CN119164074A - Interconnection control method and device of air conditioner and intelligent device, and air conditioner - Google Patents

Abstract

The invention relates to an interconnection control method and device of an air conditioner and intelligent equipment, and the air conditioner. The interconnection control method comprises the steps of receiving a mosquito net unfolding signal, judging whether an air conditioner is in an operation state, judging whether a first condition of opening an intelligent door and a second condition of opening an intelligent window are met or not if the first condition and the second condition are not met, controlling the corresponding intelligent door and/or intelligent window to be opened if at least one of the first condition and the second condition is met, starting the air conditioner if the first condition and the second condition are not met, and controlling the air conditioner to operate in a natural air supply mode so as to blow natural air which is not subjected to heat exchange to an indoor environment space. According to the intelligent mosquito net, when the intelligent mosquito net is unfolded, the environment parameters are automatically adjusted through the air conditioner, the intelligent door or the intelligent window, so that uncomfortable experience brought to a user due to the fact that the intelligent mosquito net is unfolded is effectively relieved, and the intelligent degree is high.

Description

Interconnection control method and device of air conditioner and intelligent equipment and air conditioner

Technical Field

The present invention relates to the field of intelligent control technologies, and in particular, to an interconnection control method and apparatus for an air conditioner and an intelligent device, and an air conditioner.

Background

With the gradual improvement of the living standard of people and the increasing progress of technology, various devices used in families tend to be more intelligent. For example, home appliances such as air conditioners, refrigerators, televisions, washing machines, water heaters, and the like with higher and higher intelligent degrees are also successively intelligent, such as curtains, windows, mosquito nets, mattresses, and the like which are used daily, and intelligent curtains, intelligent windows, intelligent mosquito nets, intelligent mattresses, and the like are appeared.

The demands for the air conditioner in the daily life or work are not limited to the conventional functions, but rather, it is desirable that they can be variously adjusted to the real-time demands of users. The air conditioner can be home appliances such as an air conditioner for adjusting environmental air parameters. However, most of the current air conditioners cannot well explain the concept of interconnection with other devices due to the limitations of functions and structures of the air conditioners, and cannot be intelligently adjusted according to the actual demands of users, so that the use experience of the users is poor.

Disclosure of Invention

The inventor realizes that after the mosquito net is unfolded, the user can feel choking and has poor experience due to the shielding effect and the space limiting effect of the mosquito net.

It is therefore an object of the first aspect of the present invention to overcome at least one of the drawbacks of the prior art, and to provide a method for controlling the interconnection of an air conditioner and an intelligent device, so as to automatically adjust environmental parameters in an indoor environmental space by the air conditioner or other intelligent device when the intelligent mosquito net is deployed, thereby alleviating the uncomfortable experience of a user in the intelligent mosquito net.

Another object of the first aspect of the invention is to save energy as much as possible without affecting the rest of the user.

An object of the second aspect of the present invention is to provide an interconnection control device of an air conditioner and an intelligent device, so as to automatically adjust environmental parameters in an indoor environmental space through the air conditioner or other intelligent devices when an intelligent mosquito net is unfolded, thereby alleviating uncomfortable experience of a user in the intelligent mosquito net.

An object of a third aspect of the present invention is to provide an air conditioner having the above interconnection control device.

According to a first aspect of the invention, the invention provides an interconnection control method of an air conditioner and intelligent equipment, wherein the intelligent equipment comprises an intelligent mosquito net, an intelligent door and an intelligent window which are positioned in the same indoor environment space as the air conditioner, and the intelligent mosquito net, the intelligent door and the intelligent window are arranged in the same indoor environment space

The interconnection control method comprises the following steps:

The intelligent mosquito net comprises a mosquito net body, a mosquito net unfolding signal and a mosquito net control unit, wherein the mosquito net unfolding signal is generated when the intelligent mosquito net responds to a unfolding starting instruction received by the intelligent mosquito net to execute unfolding action;

judging whether the air conditioner is in an operating state or not;

If not, judging whether the first condition of opening the intelligent door and the second condition of opening the intelligent window are met;

And controlling the opening of the corresponding intelligent door and/or intelligent window if at least one of the first condition and the second condition is satisfied

And if the first condition and the second condition are not met, starting the air conditioner, and controlling the air conditioner to operate in a natural air supply mode so as to blow natural air which is not subjected to heat exchange to the indoor environment space.

Optionally, when the air conditioner is in a stop state, the interconnection control method specifically includes:

Judging whether a first condition for opening the intelligent door is met or not according to a preset sequence;

if the first condition is met, controlling the intelligent door to be opened;

if the first condition is not met, continuing to judge whether a second condition for opening the intelligent window is met;

and controlling the smart window to open if the second condition is satisfied

And if the second condition is not met, starting the air conditioner, and controlling the air conditioner to operate in a natural air supply mode so as to blow natural air which is not subjected to heat exchange to the indoor environment space.

