CN112944629B - Control method and system of cabinet air conditioner, cabinet air conditioner and electronic equipment - Google Patents

Abstract

The invention relates to the technical field of air conditioners, and provides a control method and a control system for a cabinet air conditioner, the cabinet air conditioner and electronic equipment. The control method of the cabinet air conditioner comprises the steps of obtaining a cleaning starting signal of cleaning equipment; when the cleaning is started or the time is set before the cleaning is started, if the lower air outlet or the upper air outlet is in an air supply state, correspondingly controlling the air deflector to rotate according to the cleaning start signal so as to separate the heat exchange air duct from the lower air outlet and adjust the upper air outlet to supply air in a flat air supply state or an upper air supply state; and acquiring a cleaning end signal when the cleaning equipment finishes setting a cleaning area, and controlling the air deflector to rotate according to the cleaning end signal so as to communicate the heat exchange air duct with the lower air outlet. The air conditioner control method can prevent the air conditioner from blowing up dust and flock on the ground in the cleaning process of the cleaning equipment. After the set cleaning area is completed, the air is supplied through the lower air outlet to accelerate the evaporation of water stains on the ground, so that the intelligent degree and the air supply experience of the air conditioner are improved.

Description

Control method and system of cabinet air conditioner, cabinet air conditioner and electronic equipment

Technical Field

The invention relates to the technical field of air conditioners, in particular to a control method and a control system for a cabinet air conditioner, the cabinet air conditioner and electronic equipment.

Background

With the development of science and technology, the comfort, science and technology and intelligence of household appliances become the main development trend in the field of household appliances at present. In order to meet the requirements of users on more convenience, more comfort and more intelligence of intelligent household appliances, the linkage control of multiple intelligent devices becomes the current main research subject.

A sweeping robot and an air conditioner are common electrical appliances in intelligent household appliances. The floor sweeping robot automatically finishes floor sweeping work in a room by utilizing an artificial intelligence technology. The air conditioner is used for adjusting parameters such as temperature and humidity of air in a room so as to meet the requirement of comfort of a user. In the prior art, the air conditioner usually works independently of the sweeping robot, the working mode is single, and the air conditioner cannot work in cooperation with the sweeping robot, so that the intelligent degree of the air conditioner is not high enough.

Disclosure of Invention

The invention provides a control method and a control system of a cabinet air conditioner, the cabinet air conditioner and electronic equipment, and aims to solve the problem that an air conditioner works independently of a sweeping robot and cannot work cooperatively with the sweeping robot in the prior art.

The invention provides a cabinet air conditioner, which comprises a machine shell, wherein the machine shell is provided with an upper air outlet and a lower air outlet, the lower air outlet is positioned below the upper air outlet and close to the bottom of the machine shell, a heat exchange air duct communicated with the upper air outlet is arranged in the machine shell, the side wall of the heat exchange air duct is rotatably provided with an air deflector, and the air deflector is configured to be capable of communicating or blocking the heat exchange air duct and the lower air outlet through rotation.

According to the cabinet air conditioner provided by the invention, the rotation direction of the air deflector is configured to guide the wind in the heat exchange air duct to the direction of the lower air outlet.

According to the cabinet air conditioner provided by the invention, the air outlet decorative plate is arranged at the lower air outlet of the machine shell, and the air outlet decorative plate has two states of opening and closing the lower air outlet.

The invention also provides a control method of any one of the cabinet air conditioners, which comprises the following steps:

acquiring a cleaning start signal of cleaning equipment;

when cleaning is started or time is set before cleaning is started, if the lower air outlet or the upper air outlet is in an air supply state, correspondingly controlling the air deflector to rotate according to the cleaning start signal so as to block the heat exchange air duct and the lower air outlet and adjusting the upper air outlet to supply air in a flat air supply state or an upper air supply state;

and acquiring a cleaning end signal when the cleaning equipment finishes setting a cleaning area, and controlling the air deflector to rotate according to the cleaning end signal so as to communicate the heat exchange air duct with the lower air outlet.

According to the control method of the cabinet air conditioner provided by the invention, the air deflector is controlled to rotate according to the cleaning end signal so as to communicate the heat exchange air duct and the lower air outlet, and the control method comprises the following steps:

determining a first control parameter corresponding to the set cleaning area according to the set cleaning area, wherein the first control parameter comprises a rotation angle of the air deflector;

and controlling the air conditioner to perform air supply operation on the set cleaning area through the lower air outlet according to the first control parameter.

According to the present invention, a method for controlling a cabinet air conditioner, when a cleaning start time or a time set before the cleaning start time, if the upper outlet is in an air blowing state, after acquiring the cleaning end signal, further includes: and controlling the upper air outlet to supply air in a set air supply state according to the cleaning end signal.

According to the control method of the cabinet air conditioner provided by the invention, the upper air outlet is controlled to supply air in a set air supply state according to the cleaning end signal, and the control method comprises the following steps:

determining a second control parameter corresponding to the set cleaning area according to the set cleaning area;

and controlling the air conditioner to perform air supply operation on the set cleaning area through the upper air outlet according to the second control parameter.

According to the control method of the cabinet air conditioner provided by the invention, the air conditioner further comprises a fan for driving air to blow out from the upper air outlet, the second control parameter corresponding to the set cleaning area is determined according to the set cleaning area, and the method comprises the following steps:

dividing the set cleaning area into a plurality of sub-areas, and determining the relative distance and/or the relative angle between each sub-area and the upper air outlet;

determining the rotating speed of the fan according to the relative distance;

determining the air supply angle of the swing blade assembly corresponding to the upper air outlet according to the relative angle;

the second control parameter includes the rotation speed and/or the blowing angle.

