CN115751678A - Intelligent control method for air conditioner - Google Patents

Abstract

The invention discloses an intelligent control method of an air conditioner, which comprises the following steps: installing an air conditioner connecting seat in a socket, inserting a plug of an air conditioner into the air conditioner connecting seat, and installing a human body existence sensing device in a room; the human body existence sensing device monitors whether a human body exists in the room or not, and if not, the next step is executed; the human body existence sensing device sends human body nonexistence information to the air conditioner connecting seat; the air conditioner connecting seat cuts off the power supply of the air conditioner. This application has induction system to monitor human existence through the human body, is cut off the power supply to the air conditioner by the air conditioner connecting seat according to human not existence information again, need not to consider to interfere, both can be intelligent through the power that the air conditioner connecting seat cut off the air conditioner, even the people also can realize intelligent outage because forget to close the air conditioner to the electric power energy can be saved.

Description

Intelligent control method for air conditioner

Technical Field

The invention relates to the technical field of air conditioner energy conservation, in particular to an intelligent control method of an air conditioner.

Background

The hotel places of the residential accommodations are formed by reforming existing built rooms, wiring decoration is finished at the initial stage, and large-scale line reformation is generally not performed after the residential accommodations are converted, so that a power supply of the existing residential accommodations generally does not adopt a plug-in card power-taking switch for control but adopts an independent power supply line, the phenomenon that after a guest enters the hotel, the guest leaves a use scene and forgets to turn off an air conditioner so as to waste a large amount of electric energy often occurs, and the problem that how to avoid the phenomenon that the power supply of the air conditioner is wasted is urgently needed to be solved by the existing residential accommodations.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an intelligent control method for an air conditioner.

The invention discloses an intelligent control method of an air conditioner, which comprises the following steps:

installing an air conditioner connecting seat in a socket, inserting a plug of an air conditioner into the air conditioner connecting seat, and installing a human body existence sensing device in a room;

the human body existence sensing device monitors whether a human body exists in the room or not, and if not, the next step is executed;

the human body existence sensing device sends human body nonexistence information to the air conditioner connecting seat;

the air conditioner connecting seat cuts off the power supply of the air conditioner.

According to one embodiment of the invention, the human body existence sensing device monitors whether a human body exists in a room or not, and if so, the next step is executed;

the air conditioner connecting seat receives the control mode sent by the remote controller and adjusts the air conditioner according to the control mode.

According to an embodiment of the present invention, the control mode includes a segment control mode, in which an operator can preset at least two air conditioning modes through a remote controller, and a time between two adjacent air conditioning modes is adjustable.

According to an embodiment of the present invention, the control mode further includes a delay control mode, and in the delay control mode, the operator can specifically control the air-conditioning mode by delaying the time through the remote controller.

According to one embodiment of the present invention, an air conditioner connecting seat comprises an air conditioner power circuit, a first control circuit, a first communicator, a commercial power input plug and a commercial power output socket; the first control circuit is electrically connected with the power circuit and the first communicator respectively, and the power circuit is electrically connected with the commercial power input plug and the commercial power output socket respectively; the commercial power input plug is electrically connected with commercial power, and the commercial power output socket is electrically connected with the air conditioner;

the human body existence sensing device comprises a sensor power circuit, a second control circuit, a second communicator and a human body existence sensor; the second control circuit is respectively and electrically connected with the inductor power circuit, the second communicator and the human body existence inductor, and the second communicator is in wireless communication connection with the first communicator; the human body existence sensor is used for sensing whether a human body exists in a room or not and transmitting the information that the human body does not exist to the first control circuit, and the first control circuit controls the air conditioner power supply circuit to be disconnected according to the information that the human body does not exist.

According to one embodiment of the present invention, the human presence sensor is an infrared or radar sensing chip.

According to an embodiment of the present invention, the air conditioner connecting seat further includes a remote control circuit and a first memory integrated in the remote control circuit, wherein an air conditioner infrared remote control information code library is stored in the first memory, and the remote control circuit is in wireless communication with the remote controller.

According to one embodiment of the present invention, the remote controller has a voice recognition module for voice recognition and forming corresponding control instruction information.

According to one embodiment of the invention, the remote controller is further provided with a second memory, and the second memory stores an electric appliance infrared remote control information code library.

According to one embodiment of the invention, the infrared remote control information code library of the electric appliance comprises one or more of an air conditioner infrared code library, a television infrared code library, an intelligent fan infrared code library, an intelligent illuminating lamp infrared code library and an intelligent curtain infrared code library.

The beneficial effect of this application lies in: human existence induction system exists to monitor the human existence, is cut off the power supply to the air conditioner by the air conditioner connecting seat according to human not existence information again, need not to consider to interfere, both can be intelligent through the power that the air conditioner connecting seat cut off the air conditioner, even the people also can realize intelligent outage because forget to close the air conditioner to the electric power energy can be saved. In addition, the air conditioner control method and the air conditioner control system solve the problems that the requirements of a human body for the air conditioner modes are different in different time periods and the air conditioner modes cannot be intelligently regulated and controlled after being selected through the ideas of a segmented control mode and a time delay control module, and greatly enrich the intelligence of air conditioner control.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

FIG. 1 is a control block diagram of an intelligent control method of an air conditioner in an embodiment;

FIG. 2 is a schematic control diagram of an air conditioner connecting base in an embodiment;

FIG. 3 is a schematic diagram of a human presence sensing apparatus in an embodiment;

fig. 4 is a flowchart of an intelligent control method for an air conditioner in an embodiment.