Optionally, after controlling the intelligent door to open, the interconnection control method further includes:

Acquiring the internal wind speed in the indoor environment space;

if the internal wind speed is greater than or equal to a preset wind speed value, the existing state is maintained;

If the internal wind speed is smaller than the preset wind speed value, continuing to judge whether a second condition for opening the intelligent window is met or not;

and controlling the smart window to open if the second condition is satisfied

And if the second condition is not met, starting the air conditioner, and controlling the air conditioner to operate in a natural air supply mode so as to blow natural air which is not subjected to heat exchange to the indoor environment space.

Optionally, the step of determining whether the first condition for opening the intelligent door is satisfied includes:

Detecting whether a human body exists in the space at the other side of the intelligent door, which is opposite to the indoor environment space;

if yes, determining that the first condition is not satisfied, and

If not, judging that the first condition is met;

And/or;

The step of judging whether the second condition of opening the smart window is satisfied specifically includes:

Acquiring the internal temperature and the internal wind speed in the indoor environment space and the external temperature and the external wind speed in the outdoor environment space;

Calculating a temperature difference between the internal temperature and the external temperature, and a wind speed difference between the internal wind speed and the external wind speed;

If the temperature difference is smaller than or equal to a preset temperature difference value and the wind speed difference is smaller than or equal to a preset wind speed difference value, judging that the second condition is met;

and if the temperature difference is larger than the preset temperature difference value or the wind speed difference is larger than the preset wind speed difference value, judging that the second condition is not met.

Optionally, when the air conditioner is in a stop state, the interconnection control method specifically includes:

Judging whether a second condition for opening the intelligent window is met or not according to a preset sequence;

if the second condition is met, controlling the intelligent window to be opened;

if the second condition is not met, continuing to judge whether a first condition for opening the intelligent door is met;

if the first condition is met, controlling the intelligent door to open, and

And if the first condition is not met, starting the air conditioner, and controlling the air conditioner to operate in a natural air supply mode so as to blow natural air which is not subjected to heat exchange to the indoor environment space.

Optionally, after controlling the intelligent door to open, the interconnection control method further includes:

Acquiring the internal wind speed in the indoor environment space;

if the internal wind speed is greater than or equal to a preset wind speed value, the existing state is maintained;

and if the internal wind speed is smaller than the preset wind speed value, starting the air conditioner, and controlling the air conditioner to operate in a natural air supply mode so as to blow natural wind which is not subjected to heat exchange to the indoor environment space.

Optionally, the step of determining whether the second condition for opening the smart window is satisfied specifically includes:

Acquiring indoor noise in the indoor environment space and outdoor noise in the outdoor environment space;

If the noise difference between the indoor noise and the outdoor noise is larger than or equal to the preset noise value, judging that the second condition is not met;

And/or;

The step of judging whether the first condition of opening the intelligent door is met specifically comprises the following steps:

acquiring indoor noise in the indoor environment space and outdoor noise in the other side space of the intelligent door opposite to the indoor environment space;

And if the noise difference between the indoor noise and the outdoor noise is larger than or equal to the preset noise value, judging that the first condition is not met.

Optionally, after controlling the smart window to open, the interconnection control method further includes:

Acquiring an internal wind speed in the indoor environment space, and

And adjusting the opening degree of the intelligent window according to the internal wind speed.

According to a second aspect of the present invention, there is also provided an interconnection control apparatus of an air conditioner and an intelligent device including an intelligent mosquito net, an intelligent door and an intelligent window in the same indoor environment space as the air conditioner, the interconnection control apparatus comprising:

A processor and a memory, wherein the memory stores a machine executable program, and the machine executable program when executed by the processor is configured to implement the interconnection control method according to any of the above aspects.

According to a third aspect of the present invention, the present invention further provides an air conditioner, including the interconnection control device according to any one of the above schemes.

According to the interconnection control method of the air conditioner and the intelligent mosquito net, the air conditioner and the intelligent equipment are located in the same indoor environment space, so that the air conditioner and the intelligent equipment work cooperatively, and the environment parameters in the indoor environment space are adjusted jointly. Specifically, the interconnection control method of the invention firstly judges the state of the air conditioner when the intelligent mosquito net is unfolded. If the air conditioner is in an operating state, the indoor environment space is usually relatively closed in order to secure a cooling effect, and thus it is not suitable to adjust the open/close states of the smart door and the smart window. If the air conditioner is in a stop state, the user is not required to refrigerate. Therefore, the indoor environment ventilation system only judges whether the first condition of opening the intelligent door and the second condition of opening the intelligent window are met when the air conditioner is in a stop state, if any one of the first condition and the second condition is met, the corresponding intelligent door or intelligent window is opened, the purpose of ventilation of the indoor environment space can be achieved, if both conditions are not met, the environment parameters in the indoor environment space cannot be effectively regulated through the intelligent door and the intelligent window, at the moment, the air conditioner is started and operated in a natural air supply mode, natural air is blown to the indoor environment space, and the environment parameters in the indoor environment space can be effectively regulated. Therefore, the intelligent mosquito net and intelligent equipment comprising the intelligent mosquito net, the intelligent door and the intelligent window are interconnected, the purpose of automatically adjusting the environmental parameters in the indoor environment space through the air conditioner, the intelligent door or the intelligent window when the intelligent mosquito net is unfolded is achieved, uncomfortable experiences such as choking and the like brought to users due to the fact that the intelligent mosquito net is unfolded are effectively relieved, and the intelligent degree is high.