The present invention also provides an air conditioner control system including an air conditioner including:

the acquisition module is used for acquiring a cleaning starting signal of the cleaning equipment and a cleaning ending signal for finishing setting a cleaning area;

the control module is used for correspondingly controlling the air deflector to rotate according to the cleaning starting signal to block the heat exchange air duct and the lower air outlet and adjusting the upper air outlet to supply air in a flat air supply state or an upper air supply state when the cleaning is started or the time is set before the cleaning is started and if the lower air outlet or the upper air outlet is in an air supply state; and controlling the air deflector to rotate according to the cleaning end signal so as to communicate the heat exchange air duct and the lower air outlet.

The invention also provides electronic equipment which comprises a memory, a processor and a computer program which is stored on the memory and can run on the processor, wherein the processor executes the program to realize the steps of any one of the control methods of the cabinet air conditioner.

According to the control method and system, the cabinet air conditioner and the electronic equipment, the rotatable air deflector is arranged on the side wall of the heat exchange air channel, so that the cabinet air conditioner can work with the cleaning equipment in a cooperative mode, namely the air deflector is rotated to communicate the heat exchange air channel with the lower air outlet, the cleaned area is dried, the cleaning equipment is assisted to work, and user experience is improved. In addition, the air outlet area of the cabinet air conditioner in the vertical direction is increased, and the air supply experience of a user from top to bottom is met. According to the control method of the cabinet air conditioner, before the cleaning equipment starts to clean or before the cleaning starts, the air guide plate is rotated to stop the air supply of the lower air outlet and adjust the air supply state of the upper air outlet into a flat air supply state or an upper air supply state, so that the indoor secondary pollution caused by the fact that the air conditioner blows up dust and flock on the ground in the cleaning process of the cleaning equipment is avoided, and the control and management of the air conditioner and the cleaning equipment are more beneficial to human health are carried out; after the cleaning area is set, the air outlet is started to supply air by rotating the air deflector, so that the evaporation of water stains on the ground can be accelerated. The linkage control scheme of the air conditioner and the cleaning equipment provided by the invention provides more comfortable air supply experience for users, and improves the intelligent degree of the air conditioner.

Drawings

In order to more clearly illustrate the technical solutions of the present invention or the prior art, the drawings needed for the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and those skilled in the art can also obtain other drawings according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a cabinet air conditioner provided by the present invention;

FIG. 2 is an enlarged view of a portion of the cabinet air conditioner structure of FIG. 1;

FIG. 3 is a flow chart illustrating a control method of a cabinet air conditioner according to the present invention;

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

FIG. 5 is a block diagram schematically illustrating the structure of an electronic device provided by the present invention;

reference numerals:

1. a housing; 11. An upper air outlet; 12. A lower air outlet;

13. a heat exchange air duct; 21. A yaw blade assembly; 22. A vertical swing blade assembly;

3. an air deflector.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. 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 invention provides a cabinet air conditioner, as shown in fig. 1, a structural schematic diagram of the cabinet air conditioner provided by the invention is provided, and fig. 2 is a partial enlarged view of the structure of the cabinet air conditioner in fig. 1. The cabinet air conditioner provided by the embodiment of the invention comprises a machine shell 1, wherein the machine shell 1 is provided with an upper air outlet 11 and a lower air outlet 12, the lower air outlet 12 is positioned below the upper air outlet 11 and close to the bottom of the machine shell 1, a heat exchange air duct 13 communicated with the upper air outlet 11 is arranged in the machine shell 1, an air deflector 3 is rotatably arranged in the side wall of the heat exchange air duct 13, and the air deflector 3 is configured to be capable of communicating or blocking the heat exchange air duct 13 and the lower air outlet 12 through rotation.

Wherein, the upper air outlet 11 and the lower air outlet 12 are located on the same side of the casing 1. A partition board is arranged in the machine shell 1 and divides the machine shell 1 into an upper space and a lower space, the upper air outlet 11 is arranged at the position of the machine shell 1 corresponding to the upper space, and the lower air outlet 12 is arranged at the position of the machine shell 1 corresponding to the lower space. The casing 1 above the partition board and the partition board are arranged in a surrounding way to form a heat exchange air duct 13. The cabinet air conditioner further comprises a fan and an evaporator which are arranged in the heat exchange air duct 13, and the fan sends out air subjected to heat exchange through the evaporator from the upper air outlet 11. When the air deflector 3 is in a state of communicating the heat exchange air duct 13 with the lower air outlet 12, under the action of the fan, part of air is sent out from the upper air outlet 11, and the other part of air is sent out from the lower air outlet 12. A swing blade component corresponding to the upper air outlet 11 is arranged in the heat exchange air duct 13.

The air deflector 3 can be rotatably arranged on the partition board, specifically, the partition board is provided with a through hole, the air deflector 3 is arranged at the through hole, and when the board surface of the air deflector 3 is parallel to the board surface of the partition board, the air deflector 3 just blocks the through hole; when the air deflector 3 rotates to form a certain angle with the partition plate, the through hole is opened, and the air in the heat exchange air duct 13 can enter the lower space of the casing 1 through the through hole and then be blown out from the lower air outlet 12. For example, a driving device and a rotating shaft are installed in the casing 1, the air deflector 3 is fixedly connected with the rotating shaft, the rotating shaft is rotatably installed on the partition plate, and a driving end of the driving device is fixedly connected with the rotating shaft and is used for driving the rotating shaft to rotate so as to drive the air deflector 3 to rotate.