Detailed Description

In the following description, for purposes of explanation, numerous implementation details are set forth in order to provide a thorough understanding of the various embodiments of the present invention. It should be understood, however, that these implementation details should not be taken to limit the invention. That is, in some embodiments of the invention, such implementation details are not necessary. In addition, for the purpose of simplifying the drawings, certain well-known and conventional structures and components are shown in the drawings in a simplified schematic manner.

It should be noted that all directional indicators in the embodiments of the present invention, such as upper, lower, left, right, front and rear \8230; \8230, are only used to explain the relative positional relationship, movement, etc. between the components in a specific posture as shown in the drawings, and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to the first, the second, etc. in the present invention are only used for description purposes, do not particularly refer to order or sequence, and do not limit the present invention, but only distinguish the elements or operations described in the same technical terms, and are not understood to indicate or imply relative importance or implicitly indicate the number of the indicated technical features. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of the feature. In addition, technical solutions between the embodiments may be combined with each other, but must be based on the realization of the technical solutions by a person skilled in the art, and when the technical solutions are contradictory to each other or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

For a further understanding of the invention, its nature and utility, reference should be made to the following examples, taken in conjunction with the accompanying drawings, in which:

example one

Referring to fig. 1 and 2, fig. 1 is a control block diagram of an air conditioner induction power saving system in an embodiment, and fig. 2 is a control schematic diagram of an air conditioner connecting seat in an embodiment. The air conditioner induction power-saving system in the embodiment comprises an air conditioner connecting seat 1 and at least one human body existence induction device 2. The air conditioner connecting seat 1 comprises an air conditioner power supply circuit 11, a first control circuit 12, a first communicator 13, a commercial power input plug 14 and a commercial power output socket 15; the first control circuit 12 is electrically connected to the power circuit 11 and the first communicator 13, respectively, and the power circuit 11 is electrically connected to the commercial power input plug 14 and the commercial power output socket 15, respectively; the commercial power input plug 14 is electrically connected with commercial power, and the commercial power output socket 15 is electrically connected with an air conditioner. The human body existence sensing device 2 is used for sensing whether a human body exists in a room or not and transmitting human body existence information to the first communicator 13, and the first control circuit 12 receives the human body existence information transmitted by the first communicator 13 and controls the on-off of the air conditioner power supply circuit 11 according to the human body existence information.

When the air conditioner is used, the commercial power input plug 14 is inserted into the commercial power socket, then the plug of the air conditioner is inserted into the commercial power output socket 15, so that the power supply to the air conditioner needs to pass through the air conditioner connecting seat 1, when the human body existence sensing device 2 does not monitor the existence of people in a residential room, the first control circuit 12 can disconnect the air conditioner power supply circuit 11 according to the human body nonexistence information, and therefore the power supply of the air conditioner is disconnected, and power utilization resources are saved. In addition, the air conditioner connecting seat 1 and the human body existence induction device 2 are installed without damaging the original circuit, are convenient to install, rectify and modify and are suitable for civil and residential reconstruction. In addition, the air conditioner connecting seat 1 and the human body existence sensing devices 2 are in a wireless connection mode, and the number and the positions of the human body existence sensing devices 2 can be flexibly set conveniently. The specific number of the human presence sensing devices 2 in the present embodiment may be determined according to specific situations, and it is sufficient to correspondingly set one human presence sensing device 2 in a room where an air conditioner is generally installed. In a specific installation, the human presence sensing device 2 may be installed at a ceiling. In other embodiments, one of the human presence sensing devices 2 may be disposed in a toilet to monitor the presence of human in the toilet, or the first control circuit 12 may delay the turning off of the air conditioner power circuit 11 according to the absence of human, for example, by 20min, so as to prevent the air conditioner from being turned off due to the fact that the person in the room only goes to the toilet for a short time.

Referring also to fig. 3, fig. 3 is a schematic diagram of a human presence sensing device in an embodiment. Further, the human presence sensing apparatus 2 includes a sensor power circuit 21, a second control circuit 22, a second communicator 23, and a human presence sensor 24; the second control circuit 22 is electrically connected with the sensor power circuit 21, the second communicator 23 and the human body presence sensor 24 respectively, and the second communicator 23 is in wireless communication connection with the first communicator 13; the human presence sensor 24 is used to sense whether a human is present in the room.

The second communicator 23 and the first communicator 13 are in wireless communication connection to realize wireless communication connection between the human body presence sensing device 2 and the air conditioner connecting seat 1, and the second communicator 23 and the first communicator 13 can adopt an existing wireless communication chip, for example, the wireless communication chip SI443.

The human presence sensor 24 in this embodiment is an infrared or radar sensing chip, which can sense the presence and activity of a human body in an area, for example, the states of static, micro-motion, and activity, and the human presence sensor 24 is generally disposed in a room to complete human presence monitoring.