In addition, the interconnection control method firstly judges whether the first condition of opening the intelligent door and the second condition of opening the intelligent window are met, so that uncomfortable experiences such as choking and the like caused by the expansion of the intelligent mosquito net to the user can be relieved as much as possible by opening the intelligent door and/or the intelligent window on the premise of not affecting the rest of the user. The air conditioner is started only under the condition that the first condition and the second condition are not met, and the air conditioner is operated in a natural air supply mode, so that on one hand, the user is ensured not to be disturbed by the opening of the intelligent window or the intelligent door body, and on the other hand, the starting probability of the air conditioner is reduced, and the energy consumption is saved. In addition, in the natural air supply mode, the air flow blown out by the air conditioner is natural air without heat exchange, so that the initial requirement that a user does not refrigerate is met, only one air flow (similar to a fan) is provided, and uncomfortable experiences such as choking and the like brought by the expansion of the intelligent mosquito net to the user are relieved.

The above, as well as additional objectives, advantages, and features of the present invention will become apparent to those skilled in the art from the following detailed description of a specific embodiment of the present invention when read in conjunction with the accompanying drawings.

Drawings

Some specific embodiments of the invention will be described in detail hereinafter by way of example and not by way of limitation with reference to the accompanying drawings. The same reference numbers will be used throughout the drawings to refer to the same or like parts or portions. It will be appreciated by those skilled in the art that the drawings are not necessarily drawn to scale. In the accompanying drawings:

FIG. 1 is a schematic flow chart of an interconnection control method of an air conditioner and an intelligent device according to an embodiment of the present invention;

fig. 2 is a schematic flowchart of an interconnection control method of an air conditioner and an intelligent device according to a second embodiment of the present invention;

fig. 3 is a schematic flowchart of an interconnection control method of an air conditioner and an intelligent device according to a third embodiment of the present invention;

fig. 4 is a schematic flowchart of an interconnection control method of an air conditioner and an intelligent device according to a fourth embodiment of the present invention;

FIG. 5 is a schematic block diagram of an interconnection control device in accordance with one embodiment of the present invention;

Fig. 6 is a schematic block diagram of an air conditioner according to an embodiment of the present invention.

Detailed Description

The invention firstly provides an interconnection control method of the air conditioner and the intelligent equipment, which can realize intelligent interconnection of the air conditioner and the intelligent equipment, provides an intelligent household appliance interconnection scene and effectively improves the intelligent degree.

Specifically, the intelligent equipment comprises an intelligent mosquito net, an intelligent door and an intelligent window which are positioned in the same indoor environment space with the air conditioner, so that the air conditioner and a plurality of intelligent equipment work cooperatively, thereby adjusting the environment parameters in the indoor environment space together and improving the intelligent experience of users in the indoor environment space.

It should be noted that, the methods of the following embodiments of the present invention are described from the side of the interconnection control device of the air conditioner and the intelligent device, that is, the control device executes the relevant steps. In addition, the premise of realizing the scheme of the embodiment of the invention is that the air conditioner and the intelligent equipment are interconnected, and in particular, an interconnection control device of the air conditioner and the intelligent equipment can be arranged between the air conditioner and the intelligent equipment, and signals sent by the air conditioner and the intelligent equipment can be received and sent to the air conditioner and the intelligent equipment through the control device. The control device can be additionally and independently arranged and also can be arranged inside the air conditioner.

The intelligent device in this embodiment has the advantage of being intelligent, just because it can send signals to the control device and can also receive signals sent by the control device. Specifically, the method can be realized by arranging a controller on the intelligent device. Similarly, the air conditioner may be provided with its own controller, so that it is possible to send a signal to the control device and receive a signal issued by the control device.

In particular, the interconnection control method of the air conditioner and the intelligent device of the invention comprises the following steps:

Receiving a mosquito net unfolding signal; the mosquito net unfolding signal is generated when the intelligent mosquito net responds to the unfolding starting instruction received by the intelligent mosquito net to execute unfolding action;

Judging whether the air conditioner is in an operating state or not;

if not, judging whether a first condition of opening the intelligent door and a second condition of opening the intelligent window are met;

Controlling the opening of the corresponding smart door and/or smart window if at least one of the first condition and the second condition is satisfied, and

If the first condition and the second condition are not met, the air conditioner is started, and the air conditioner is controlled to operate in a natural air supply mode so as to blow natural air which is not subjected to heat exchange to the indoor environment space.