The cabinet air conditioner provided by the embodiment of the invention further comprises a controller, wherein the controller is respectively in communication connection with the driving device and the cleaning equipment, and is used for receiving a cleaning start signal and/or a cleaning end signal sent by the cleaning equipment and controlling the driving device to drive the air deflector 3 to rotate according to the cleaning start signal. When the cabinet air conditioner and the cleaning equipment work in the same indoor space, the cleaning equipment sends a cleaning starting signal to the controller, and the controller controls the air deflector 3 to rotate so as to block the heat exchange air duct 13 and the lower air outlet 12 and stop the air supply of the lower air outlet 12; after the cleaning equipment finishes cleaning and sets a cleaning area, a cleaning end signal is sent to the controller, the controller controls the air deflector 3 to rotate so as to enable the heat exchange air duct 13 to be communicated with the lower air outlet 12, air in the heat exchange air duct 13 can be sent out from the lower air outlet 12, the air supply height of the air conditioner is reduced, and the cleaned area is dried.

According to the cabinet air conditioner provided by the embodiment of the invention, the rotatable air deflector is arranged on the side wall of the heat exchange air channel, so that the rotatable air deflector can be in linkage work with the cleaning equipment, namely, the rotatable air deflector is communicated with the heat exchange air channel and the lower air outlet, the drying operation of the cleaned area is realized, the work of the cleaning equipment is assisted, and the user experience is improved. In addition, when the air guide plate is rotated to enable the heat exchange air duct to be communicated with the lower air outlet, part of wind flowing through the heat exchange air duct can be sent out from the lower air outlet, the structure is simple, the air outlet area of the cabinet air conditioner in the vertical direction is increased, and the air supply experience of a user from top to bottom is brought.

When the air deflector is positioned at the downstream of the evaporator, air subjected to heat exchange in the heat exchange air duct can be blown out from the lower air outlet.

Further, the rotation direction of the air deflector 3 is configured to guide the air in the heat exchange air duct 13 to the direction of the lower air outlet 12. Specifically, when the air deflector 3 is in a state of communicating the heat exchange air duct 13 with the lower air outlet 12, the surface of the air deflector 3 extends from the through hole to the lower air outlet 12. Wherein, the rotation central axis of the air deflector 3 is vertical to the central axis of the lower air outlet 12. The air outlet amount and the air supply angle of the lower air outlet are adjusted by driving the air deflector 3 to rotate by different angles.

In an embodiment of the present invention, the lower air outlet 12 includes a plurality of ventilation holes, such as a plurality of strip-shaped holes shown in fig. 1 and fig. 2, opened on the chassis 1. In another embodiment of the present invention, the lower outlet 12 is a large outlet opened in the casing 1. An outlet decorative plate (not shown) is installed at the large outlet, and the outlet decorative plate has two states of opening and closing the lower outlet 12. For example, the outlet trim is slidably mounted on the housing 1, and the outlet trim is controlled to slide to open or close the lower outlet 12. When the air deflector 3 is in a state of communicating the heat exchange air duct 13 with the lower air outlet 12, the air outlet decorative plate is opened, so that the lower air outlet 12 supplies air with relatively large air volume; when the air deflector 3 is in a state of obstructing the heat exchange air duct 13 and the lower air outlet 12, the air outlet decoration plate is closed to prevent dust from entering the interior of the casing 1.

Furthermore, a plurality of air outlet micropores are formed in the air outlet decorative plate, so that when the air deflector 3 is in a state of communicating the heat exchange air duct 13 with the lower air outlet 12, the wind guided by the air deflector 3 can be blown out of the casing 1 through the plurality of air outlet micropores. Opening the air outlet decorative plate to be in a large-air-volume air supply mode; the mode of closing the air outlet decorative plate is a no-wind-sense mode.

The present invention further provides a control method of a cabinet air conditioner according to any one of the above embodiments, and fig. 3 is a schematic flow chart of the control method of the cabinet air conditioner according to the present invention. The control method of the cabinet air conditioner provided by the embodiment of the invention comprises the following steps:

s100, a cleaning start signal of the cleaning equipment is obtained. The sweeping device may be a sweeping robot or other intelligent device for floor cleaning. Specifically, the cleaning start signal may be an activation signal of the cleaning device, or may be a cleaning start time. Wherein, the start signal of the cleaning equipment can be sent to the air conditioner when the cleaning equipment starts cleaning. The cleaning starting time can be preset in the air conditioner manually; the cleaning device can also be used for acquiring the cleaning information from the historical cleaning record by the air conditioner or acquiring the cleaning information from the historical cleaning record by the cleaning device and then sending the cleaning information to the air conditioner.

And S200, when cleaning is started or time is set before cleaning is started, if the lower air outlet or the upper air outlet is in an air supply state, correspondingly controlling the air deflector to rotate according to the cleaning start signal so as to block the heat exchange air duct and the lower air outlet and adjust the upper air outlet to supply air in a flat air supply state or an upper air supply state.

The air supply state of the lower air outlet 12 can be started and stopped by driving the air deflector 3 to rotate. When the air supply of the lower air outlet 12 is stopped, the air deflector 3 is rotated to enable the air deflector to be in a state of obstructing the heat exchange air duct 13 and the lower air outlet 12; when the lower air outlet 12 is started to supply air, the air deflector 3 is rotated to enable the air deflector to be in a state of communicating the heat exchange air duct 13 with the lower air outlet 12. When the air outlet plaque is not provided with the air outlet, the air supply state of the lower air outlet 12 can be adjusted by opening or closing the air outlet plaque.

