor wind direction flowing direction is opposite to the outdoor wind direction; if the included angle is larger than 90 degrees, starting the bidirectional exhaust fan, and exchanging indoor and outdoor air according to the direction of a preset comparison vector; because the component of the indoor and outdoor exchange air flow direction in the actual wind direction is opposite to the wind direction, the indoor air can be discharged from the windward side and sucked from the leeward side, and dust, particles and the like entering the room are reduced.

Optionally, in another embodiment, the processing policy further includes a home humidity adjustment sub-policy.

The family humidity adjustment sub-strategy comprises:

(1) and acquiring the local humidity of the day.

(2) The indoor temperature is adjusted according to the local humidity of the day.

Specifically, install air humidifier in advance in the house, when the networking acquireed outdoor air comparatively dry, start air humidifier, to the air current humidification of taking out in the house, in order to improve the human water content of gaseous entering, in an embodiment, be equipped with air humidifier with the same quantity of two-way extraction fan, and install in the position that corresponds two-way extraction fan, when the networking acquireed local humidity on the same day lower, start family's wind direction allotment sub-strategy and start support body humidity allotment sub-strategy, so that take out indoor air current and carry air humidifier spun water smoke and circulate in the room, increase indoor humidity, in order to be fit for the resident.

Optionally, in an embodiment, the processing strategy further comprises a light pollution indoor gas allocation sub-strategy.

The sub-strategy for gas distribution in the lightly polluted room comprises the following steps:

(1) indoor air composition data is acquired.

(2) And judging the indoor component data and a preset threshold value, and controlling the ozone generator to start and generating alarm information when the indoor component data is greater than the preset threshold value.

Specifically, indoor air detector has been preset in the house, the air inlet outlet who corresponds two-way extraction fan in being at home is equipped with ozone generator, indoor air detector can detect formaldehyde in the air rapidly, benzene, ammonia, toluene, TVOC etc. when indoor air detector detects indoor air composition data, it is the maximum value of unfavorable composition in the air composition data to predetermine the threshold value, specifically can be the formaldehyde content value, when formaldehyde content exceedes preset threshold value, then control ozone generator and produce ozone, carry out disinfection to the room air.

In addition, when the content of indoor dust and smoke is detected to exceed the standard, the ozone generator can be started to generate ozone so as to refresh the air.

Specifically, when receiving air detector and detecting that the air composition data in the room is greater than preset threshold value, then generate alarm information according to air composition data and preset threshold value comparison result, alarm information can be reputation alarm information, install bee calling organ and the LED lamp that triggers by alarm information on the house, when generating alarm information, then trigger bee calling organ and make a sound and the LED lamp scintillation, in order to remind the interior air composition of indoor personnel in the room to have the problem, be applicable to the crowd that requires higher to the air quality.

In an embodiment, the alarm information may also be an alarm short message sent to the intelligent device, specifically, the intelligent device bound to the resident, the binding mode may be bluetooth connection or account login, in a networked state, when air composition data detected by the air detector is received, the air composition data is compared with a preset threshold, if the air composition data is greater than the preset threshold, the alarm information is generated, and the alarm information is sent to the intelligent device for the resident to check; when the bound resident is not in the room, the resident logs in the account number by using the intelligent device and is in information connection with the intelligent device of the resident, and the alarm information is sent to the intelligent terminal of the resident to remind the resident of abnormal gas in the room.

In an embodiment, when a resident has children and people who cannot move conveniently but have no people who can quickly handle problems at home, if abnormal conditions such as fire happen indoors, extremely quick changes of indoor gas components are caused, for example, the smoke content is increased suddenly, alarm information is triggered, the alarm information is sent to bound intelligent equipment through networking, and the people who can quickly handle problems can react as soon as possible to reduce accidents.

Referring to fig. 2, in an embodiment, step S4 is further included.

Step S4: and detecting the difference value between the indoor pressure and the outdoor pressure, judging the difference value between the indoor pressure and the outdoor pressure and a preset air pressure value, and controlling the starting of the bidirectional exhaust fan according to the judgment result.