The interconnection control method of the invention judges the state of the air conditioner when the intelligent mosquito net is unfolded. If the air conditioner is in an operating state, the indoor environment space is usually relatively closed in order to ensure the cooling effect, and thus it is not suitable to adjust the opening and closing states of the intelligent door and the intelligent window, and thus it is not suitable to use the subsequent execution logic. If the air conditioner is in a stop state, the user is not required to refrigerate. Therefore, the intelligent door opening control method and the intelligent window opening control device only judge whether the first condition of opening the intelligent door and the second condition of opening the intelligent window are met when the air conditioner is in a stop state. If the two conditions are not met, the environment parameters in the indoor environment space cannot be effectively adjusted through the intelligent door and the intelligent window, and the air conditioner is started at the moment and operated in a natural air supply mode so as to blow natural air to the indoor environment space, and the environment parameters in the indoor environment space can be effectively adjusted.

Therefore, the intelligent mosquito net and intelligent equipment comprising the intelligent mosquito net, the intelligent door and the intelligent window are interconnected, the purpose of automatically adjusting the environmental parameters in the indoor environment space through the air conditioner, the intelligent door or the intelligent window when the intelligent mosquito net is unfolded is achieved, uncomfortable experiences such as choking and the like brought to users due to the fact that the intelligent mosquito net is unfolded are effectively relieved, and the intelligent degree is high.

In addition, the interconnection control method firstly judges whether the first condition of opening the intelligent door and the second condition of opening the intelligent window are met, so that uncomfortable experiences such as choking and the like caused by the expansion of the intelligent mosquito net to the user can be relieved as much as possible by opening the intelligent door and/or the intelligent window on the premise of not affecting the rest of the user. The air conditioner is started only under the condition that the first condition and the second condition are not met, and the air conditioner is operated in a natural air supply mode, so that on one hand, the user is ensured not to be disturbed by the opening of the intelligent window or the intelligent door body, and on the other hand, the starting probability of the air conditioner is reduced, and the energy consumption is saved.

In addition, in the natural air supply mode, the air flow blown out by the air conditioner is natural air without heat exchange, so that the initial requirement that a user does not refrigerate is met, only one air flow (similar to a fan) is provided, uncomfortable experiences such as choking and the like brought by the expansion of the intelligent mosquito net to the user are relieved, and the comfort experience of the user is ensured.

In some embodiments, when the air conditioner is in a stop state, the interconnection control method of the present invention may specifically include:

Judging whether a first condition for opening the intelligent door is met or not according to a preset sequence;

If the first condition is met, controlling the intelligent door to be opened;

if the first condition is not met, continuing to judge whether a second condition for opening the intelligent window is met;

And controlling the smart window to open if the second condition is satisfied

If the second condition is not met, the air conditioner is started, and the air conditioner is controlled to operate in a natural air supply mode so as to blow natural air which is not subjected to heat exchange to the indoor environment space.

That is, when judging whether the first condition for opening the intelligent door and the second condition for opening the intelligent window are satisfied, the preset sequence is provided. In one embodiment, it may be determined whether the first condition is satisfied first, and only if the first condition is not satisfied, it is determined whether the second condition is satisfied.

Specifically, fig. 1 is a schematic flowchart of an interconnection control method of an air conditioner and an intelligent device according to an embodiment of the present invention, and referring to fig. 1, the interconnection control method of the present invention includes:

step S10, receiving a mosquito net unfolding signal;

step S20, judging whether the air conditioner is in an operation state, if not, turning to step S310;

step S310, judging whether a first condition of opening the intelligent door is met, if yes, turning to step S410, and if not, turning to step S510;

Step S410, controlling the intelligent door to open;

Step S510, judging whether a second condition of opening the intelligent window is met, if yes, turning to step S610, otherwise, turning to step S710;

Step S610, controlling Smart Window opening, and

Step S710, starting the air conditioner and controlling the air conditioner to operate in a natural air supply mode to blow natural wind without heat exchange to the indoor environment space.

The inventors have recognized that intelligent doors space the indoor environmental space from other spaces in the room (e.g., living room, hallway, etc.). Other spaces may be relatively closed or may be in communication with the outside, so that the ventilation effect in the indoor environment space is also different after the intelligent door is opened. If other spaces on the other side of the intelligent door are relatively closed, after the intelligent door is opened, the ventilation effect of the indoor environment space may be poor, the air flow circulation cannot be maintained, and uncomfortable experiences such as choking brought to users by the expansion of the intelligent mosquito net cannot be effectively relieved.