The air supply state of the upper air outlet 11 includes a flat air supply state, an upper air supply state, a lower air supply state and an automatic air supply state. The flat air supply state comprises an air supply state of any angle in the horizontal direction. The automatic air supply state is a dynamic air supply state capable of automatically adjusting the air supply direction through a program, and can comprise any multiple air supply states of a flat air supply state, an upper air supply state and a lower air supply state. The air supply state of the upper air outlet 11 can be adjusted by the swing blade assembly corresponding to the upper air outlet 11.

When the cleaning is started or the time is set before the cleaning is started, if the lower air outlet 12 is in an air supply state, that is, the air deflector 3 is in a state of communicating the heat exchange air duct 13 with the lower air outlet 12, the air deflector 3 is controlled to rotate to block the heat exchange air duct from the lower air outlet 12 according to the cleaning start signal, so that the air supply of the lower air outlet 12 is stopped. If the upper air outlet 11 is in the air supply state, the upper air outlet 11 is controlled to supply air in the flat air supply state or the upper air supply state according to the cleaning start signal. When cleaning is started, the lower air outlet 12 of the air conditioner does not supply air, and the upper air outlet 11 supplies air in a flat air supply state and an upper air supply state.

If the cleaning start signal is a start signal of the cleaning device, the lower air outlet 12 is controlled to stop air supply and the upper air outlet 11 is adjusted to supply air in a flat air supply state or an upper air supply state when cleaning is started. If the cleaning start signal is the cleaning start time, the lower outlet 12 is controlled to stop air supply and the upper outlet 11 is adjusted to supply air in a flat air supply state or an upper air supply state when the set time is before the cleaning start.

When the cleaning equipment starts cleaning, if the upper air outlet 11 of the air conditioner supplies air in a flat air supply state or an upper air supply state, controlling the upper air outlet 11 to continuously keep the current air supply state until the cleaning equipment finishes cleaning a set cleaning area; when the cleaning equipment starts cleaning or at a set time before the cleaning is started, such as the first 5s of the cleaning time, the upper air outlet 11 of the air conditioner blows air in a following air blowing state or an automatic air blowing state, and the upper air outlet 11 is controlled and adjusted to blow air in a flat air blowing state or an upper air blowing state until the cleaning of a set cleaning area is finished.

S300, acquiring a cleaning end signal of the cleaning equipment for finishing setting a cleaning area, and controlling the air deflector to rotate according to the cleaning end signal so as to communicate the heat exchange air duct with the lower air outlet.

Specifically, the cleaning area is set to be an area to be cleaned within a preset distance range of the air conditioner, or to be the whole area to be cleaned, and the cleaning area may be manually preset in the air conditioner, or preset in the cleaning equipment, and sent to the air conditioner by the cleaning equipment. When the set cleaning area is an area to be cleaned within a preset distance range of the air conditioner, a cleaning end signal is sent to the air conditioner after the cleaning equipment finishes cleaning the set cleaning area; when the cleaning area is set as the all-to-be-cleaned area, the cleaning end signal may be a cleaning end time preset in the air conditioner, or may be a cleaning end time calculated from a time taken by the air conditioner or the cleaning equipment to complete cleaning of the all-to-be-cleaned area acquired from a historical cleaning record and a cleaning start time. The preset distance range of the air conditioner can be a range that dust or flock on the ground cannot be raised when the lower air outlet 12 supplies air.

In this embodiment, no matter lower air outlet 12 is in the air supply state before cleaning the beginning, after accomplishing to set for cleaning the region, air outlet 12 starts the air supply under the control to blow to cleaning the region in lower position, when cleaning equipment when cleaning the floor and carried out the cleaning operation simultaneously, then can accelerate the evaporation of ground water stain through air outlet 12 air supply under the start.

The control method of the cabinet air conditioner is used for linkage control of the air conditioner and the cleaning equipment, and the air guide plate is rotated to block the heat exchange air duct and the lower air outlet to stop air supply of the lower air outlet and adjust the air supply state of the upper air outlet to a flat air supply state or an upper air supply state before cleaning of the cleaning equipment is started or cleaning is started, so that indoor secondary pollution caused by that the air conditioner blows dust and flock on the ground in the cleaning process of the cleaning equipment is avoided, and the control and management of the air conditioner and the cleaning equipment are more beneficial to human health are carried out; after the cleaning area is set, the air guide plate is rotated to communicate the heat exchange air duct with the lower air outlet so as to start the lower air outlet to supply air, so that the evaporation of water stains on the ground can be accelerated. The linkage control scheme of the air conditioner and the cleaning equipment provided by the invention provides more comfortable air supply experience for users, and improves the intelligent degree of the air conditioner.

In step S300, the controlling the air deflector to rotate according to the cleaning end signal to communicate the air duct with the lower air outlet includes:

s310, determining a first control parameter corresponding to the set cleaning area according to the set cleaning area, wherein the first control parameter comprises a rotation angle of the air deflector;

and S320, controlling the air conditioner to perform air supply operation on the set cleaning area through the lower air outlet according to the first control parameter.

Specifically, the boundary information of the set cleaning area is determined based on the set cleaning area. Firstly, the corresponding relation between the rotation angle of the air deflector 3 and the air supply amount and the air supply distance of the lower air outlet 12 is determined, and then the rotation angle of the air deflector 3 is determined according to the distance between the farthest boundary position of the cleaning area set in front of the lower air outlet 12 and the lower air outlet 12. The air deflector 3 can be controlled to rotate to a specific angle and then perform air supply operation on a set cleaning area through the lower air outlet 12, and the air deflector 3 can also be controlled to rotate according to a set air supply mode so as to adjust the air supply amount and the air supply distance to realize air supply on positions with different distances from the lower air outlet 12.