Specifically, an opening is preset at the outer side position of a house, which is located between two bidirectional exhaust fans and close to the house, the opening is communicated with the indoor and the outdoor, a rubber film covering the opening is preset at the opening position, the rubber film is hermetically connected with the side wall of the house, which is close to the opening, a deformation sensor is arranged at the opening position and at one side of the indoor and is used for detecting the deformation of the rubber film, in actual use, different deformation ranges of the rubber film are sequentially divided into corresponding different indoor and outdoor pressure difference values, and the preset air pressure value is provided with two values, wherein one value is a maximum indoor pressure value when the indoor pressure is higher than the outdoor pressure, and the other value is a maximum outdoor pressure value when the indoor pressure is lower than the outdoor pressure; if the rubber film is bent towards the inside of a room, a signal transmitted by the deformation sensor is received, it is indicated that the outdoor pressure is greater than the indoor pressure, at this time, a judgment is made according to the difference value between the indoor pressure and the outdoor pressure represented by the deformation range transmitted by the deformation sensor and the maximum outdoor pressure value, if the difference value between the indoor pressure and the outdoor pressure is greater than the maximum outdoor pressure value, the bidirectional exhaust fan is controlled to be started, outdoor air is exhausted into the room within preset time, the preset time is self-defined time, and is 10 seconds in the embodiment; when the rubber membrane is bent towards the outside of the house, a signal transmitted by the deformation sensor is received, it is indicated that the outdoor pressure is greater than the indoor pressure, at this time, a judgment is made according to the difference value between the indoor pressure and the outdoor pressure represented by the deformation range transmitted by the deformation sensor and the maximum indoor pressure value, if the difference value between the indoor pressure and the outdoor pressure is greater than the maximum indoor pressure value, the bidirectional exhaust fan is controlled to start, outdoor air is exhausted into the house within a preset time, the preset time is a user-defined time, and in the embodiment, the preset time is also 10 seconds.

The bidirectional exhaust fan is adjusted to exhaust air indoors or outdoors according to the difference of the internal air pressure and the external air pressure, so that the indoor-outdoor air pressure difference can be adjusted conveniently, and the comfort level of residents can be improved.

Referring to fig. 3, in one embodiment, step S4 includes the following sub-steps:

s41: and acquiring the difference value between the indoor pressure and the outdoor pressure.

S42: and acquiring the number of indoor personnel.

S43: and generating a preset air pressure value according to the difference value between the indoor pressure and the outdoor pressure and the number of the indoor personnel.

S44: and detecting the indoor pressure value, judging the indoor pressure value and a preset air pressure value, and controlling the starting of the bidirectional exhaust fan according to the judgment result.

Specifically, a camera is preset in a home, an indoor image can be shot by the camera according to the number of indoor people in the home, the number of indoor people is obtained through face recognition, and the calculation rule of the preset air pressure value is the comparison calculation method in the embodiment.

This embodiment also discloses indoor air circulation allotment system, includes:

and the networking acquisition module is used for acquiring the local air quality of the current day.

And the matching module is used for matching the preset processing strategy according to the local air quality on the same day.

And the control module is used for controlling the corresponding air treatment equipment to be started according to the treatment strategy.

And the air pressure detection module is used for detecting the difference value between the indoor pressure and the outdoor pressure, judging the difference value between the indoor pressure and the outdoor pressure and a preset air pressure value, and controlling the starting of the bidirectional exhaust fan according to the judgment result.

The household air conditioner also comprises a memory, wherein processing strategies are stored in the memory, and the processing strategies comprise a household wind direction adjusting sub-strategy, a household humidity adjusting sub-strategy and a light pollution indoor air adjusting sub-strategy.

The family wind direction adjusting sub-strategy comprises the following steps:

(1) position information of two pre-installed bi-directional extraction fans forming convection is acquired.

(2) And acquiring the local wind direction of the current day.

(3) And calculating an included angle between the local wind direction and a connecting line of the two bidirectional exhaust fans on the same day.

(4) The rotation directions of the two bidirectional fans are controlled by a preset rule according to the included angle.

The family humidity adjustment sub-strategy comprises:

(1) and acquiring the local humidity of the day.

(2) The indoor temperature is adjusted according to the local humidity of the day.

The sub-strategy for gas distribution in the lightly polluted room comprises the following steps:

(1) indoor air composition data is acquired.

(2) And judging the indoor component data and a preset threshold value, and controlling the ozone generator to start and generating alarm information when the indoor component data is greater than the preset threshold value.