To this end, in some embodiments, after controlling the intelligent door to open, the interconnection control method of the present invention further includes:

acquiring an internal wind speed in an indoor environment space;

if the internal wind speed is greater than or equal to a preset wind speed value, the existing state is maintained;

if the internal wind speed is smaller than the preset wind speed value, continuing to judge whether a second condition of opening the intelligent window is met;

And controlling the smart window to open if the second condition is satisfied

If the second condition is not met, the air conditioner is started, and the air conditioner is controlled to operate in a natural air supply mode so as to blow natural air which is not subjected to heat exchange to the indoor environment space.

When the internal wind speed in the indoor environment space is larger than or equal to a preset wind speed value, the intelligent door is opened, a relatively obvious airflow circulation effect is achieved in the indoor environment space, and the existing state is kept, namely the state of the intelligent door, the intelligent window and the air conditioner does not need to be adjusted.

When the internal wind speed in the indoor environment space is smaller than a preset wind speed value, the air flow circulation effect in the indoor environment space is very small after the intelligent door is opened, and other measures are further needed to be taken to effectively relieve uncomfortable experience brought by the expansion of the intelligent mosquito net to a user. Therefore, whether the second condition of opening the intelligent window is further judged at this time to selectively open the intelligent window or open the natural air supply mode of the air conditioner, so that the obvious ventilation effect can be formed in the indoor environment space, and the comfort experience of the user in the intelligent mosquito net is improved.

Specifically, fig. 2 is a schematic flowchart of an interconnection control method of an air conditioner and an intelligent device according to a second embodiment of the present invention, and referring to fig. 2, the interconnection control method of the present invention includes:

step S10, receiving a mosquito net unfolding signal;

step S20, judging whether the air conditioner is in an operation state, if not, turning to step S310;

step S310, judging whether a first condition of opening the intelligent door is met, if yes, turning to step S410, and if not, turning to step S510;

Step S410, controlling the intelligent door to open;

step S411, obtaining the internal wind speed in the indoor environment space;

step S412, judging whether the internal wind speed is greater than or equal to a preset wind speed value, if so, turning to step S413, otherwise, turning to step S510;

Step S413, maintaining the existing state;

Step S510, judging whether a second condition of opening the intelligent window is met, if yes, turning to step S610, otherwise, turning to step S710;

Step S610, controlling Smart Window opening, and

Step S710, starting the air conditioner and controlling the air conditioner to operate in a natural air supply mode to blow natural wind without heat exchange to the indoor environment space.

In some embodiments, the step of determining whether the first condition for opening the intelligent door is satisfied may specifically include:

detecting whether a human body exists in the space at the other side of the intelligent door, which is opposite to the indoor environment space;

If yes, determining that the first condition is not satisfied, and

If not, the first condition is judged to be satisfied.

If a human body exists in the space (for example, a living room) on the other side of the intelligent door, which is opposite to the indoor environment space, mutual interference may occur to each other after the intelligent door is opened, and thus it is determined that the first condition is not satisfied, that is, the intelligent door cannot be opened. If the other side space of the intelligent door, which is opposite to the indoor environment space, does not have a human body, the intelligent door can be opened without any interference to a user after being opened.

In some embodiments, the step of determining whether the second condition for opening the smart window is satisfied may specifically include:

acquiring the internal temperature and the internal wind speed in the indoor environment space and the external temperature and the external wind speed in the outdoor environment space;

Calculating a temperature difference between the internal temperature and the external temperature, and a wind speed difference between the internal wind speed and the external wind speed;

If the temperature difference is smaller than or equal to the preset temperature difference value and the wind speed difference is smaller than or equal to the preset wind speed difference value, judging that the second condition is met;

And if the temperature difference is larger than the preset temperature difference value or the wind speed difference is larger than the preset wind speed difference value, judging that the second condition is not met.

If the temperature difference between the internal temperature and the external temperature is small and the wind speed difference between the internal wind speed and the external wind speed is also small, the environmental parameters of the indoor environment space and the outdoor environment space are not different greatly, and the intelligent window is opened at the moment, so that the intelligent window is relatively suitable for opening.

If the temperature difference between the internal temperature and the external temperature is large, or the wind speed difference between the internal wind speed and the external wind speed is large, the indoor environment space and the outdoor environment space are large in temperature or wind speed difference, and large temperature fluctuation or wind speed fluctuation is generated in the indoor environment space after the intelligent window is opened, so that large somatosensory difference is brought to a user, and the intelligent window is unsuitable for opening.

In some embodiments, when the air conditioner is in a stop state, the interconnection control method of the present invention specifically includes:

Judging whether a second condition for opening the intelligent window is met or not according to a preset sequence;

if the second condition is met, controlling the intelligent window to be opened;

if the second condition is not met, continuing to judge whether the first condition of opening the intelligent door is met;

If the first condition is met, controlling the intelligent door to open and

If the first condition is not met, the air conditioner is started, and the air conditioner is controlled to operate in a natural air supply mode so as to blow natural air which is not subjected to heat exchange to the indoor environment space.