Further, the first control parameter further includes a fan rotation speed. The control parameter may be determined according to the distance between the farthest boundary position in front of the lower outlet 12 and/or the current indoor ambient temperature. For example, when the temperature of the indoor environment is low and/or the distance between the boundary position at the farthest position of the cleaning region in front of the lower air outlet 12 and the lower air outlet 12 is long, the rotation speed of the fan is controlled to be increased to increase the air supply distance of the lower air outlet 12, so as to increase the air supply range of the lower air outlet 12 to the ground. When the air conditioner operates in the heating mode, the first control parameter further comprises the compressor frequency, the compressor frequency is improved through control, the air supply temperature of the lower air outlet 12 is improved, and the drying operation of the lower air outlet 12 on the ground is accelerated.

Further, in an embodiment of the present invention, when the upper outlet is in the air blowing state at the time of starting cleaning or at a time set before starting cleaning, after the cleaning end signal is acquired, the method further includes: and controlling the upper air outlet to supply air in a set air supply state according to the cleaning end signal.

The set air supply state may be any one of the above air supply states. For example, when the cleaning is started or a time is set before the cleaning is started, the air blowing state of the upper outlet 11 of the air conditioner is an initial air blowing state. The set air supply state may be the same as the initial air supply state, that is, after the cleaning device completes the cleaning operation, the upper air outlet 11 of the air conditioner is controlled to recover the air supply state before the cleaning device cleans. The set blowing state may be different from the initial blowing state, for example, the set blowing state is a blowing state corresponding to the cleaning region for performing a drying operation on the cleaning region. In this embodiment, the preset distance range of the air conditioner may be a range in which the upper air outlet 11 does not cause dust or lint to be raised when the lower air outlet 12 is in the air supply state.

Further, in step S300, the controlling the upper air outlet to supply air in a set air supply state according to the cleaning end signal includes:

s330, determining a second control parameter corresponding to the set cleaning area according to the set cleaning area;

and S340, controlling the air conditioner to perform air supply operation on the set cleaning area through the upper air outlet according to the second control parameter.

The second control parameter comprises the rotating speed of the air conditioner fan and/or the air supply angle of the swing blade assembly. The second control parameter may be determined according to a relative position parameter of the cleaning area and the upper outlet 11, for example, a relative distance and/or a relative angle between the cleaning area and the upper outlet 11. And controlling the air conditioner to perform air supply operation on the set cleaning area through the upper air outlet 11 of the air conditioner according to the second control parameter so as to accelerate the evaporation of water stains on the ground of the set cleaning area.

When the relative distance between the set cleaning region and the upper outlet 11 is determined, the relative distance between the set cleaning region and the upper outlet 11 is determined based on the position information of the set cleaning region and the spatial position information of the upper outlet 11 with the spatial position of the upper outlet 11 as a positional reference. The rotating speed of the fan is adjusted according to the relative distance, so that the air supply distance of the upper air outlet 11 is adjusted.

When the relative angle between the set cleaning area and the upper outlet 11 is determined, the horizontal central plane right in front of the upper outlet 11 is zero as the angle reference in the vertical direction, and the vertical central plane right in front of the upper outlet 11 is zero as the angle reference in the horizontal direction. The relative angle includes a vertical relative angle and a horizontal relative angle. The relative angle between the set cleaning area and the upper outlet 11 is determined according to the position information of the set cleaning area and the spatial position information of the upper outlet 11. The air supply angle of the swing blade assembly is adjusted according to the relative angle, so that the air outlet direction of the upper air outlet 11 is adjusted. The position information of the cleaning area may be position information of a central point of the cleaning area.

In this embodiment, the second control parameter further includes a heating temperature of the air-conditioning heat exchange system. The control parameter may be determined based on the relative distance between the set cleaning area and the upper outlet 11 and/or the current indoor ambient temperature. For example, if the current indoor environment temperature is low and/or the distance between the cleaning area and the upper air outlet 11 is set to be long, the air conditioner is controlled to raise the heating temperature thereof, so as to accelerate the drying of the ground.

Further, in the embodiment of the present invention, the controlling the upper air outlet to supply air in a set air supply state according to the cleaning end signal further includes:

and acquiring an actual cleaning area within the set cleaning area range. The actual cleaning area is an area where cleaning is actually completed in the set cleaning area.

And controlling the air conditioner to perform air supply operation on the actual cleaning area through the upper air outlet 11 according to a second control parameter corresponding to the actual cleaning area.

Further, in the embodiment of the present invention, when the area of the set cleaning region is too large, in step S330, the determining a second control parameter corresponding to the set cleaning region according to the set cleaning region includes:

s331, dividing the set cleaning area into a plurality of sub-areas, and determining the relative distance and/or the relative angle between each sub-area and the upper air outlet;

s332, determining the rotating speed of the fan according to the relative distance;

s333, determining the air supply angle of the swing blade component corresponding to the upper air outlet according to the relative angle;

wherein the second control parameter comprises the rotation speed and/or the blowing angle. The air supply state is set to be an automatic air supply state which is automatically adjusted according to the air supply angle.

Specifically, boundary information of a set cleaning area is acquired, the set cleaning area is divided into a plurality of small sub-areas according to the boundary information, and control parameters are determined according to the relative distance and the relative angle between each sub-area and the upper air outlet 11. According to the control parameters, sequentially carrying out air supply operation on the plurality of sub-areas; or the dynamic air supply operation is carried out on the plurality of sub-areas according to a set air supply route, for example, an air supply route from far to near or from near to far, or an air supply route from left to right or from right to left. The air conditioner dynamically adjusts the air supply angle of the swing blade assembly according to the air supply route and the relative angle between each subarea and the upper air outlet 11.