The system of the embodiment also comprises an alarm module.

And the alarm module is used for generating alarm information according to the comparison result of the indoor composition data and the preset threshold value.

The present embodiment also discloses an intelligent device comprising a memory and a processor, wherein the memory stores a computer program capable of being loaded by the processor and executing the method as any one of the foregoing methods.

A computer-readable storage medium storing a computer program that can be loaded by a processor and executed to perform a method according to any one of the preceding claims.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware associated with instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, databases, or other media used in the embodiments provided herein may include non-volatile and/or volatile memory, among others. Non-volatile memory can include read-only memory (ROM), Programmable ROM (PROM), Electrically Programmable ROM (EPROM), Electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), Dynamic RAM (DRAM), Synchronous DRAM (SDRAM), Double Data Rate SDRAM (DDRSDRAM), Enhanced SDRAM (ESDRAM), Synchronous Link DRAM (SLDRAM), Rambus Direct RAM (RDRAM), direct bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM).

It will be apparent to those skilled in the art that, for convenience and brevity of description, only the above-mentioned division of the functional units and modules is illustrated, and in practical applications, the above-mentioned function distribution may be performed by different functional units and modules according to needs, that is, the internal structure of the apparatus is divided into different functional units or modules, so as to perform all or part of the functions described above.

Claims (9)

1. The indoor air circulation allocation method is characterized by comprising the following steps:

acquiring the local air quality on the same day;

matching a preset processing strategy according to the local air quality on the same day;

and controlling the corresponding air treatment equipment to start according to the treatment strategy.

2. The indoor air circulation allotment method of claim 1,

the processing strategy comprises a family wind direction allocation sub-strategy;

the family wind direction adjusting sub-strategy comprises the following steps: acquiring position information of two pre-installed bidirectional exhaust fans forming convection;

acquiring the local wind direction of the current day;

calculating an included angle between the local wind direction and a connecting line of the two bidirectional exhaust fans on the same day;

the rotation directions of the two bidirectional fans are controlled by a preset rule according to the included angle.

3. The indoor air circulation allotment method of claim 1,

the processing strategy also comprises a family humidity allocation sub-strategy;

the family humidity adjustment sub-strategy comprises the following steps: acquiring the local humidity of the day;

the indoor temperature is adjusted according to the local humidity of the day.

4. The indoor air circulation allocation method according to claim 1, wherein said processing strategy further comprises a light pollution indoor gas allocation sub-strategy;

the sub-strategy for allocating the slightly polluted indoor gas comprises the following steps: acquiring indoor air composition data;

and judging the indoor component data and a preset threshold value, and controlling the ozone generator to start and generating alarm information when the indoor component data is greater than the preset threshold value.

5. The indoor air circulation allocation method according to claim 1, further comprising:

and detecting the difference value between the indoor pressure and the outdoor pressure, judging the difference value between the indoor pressure and the outdoor pressure and a preset air pressure value, and controlling the starting of the bidirectional exhaust fan according to the judgment result.

6. An indoor air circulation allocation method according to claim 5, wherein the step of detecting the indoor pressure value, determining the indoor pressure value and the preset air pressure value, and controlling the start of the bi-directional pumping fan according to the determination result comprises the following sub-steps:

acquiring the difference value of indoor and outdoor pressure intensity;

acquiring the number of indoor personnel;

generating a preset air pressure value according to the difference value between the indoor pressure and the outdoor pressure and the number of indoor personnel;

and detecting the indoor pressure value, judging the indoor pressure value and a preset air pressure value, and controlling the starting of the bidirectional exhaust fan according to the judgment result.

7. Indoor air circulation allotment system, its characterized in that:

the network acquisition module is used for acquiring the local air quality on the same day;

the matching module is used for matching a preset processing strategy according to the local air quality on the same day;

and the control module is used for controlling the corresponding air treatment equipment to be started according to the treatment strategy.

8. An intelligent device comprising a memory and a processor, the memory having stored thereon a computer program that can be loaded by the processor and that executes the method of any one of claims 1 to 6.

9. A computer-readable storage medium, in which a computer program is stored which can be loaded by a processor and which executes the method of any one of claims 1 to 6.

Images