That is, when judging whether the first condition for opening the intelligent door and the second condition for opening the intelligent window are satisfied, the preset sequence is provided. In one embodiment, it may be determined whether the second condition is satisfied first, and only if the second condition is not satisfied, it is determined whether the first condition is satisfied.

Specifically, fig. 3 is a schematic flowchart of an interconnection control method of an air conditioner and an intelligent device according to a third embodiment of the present invention, and referring to fig. 3, the interconnection control method of the present invention includes:

step S10, receiving a mosquito net unfolding signal;

step S20, judging whether the air conditioner is in an operation state, if not, turning to step S320;

step S320, judging whether a second condition of opening the intelligent window is met, turning to step S420, and turning to step S520 if not;

step S420, controlling the intelligent window to be opened;

Step S520, continuously judging whether the first condition of opening the intelligent door is met, if yes, turning to step S620, otherwise, turning to step S720;

step S620, controlling the intelligent door to open, and

Step S720, the air conditioner is started and is controlled to operate in a natural air supply mode to blow natural wind without heat exchange to the indoor environment space.

The inventors have recognized that intelligent doors space the indoor environmental space from other spaces in the room (e.g., living room, hallway, etc.). Other spaces may be relatively closed or may be in communication with the outside, so that the ventilation effect in the indoor environment space is also different after the intelligent door is opened. If other spaces on the other side of the intelligent door are relatively closed, after the intelligent door is opened, the ventilation effect of the indoor environment space may be poor, the air flow circulation cannot be maintained, and uncomfortable experiences such as choking brought to users by the expansion of the intelligent mosquito net cannot be effectively relieved.

To this end, in some embodiments, after controlling the intelligent door to open, the interconnection control method of the present invention further includes:

acquiring an internal wind speed in an indoor environment space;

If the internal wind speed is greater than the preset wind speed value, the existing state is maintained;

If the internal wind speed is smaller than the preset wind speed value, starting the air conditioner, and controlling the air conditioner to operate in a natural air supply mode so as to blow natural wind which is not subjected to heat exchange to the indoor environment space.

When the internal wind speed in the indoor environment space is larger than or equal to a preset wind speed value, the intelligent door is opened, a relatively obvious airflow circulation effect is achieved in the indoor environment space, and the existing state is kept, namely the state of the intelligent door, the intelligent window and the air conditioner does not need to be adjusted.

When the internal wind speed in the indoor environment space is smaller than a preset wind speed value, the air flow circulation effect in the indoor environment space is very small after the intelligent door is opened, and other measures are further needed to be taken to effectively relieve uncomfortable experience brought by the expansion of the intelligent mosquito net to a user. However, the intelligent window is not easy to open at this time, and only the natural air supply mode of the air conditioner can be started, so that an obvious ventilation effect can be formed in the indoor environment space, and the comfort experience of users in the intelligent mosquito net is improved.

Specifically, fig. 4 is a schematic flowchart of an interconnection control method of an air conditioner and an intelligent device according to a fourth embodiment of the present invention, and referring to fig. 4, the interconnection control method of the present invention includes:

step S10, receiving a mosquito net unfolding signal;

step S20, judging whether the air conditioner is in an operation state, if not, turning to step S320;

step S320, judging whether a second condition of opening the intelligent window is met, turning to step S420, and turning to step S520 if not;

step S420, controlling the intelligent window to be opened;

Step S520, continuously judging whether the first condition of opening the intelligent door is met, if yes, turning to step S620, otherwise, turning to step S720;

step S620, controlling the intelligent door to be opened;

Step S621, obtaining the internal wind speed in the indoor environment space;

Step S622, judging whether the internal wind speed is greater than or equal to a preset wind speed value, if so, turning to step S623, otherwise, turning to step S720;

step S623, keep the existing state, and

Step S720, the air conditioner is started and is controlled to operate in a natural air supply mode to blow natural wind without heat exchange to the indoor environment space.

In some embodiments, the step of determining whether the second condition for opening the smart window is satisfied may specifically include:

acquiring indoor noise in an indoor environment space and outdoor noise in an outdoor environment space;

and if the noise difference between the indoor noise and the outdoor noise is larger than or equal to the preset noise value, judging that the second condition is not satisfied.

If the noise difference between the indoor noise and the outdoor noise is smaller than the preset noise value, the rest of the user is not affected even if the intelligent window is opened, so that the second condition can be judged to be met. Otherwise, the rest of the user is affected, and the second condition is not satisfied.

In some embodiments, the step of determining whether the first condition for opening the intelligent door is satisfied may specifically include:

acquiring indoor noise in an indoor environment space and outdoor noise in another side space of the intelligent door opposite to the indoor environment space;

and if the noise difference between the indoor noise and the outdoor noise is larger than or equal to the preset noise value, judging that the first condition is not met.

If the noise difference between the indoor noise and the outdoor noise is smaller than the preset noise value, the rest of the user cannot be influenced even if the intelligent door is opened, so that the first condition can be judged to be met. Otherwise, the rest of the user is affected, and the first condition is not satisfied.