As shown in fig. 3, which is a partial enlarged view of the air-conditioning structure in fig. 2, the swing blade assembly at the upper air outlet 11 includes a horizontal swing blade assembly 21 and a vertical swing blade assembly 22. The relative angle between each sub-area and the upper air outlet 11 includes a vertical relative angle and a horizontal relative angle. The swing angle of the horizontal swing blade assembly 21 changes along with the relative angle change in the up-down direction between the sub-area and the upper air outlet 11; the swing angle of the vertical swing blade assembly 22 changes with the relative angle between the sub-area and the upper air outlet 11 in the left-right direction.

The rotational speed of the fan varies with the distance between the sub-area and the upper outlet 11. For the subarea far away from the upper air outlet 11, a higher fan rotating speed is adopted; for the subarea closer to the upper air outlet 11, a lower fan rotating speed is adopted. The space position of the air outlet 11 is a reference position, the fan runs at a set rotating speed within 2m of the distance between the sub-area and the reference position, and the rotating speed of the fan increases progressively at a set value every time when the rotating speed of the fan increases by 0.5m beyond 2 m. And the upper limit value of the rotating speed can be set, and when the rotating speed of the fan obtained through calculation exceeds the upper limit value, the fan is controlled to operate at the upper limit value.

In the embodiment of the present invention, the controlling the upper air outlet according to the cleaning end signal in step S300 to supply air in a set air supply state includes:

and after the cleaning end signal is acquired, controlling the air supply state below the upper air outlet to supply air according to the cleaning end signal. Namely, after the cleaning equipment finishes cleaning the set cleaning area, the air conditioner controls the upper air outlet 11 to blow air downwards so as to dry the ground.

And after the air is supplied for a preset time period in the air supply state below the upper air outlet, the upper air outlet is controlled to supply air in the set air supply state.

Specifically, after the air conditioner performs the drying operation on the ground for a preset time period through the air supply state below the upper air outlet 11, for example, after 30min, the upper air outlet 11 is controlled to supply air in the set air supply state. In this embodiment, the set air supply state may be the same as the second air supply state, that is, after the air supply state below the upper air outlet 11 is supplied for a preset time period, the air supply state before the cleaning is started is recovered; the set air supply state may be different from the second air supply state, for example, after the air is supplied from the upper air outlet 11 to the lower air supply state for a preset time period, the blow-drying operation is continued by using the set air supply state.

In an embodiment of the present invention, the air conditioner control method further includes:

and if the air conditioner runs in a cooling mode before the cleaning is started, controlling the air supply mode to be switched to the air supply mode when the air supply state below the upper air outlet is controlled to supply air. The operation mode of the air conditioner comprises a heating mode, a cooling mode and an air supply mode. In the heating mode, an evaporator of the air conditioner works in the heating mode, and the fans are simultaneously started; in the refrigeration mode, the evaporator works in the refrigeration mode, and the fans are simultaneously started; in the air supply mode, the fan is started, and the evaporator is in a closed state. On one hand, the uncomfortable body feeling of the human body can be avoided when the upper air outlet 11 is in a lower air supply state; on the other hand compares in refrigeration mode, and the air supply mode can accelerate the evaporation of ground water stain more.

And after the air conditioner runs in the air supply mode for the preset time period, controlling the air conditioner to recover the refrigeration mode, wherein the air supply state is set to be a non-downward air supply state. That is, when the air is blown from the upper air outlet 11 to the lower air blowing state, the air conditioner starts to operate the air blowing mode, and after the air conditioner operates for a preset time period, for example, 30min, the air conditioner is controlled to resume the cooling mode and the air is blown from the upper air outlet 11 to the lower air blowing state, so that discomfort caused by direct blowing of cold air to the legs of a user is avoided.

In an embodiment of the present invention, the air conditioner control method further includes:

if the air conditioner runs in the cooling mode before the cleaning is started, the air conditioner running mode is switched to the air supply mode by controlling the air deflector to rotate according to the cleaning ending signal so as to communicate the heat exchange air duct 13 and the lower air outlet 12. After the air conditioner runs in an air supply mode for a preset time period, the air conditioner is controlled to recover a refrigeration mode, and meanwhile, the air deflector 3 is controlled to rotate to obstruct the heat exchange air duct 13 and the lower air outlet 12 to stop air supply of the lower air outlet 12, so that discomfort of body feeling caused by cold air blowing to the legs of a user is avoided.

The invention also provides a control method of the cleaning equipment, which comprises the following steps:

controlling the cleaning equipment to send a starting signal to the air conditioner so that when cleaning is started, if an upper air outlet of the air conditioner is in an air supply state, the upper air outlet is controlled to supply air in a flat air supply state or an upper air supply state; and if the lower air outlet of the air conditioner is in an air supply state, controlling the lower air outlet to stop supplying air.

Or acquiring the cleaning start time of the cleaning equipment in the history record; controlling the cleaning equipment to send cleaning start time to the air conditioner, so that when the time is set before cleaning is started, if the upper air outlet of the air conditioner is in an air supply state, the upper air outlet is controlled to supply air in a flat air supply state or an upper air supply state; and if the lower air outlet of the air conditioner is in an air supply state, controlling the lower air outlet to stop supplying air.

And controlling the cleaning equipment to start cleaning work on all the areas to be cleaned at the cleaning start time.

And controlling the cleaning equipment to send a cleaning end signal to the air conditioner so that the air conditioner can control the upper air outlet to supply air in a set air supply state according to the cleaning end signal.