In some embodiments, after controlling the smart window to open, the interconnection control method of the present invention further comprises:

Acquiring an internal wind speed in an indoor environment space, and

And adjusting the opening degree of the intelligent window according to the internal wind speed.

The inventor realizes that the opening degree of the intelligent window can influence the somatosensory wind speed in the indoor environment space, so that the opening degree of the intelligent window can be adjusted according to the acquired current internal wind speed, and the airflow circulation effect in the indoor environment space can just meet the requirement of a user on wind sense.

The invention also provides an interconnection control device of the air conditioner and the intelligent equipment, wherein the intelligent equipment comprises an intelligent mosquito net, an intelligent door and an intelligent window which are positioned in the same indoor environment space as the air conditioner.

Fig. 5 is a schematic block diagram of an interconnection control apparatus according to one embodiment of the present invention. The interconnection control apparatus 20 of the present invention includes a processor 21 and a memory 22, the memory 22 storing a machine executable program 23, and the machine executable program 23 when executed by the processor 21 is configured to implement the interconnection control method described in any of the above embodiments.

Specifically, the processor 21 may be a central processing unit (central processing unit, abbreviated as CPU), or a digital processing unit, or the like. The processor 21 transmits and receives data through a communication interface. The memory 22 is used for storing programs executed by the processor 21. Memory 22 is any medium that can be used to carry or store desired program code in the form of instructions or data structures and that can be accessed by a computer, and may be a combination of memories. The above-described machine-executable program 23 may be downloaded from a computer-readable storage medium to a corresponding computing/processing device or downloaded to a computer or an external memory device via a network (e.g., the internet, a local area network, a wide area network, and/or a wireless network).

As mentioned above, the interconnection control method of the air conditioner and the intelligent device according to any of the above embodiments is described from the interconnection control device 20 side, that is, the interconnection control device 20 performs the relevant steps. In a specific embodiment, the interconnection control device 20 is in data connection with an air conditioner and an intelligent device, and can arrange network side devices such as a server and a cloud end, acquire various data of a set space through a network, and remotely send instructions to the air conditioner and the intelligent device to realize relevant adjustment.

The interconnection control device 20 may be various centralized control devices, and is arranged in a set space and used for controlling the air conditioner and the intelligent device. The data connection manner of the interconnection control device 20 and the air conditioner and the intelligent device includes, but is not limited to, wireless transmission, infrared transmission, ultrasonic transmission and the like.

In some embodiments, the interconnection control device 20 may also be disposed inside the air conditioner as a part of the air conditioner, and be in data connection with the own controller of the air conditioner, for example, the air conditioner is internally provided with a dedicated interconnection control device, and cooperates with a controller dedicated to performing component control.

The present invention also provides an air conditioner, and fig. 6 is a schematic block diagram of an air conditioner according to an embodiment of the present invention. The air conditioner 1 has the interconnection control device 20 described in the above embodiment. That is, the interconnection control device 20 may not be provided outside the air conditioner 1, but may be provided on the air conditioner 1. The interconnection control device 20 and the controller of the air conditioner 1 can be the same component, that is, the interconnection control device 20 is used for controlling the work of the air conditioner 1, and also is used for receiving signals of the intelligent mosquito net and sending signals to the intelligent mosquito net.

Or the interconnection control device 20 and the controller of the air conditioner can be different components, namely the controller is used for controlling the work of the air conditioner, and the interconnection control device 20 is used for receiving signals of the intelligent equipment and sending signals to the intelligent equipment. But the interconnection control device 20 also communicates with the controller to receive signals from the controller of the air conditioner itself and to send signals to the controller.

In the description of the present embodiment, a description referring to the terms "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

By now it should be appreciated by those skilled in the art that while a number of exemplary embodiments of the invention have been shown and described herein in detail, many other variations or modifications of the invention consistent with the principles of the invention may be directly ascertained or inferred from the present disclosure without departing from the spirit and scope of the invention. Accordingly, the scope of the present invention should be understood and deemed to cover all such other variations or modifications.

Claims (10)

1. An interconnection control method of an air conditioner and intelligent equipment, wherein the intelligent equipment comprises an intelligent mosquito net, an intelligent door and an intelligent window which are positioned in the same indoor environment space as the air conditioner, and the intelligent mosquito net, the intelligent door and the intelligent window are arranged in the same indoor environment space

The interconnection control method comprises the following steps:

The intelligent mosquito net comprises a mosquito net body, a mosquito net unfolding signal and a mosquito net control unit, wherein the mosquito net unfolding signal is generated when the intelligent mosquito net responds to a unfolding starting instruction received by the intelligent mosquito net to execute unfolding action;

judging whether the air conditioner is in an operating state or not;

If not, judging whether the first condition of opening the intelligent door and the second condition of opening the intelligent window are met;

And controlling the opening of the corresponding intelligent door and/or intelligent window if at least one of the first condition and the second condition is satisfied

And if the first condition and the second condition are not met, starting the air conditioner, and controlling the air conditioner to operate in a natural air supply mode so as to blow natural air which is not subjected to heat exchange to the indoor environment space.

2. The interconnection control method of claim 1, wherein

When the air conditioner is in a stop state, the interconnection control method specifically comprises the following steps:

Judging whether a first condition for opening the intelligent door is met or not according to a preset sequence;

if the first condition is met, controlling the intelligent door to be opened;

if the first condition is not met, continuing to judge whether a second condition for opening the intelligent window is met;

and controlling the smart window to open if the second condition is satisfied

And if the second condition is not met, starting the air conditioner, and controlling the air conditioner to operate in a natural air supply mode so as to blow natural air which is not subjected to heat exchange to the indoor environment space.

3. The interconnection control method of claim 2, wherein

After controlling the intelligent door to open, the interconnection control method further comprises:

Acquiring the internal wind speed in the indoor environment space;

if the internal wind speed is greater than or equal to a preset wind speed value, the existing state is maintained;

If the internal wind speed is smaller than the preset wind speed value, continuing to judge whether a second condition for opening the intelligent window is met or not;

and controlling the smart window to open if the second condition is satisfied

And if the second condition is not met, starting the air conditioner, and controlling the air conditioner to operate in a natural air supply mode so as to blow natural air which is not subjected to heat exchange to the indoor environment space.

4. The interconnection control method of claim 2, wherein

The step of judging whether the first condition of opening the intelligent door is met comprises the following steps:

Detecting whether a human body exists in the space at the other side of the intelligent door, which is opposite to the indoor environment space;

if yes, determining that the first condition is not satisfied, and

If not, judging that the first condition is met;

And/or;

The step of judging whether the second condition of opening the smart window is satisfied specifically includes:

Acquiring the internal temperature and the internal wind speed in the indoor environment space and the external temperature and the external wind speed in the outdoor environment space;

Calculating a temperature difference between the internal temperature and the external temperature, and a wind speed difference between the internal wind speed and the external wind speed;

If the temperature difference is smaller than or equal to a preset temperature difference value and the wind speed difference is smaller than or equal to a preset wind speed difference value, judging that the second condition is met;

and if the temperature difference is larger than the preset temperature difference value or the wind speed difference is larger than the preset wind speed difference value, judging that the second condition is not met.

5. The interconnection control method of claim 1, wherein

When the air conditioner is in a stop state, the interconnection control method specifically comprises the following steps:

Judging whether a second condition for opening the intelligent window is met or not according to a preset sequence;

if the second condition is met, controlling the intelligent window to be opened;

if the second condition is not met, continuing to judge whether a first condition for opening the intelligent door is met;

if the first condition is met, controlling the intelligent door to open, and

And if the first condition is not met, starting the air conditioner, and controlling the air conditioner to operate in a natural air supply mode so as to blow natural air which is not subjected to heat exchange to the indoor environment space.

6. The interconnection control method of claim 5, wherein

After controlling the intelligent door to open, the interconnection control method further comprises:

Acquiring the internal wind speed in the indoor environment space;

if the internal wind speed is greater than or equal to a preset wind speed value, the existing state is maintained;

and if the internal wind speed is smaller than the preset wind speed value, starting the air conditioner, and controlling the air conditioner to operate in a natural air supply mode so as to blow natural wind which is not subjected to heat exchange to the indoor environment space.

7. The interconnection control method of claim 5, wherein

The step of judging whether the second condition of opening the smart window is satisfied specifically includes:

Acquiring indoor noise in the indoor environment space and outdoor noise in the outdoor environment space;

If the noise difference between the indoor noise and the outdoor noise is larger than or equal to the preset noise value, judging that the second condition is not met;

And/or;

The step of judging whether the first condition of opening the intelligent door is met specifically comprises the following steps:

acquiring indoor noise in the indoor environment space and outdoor noise in the other side space of the intelligent door opposite to the indoor environment space;

And if the noise difference between the indoor noise and the outdoor noise is larger than or equal to the preset noise value, judging that the first condition is not met.

8. The interconnection control method of claim 2 or 5, wherein

After controlling the smart window to open, the interconnection control method further includes:

Acquiring an internal wind speed in the indoor environment space, and

And adjusting the opening degree of the intelligent window according to the internal wind speed.

9. An interconnection control device of an air conditioner and intelligent equipment, wherein the intelligent equipment comprises an intelligent mosquito net, an intelligent door and an intelligent window which are positioned in the same indoor environment space as the air conditioner, and the interconnection control device comprises:

A processor and a memory, the memory storing a machine executable program, and the machine executable program when executed by the processor is for implementing the interconnection control method according to any one of claims 1-8.

10. An air conditioner comprising the interconnection control apparatus according to claim 9.