The invention also provides an air conditioner control system, and fig. 4 is a schematic structural diagram of the air conditioner control system provided by the invention. The air conditioner control system provided by the embodiment of the invention comprises an air conditioner, wherein the air conditioner comprises:

the first acquisition module is used for acquiring a cleaning start signal of the cleaning equipment and a cleaning end signal for finishing setting a cleaning area; the cleaning start signal may be a start signal of the cleaning device or may be a cleaning start time.

The control module is used for correspondingly controlling the air deflector to rotate according to the cleaning starting signal so as to block the heat exchange air duct and the lower air outlet and adjusting the upper air outlet to supply air in a flat air supply state or an upper air supply state when cleaning is started or time is set before cleaning is started and if the lower air outlet or the upper air outlet is in an air supply state; and controlling the air deflector to rotate according to the cleaning end signal so as to communicate the heat exchange air duct and the lower air outlet.

Further, the control module is further configured to determine a first control parameter corresponding to the set cleaning area according to the set cleaning area; and/or determining a second control parameter corresponding to the set sweeping area. The air conditioner is also used for controlling the air conditioner to perform air supply operation on the set cleaning area through the lower air outlet according to the first control parameter; and/or controlling the air conditioner to perform air supply operation on the set cleaning area through the upper air outlet according to the second control parameter.

The first acquisition module is further used for acquiring an actual cleaning area within the set cleaning area range.

Further, the control module is further configured to divide the set cleaning area into a plurality of sub-areas, and determine a relative distance and/or a relative angle between each sub-area and the upper air outlet; and determining the rotating speed of the upper fan according to the relative distance, and determining the air supply angle of the swing blade assembly corresponding to the upper air outlet according to the relative angle.

Further, the air conditioner further includes:

and the first sending module is used for sending a cleaning starting instruction to the cleaning equipment after the lower air outlet stops air supply and the upper air outlet adjusts the air supply in a flat air supply state or an upper air supply state correspondingly according to the cleaning starting signal so as to ensure that the lower air outlet of the air conditioner does not supply air and the upper air outlet is in the flat air supply state or the upper air supply state in the cleaning process of the cleaning equipment.

The air conditioner control system provided by the embodiment of the invention further comprises cleaning equipment. The cleaning start signal is a start signal or a historical cleaning start time of the cleaning apparatus, and the cleaning apparatus includes:

and the second sending module is used for sending the starting signal or the historical cleaning starting time and the cleaning ending signal to an air conditioner. When the cleaning equipment is started, the starting signal is sent to the air conditioner. The cleaning starting time can be preset in the cleaning equipment manually; or retrieved by the cleaning device from a historical cleaning record.

Further, the sweeping apparatus further includes:

and the second acquisition module is used for acquiring the historical cleaning starting time and is also used for acquiring the cleaning starting instruction sent by the first sending module of the air conditioner.

The invention further provides an electronic device, which includes a memory, a processor and a computer program stored in the memory and capable of running on the processor, and when the processor executes the program, the steps of the control method of the cabinet air conditioner described in any of the above embodiments are implemented.

Fig. 5 is a schematic block diagram of a structure of an electronic device provided in the present invention, and as shown in fig. 5, the electronic device may include: a processor (processor)510, a communication Interface (Communications Interface)520, a memory (memory)530 and a communication bus 540, wherein the processor 510, the communication Interface 520 and the memory 530 communicate with each other via the communication bus 540. Processor 510 may call logic instructions in memory 530 to perform a method for controlling an air conditioner according to any of the embodiments described above, the method including:

acquiring a cleaning starting signal of cleaning equipment;

when cleaning is started or time is set before cleaning is started, if the lower air outlet or the upper air outlet is in an air supply state, correspondingly controlling the air deflector to rotate according to the cleaning start signal so as to block the heat exchange air duct and the lower air outlet and adjusting the upper air outlet to supply air in a flat air supply state or an upper air supply state;

and acquiring a cleaning end signal when the cleaning equipment finishes setting a cleaning area, and controlling the air deflector to rotate according to the cleaning end signal so as to communicate the heat exchange air duct and the lower air outlet.

Furthermore, the logic instructions in the memory 530 may be implemented in the form of software functional units and stored in a computer readable storage medium when the software functional units are sold or used as independent products. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

In another aspect, the present invention also provides a computer program product comprising a computer program stored on a non-transitory computer-readable storage medium, the computer program comprising program instructions which, when executed by a computer, enable the computer to perform the air conditioning control method provided by the above methods, the method comprising:

acquiring a cleaning start signal of cleaning equipment;

when cleaning is started or time is set before cleaning is started, if the lower air outlet or the upper air outlet is in an air supply state, correspondingly controlling the air deflector to rotate according to the cleaning start signal so as to block the heat exchange air duct and the lower air outlet and adjusting the upper air outlet to supply air in a flat air supply state or an upper air supply state;

and acquiring a cleaning end signal when the cleaning equipment finishes setting a cleaning area, and controlling the air deflector to rotate according to the cleaning end signal so as to communicate the heat exchange air duct with the lower air outlet.

In still another aspect, the present invention also provides a non-transitory computer-readable storage medium having stored thereon a computer program, which when executed by a processor, is implemented to perform the air conditioning control method provided above, the method including:

acquiring a cleaning start signal of cleaning equipment;

when cleaning is started or time is set before cleaning is started, if the lower air outlet or the upper air outlet is in an air supply state, correspondingly controlling the air deflector to rotate according to the cleaning start signal so as to block the heat exchange air duct and the lower air outlet and adjusting the upper air outlet to supply air in a flat air supply state or an upper air supply state;

and acquiring a cleaning end signal when the cleaning equipment finishes setting a cleaning area, and controlling the air deflector to rotate according to the cleaning end signal so as to communicate the heat exchange air duct and the lower air outlet.

The above-described embodiments of the apparatus are merely illustrative, and the units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

Through the above description of the embodiments, those skilled in the art will clearly understand that each embodiment can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware. With this understanding in mind, the above-described technical solutions may be embodied in the form of a software product, which can be stored in a computer-readable storage medium such as ROM/RAM, magnetic disk, optical disk, etc., and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the methods described in the embodiments or some parts of the embodiments.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (9)

1. A cabinet air conditioner is characterized by comprising a machine shell, a fan and a controller, wherein the machine shell is provided with an upper air outlet and a lower air outlet, the lower air outlet is positioned below the upper air outlet and close to the bottom of the machine shell, a heat exchange air channel communicated with the upper air outlet is arranged in the machine shell, the side wall of the heat exchange air channel is rotatably provided with an air deflector, and the air deflector is configured to be capable of communicating or blocking the heat exchange air channel and the lower air outlet through rotation;

a partition board is arranged in the shell to divide the shell into an upper space and a lower space, the shell above the partition board and the partition board are arranged in a surrounding mode to form the heat exchange air duct, the fan is arranged in the heat exchange air duct, the partition board is provided with a through hole, and the air deflector is arranged at the through hole to seal or open the through hole;

the controller is used for controlling the air deflector to block the through hole according to a cleaning start signal of cleaning equipment so as to block the heat exchange air duct and the lower air outlet and control the upper air outlet to supply air in a flat air supply state or an upper air supply state;

the controller is further used for controlling the air deflector to rotate to open the through hole according to a cleaning end signal of the cleaning equipment so as to communicate the heat exchange air duct with the lower air outlet, and enabling the plate surface of the air deflector to extend from the through hole to the direction of the lower air outlet so as to guide the air in the heat exchange air duct to the direction of the lower air outlet;

the controller is further used for determining a first control parameter corresponding to a set cleaning area according to the set cleaning area, wherein the first control parameter comprises a rotation angle of the air deflector; and controlling the air deflector to rotate according to the first control parameter so as to adjust the air supply amount and the air supply distance of the lower air outlet.

2. The cabinet air conditioner according to claim 1, wherein an air outlet trim panel is installed at the lower air outlet of the cabinet housing, and the air outlet trim panel has two states of opening and closing the lower air outlet.

3. A control method of a cabinet air conditioner according to claim 1 or 2, comprising:

acquiring a cleaning start signal of cleaning equipment;

when cleaning is started or time is set before cleaning is started, if the lower air outlet or the upper air outlet is in an air supply state, correspondingly controlling the air deflector to rotate according to the cleaning start signal so as to block the heat exchange air duct and the lower air outlet and adjusting the upper air outlet to supply air in a flat air supply state or an upper air supply state;

and acquiring a cleaning end signal when the cleaning equipment finishes setting a cleaning area, and controlling the air deflector to rotate according to the cleaning end signal so as to communicate the heat exchange air duct and the lower air outlet.

4. The method as claimed in claim 3, wherein the controlling the air deflector to rotate according to the cleaning end signal to communicate the heat exchange air duct and the lower air outlet includes:

determining a first control parameter corresponding to the set cleaning area according to the set cleaning area, wherein the first control parameter comprises a rotation angle of the air deflector;

and controlling the air conditioner to perform air supply operation on the set cleaning area through the lower air outlet according to the first control parameter.

5. The control method of a cabinet air conditioner according to claim 3,

when the upper air outlet is in an air supply state at the time of starting cleaning or at the time of setting time before starting cleaning, after the cleaning end signal is acquired, the method further includes: and controlling the upper air outlet to supply air in a set air supply state according to the cleaning end signal.

6. The method as claimed in claim 5, wherein the controlling the upper outlet to supply air in a set air supply state according to the cleaning end signal comprises:

determining a second control parameter corresponding to the set cleaning area according to the set cleaning area;

and controlling the air conditioner to perform air supply operation on the set cleaning area through the upper air outlet according to the second control parameter.

7. The method as claimed in claim 6, wherein the air conditioner further comprises a blower for driving air to be blown out from the upper outlet, and the determining a second control parameter corresponding to the set cleaning area according to the set cleaning area comprises:

dividing the set cleaning area into a plurality of sub-areas, and determining the relative distance and/or the relative angle between each sub-area and the upper air outlet;

determining the rotating speed of the fan according to the relative distance;

determining the air supply angle of the swing blade component corresponding to the upper air outlet according to the relative angle;

the second control parameter includes the rotation speed and/or the blowing angle.

8. An air conditioning control system, characterized in that it comprises a cabinet air conditioner according to claim 1 or 2, comprising:

the acquisition module is used for acquiring a cleaning start signal of the cleaning equipment and a cleaning end signal for finishing setting a cleaning area;

the control module is used for correspondingly controlling the air deflector to rotate according to the cleaning starting signal to block the heat exchange air duct and the lower air outlet and adjusting the upper air outlet to supply air in a flat air supply state or an upper air supply state when the cleaning is started or the time is set before the cleaning is started and if the lower air outlet or the upper air outlet is in an air supply state; and controlling the air deflector to rotate according to the cleaning end signal so as to communicate the heat exchange air duct and the lower air outlet.

9. An electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, characterized in that the processor implements the steps of the control method of the cabinet air conditioner according to any one of claims 3 to 7 when executing the program.

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