The air conditioner power supply circuit 11 and the inductor power supply circuit 21 in this embodiment may both adopt existing power supply circuits, and are not described herein again. The inductor power circuit 21 is connected to the mains supply, and the air conditioner power circuit 11 is controlled by the first control circuit 12 to be turned on and off. The first control circuit 12 and the second control circuit 22 may also be conventional control circuits, and are not described herein. The second control circuit 22 controls the inductor power circuit 21 to be in a long-pass state, so as to maintain the monitoring of the human presence inductor 24.

Air conditioner connecting seat 1 still has the casing, and commercial power input plug 14 and commercial power output socket 15 are conventional plug, socket promptly in this embodiment, and both assemble on the casing, and install in the casing after the other parts of air conditioner connecting seat 1 are integrated on the circuit board, and socket plug design can be referred to in concrete structural design, and here is no longer described any more.

Preferably, the air conditioner induction power-saving system further comprises a remote controller 3, the air conditioner connecting seat 1 further comprises a remote control circuit 16 and a first memory integrated in the remote control circuit 16, an air conditioner infrared remote control information code library is stored in the first memory, and the remote control circuit 16 is in wireless communication connection with the remote controller 3. Through the setting of remote controller 3, the operator of being convenient for directly operates air conditioner connecting seat 1, more convenient operation. And a first memory integrated with the remote control circuit 16 of the air conditioner connecting seat 1 stores an air conditioner infrared remote control information code library so as to facilitate the functional operation of the air conditioner connecting seat 1 on the air conditioner. In this embodiment, when the human presence sensor 24 does not monitor the presence of a person in the living room, the first control circuit 12 transmits the power-off instruction information to the remote control circuit 16 according to the human absence information, and the remote control circuit 16 sends the shutdown instruction to the air conditioner according to the coding instruction in the infrared remote control information code library of the air conditioner, so as to disconnect the power supply of the air conditioner. In this embodiment, the remote control circuit 16 and the remote controller 3 may be an existing air conditioner remote control circuit and an existing remote controller, which are not described herein again. Preferably, the air conditioner infrared remote control information code library comprises infrared remote control information code libraries of air conditioners of various brands, so that an operator can conveniently perform function control on the air conditioners of various brands through the air conditioner connecting seat 1.

Preferably, the remote controller 3 has a voice recognition module, and the voice recognition module is used for voice recognition and forming corresponding control instruction information. Therefore, the air conditioner control can be realized by realizing intelligent voice input through operation, the function can be realized by adopting the existing voice input and recognition chip integrated in the remote controller 3, or the existing voice remote controller is adopted, and the description is omitted here.

Preferably, the remote controller 3 further has a second memory, and the second memory stores an infrared remote control information code library of the electric appliance. The infrared remote control information code library of the electric appliance comprises one or more of an air conditioner infrared code library, a television infrared code library, an intelligent fan infrared code library, an intelligent illuminating lamp infrared code library and an intelligent curtain infrared code library. It can be understood that a plurality of electric appliances are stored in the resident room and can be controlled by the remote controller, so that the infrared code library of the plurality of electric appliances is stored in the second memory of the remote controller 3, so as to control the plurality of electric appliances, and the remote controller 3 in the embodiment becomes a universal remote controller. Preferably, the remote controller 3 can also integrate a chip with a learning function to realize the learning and upgrading of the infrared remote control information code library of the electric appliance. In a specific application, the remote controller 3 may be an existing universal remote controller capable of learning, and will not be described herein.

The air conditioner induction power-saving system in the embodiment is applied as follows: after the guest enters the guest room, the remote controller 3 is held by hand to input voice commands, for example, the air conditioner is turned on, the temperature is adjusted to 26 degrees, and the air conditioner is turned on. At this time, the human presence sensor 24 will always monitor whether the guest in the guest room exists, and if so, the air conditioner is always in the power supply state. When a person leaves a guest room, the human presence sensor 24 does not detect the presence of the person in the room within a preset time, for example, 20min, and the presence of the person in the room is not detected within the preset time, the non-detected human presence information is wirelessly transmitted to the first control circuit 12 through the second communicator 23 and the first communicator 13, and the first control circuit 12 controls the air conditioner power circuit 11 to be switched off, the air conditioner is switched off, or the remote control circuit 16 controls the air conditioner to be switched off, so that the power is saved.

Example two

Referring to fig. 4, fig. 4 is a flowchart of an intelligent control method of an air conditioner in an embodiment. The intelligent control method of the air conditioner in the embodiment comprises the following steps:

s1, installing an air conditioner connecting seat 1 in a socket, inserting a plug of an air conditioner into the air conditioner connecting seat 1, and installing a human body existence sensing device 2 in a room;

s2, the human body existence sensing device 2 monitors whether a human body exists in the room or not, and if not, the next step is executed;

s3a, the human body existence sensing device 2 sends human body nonexistence information to the air conditioner connecting seat 1;

and S4a, the air conditioner connecting seat 1 cuts off the power supply of the air conditioner.

Human existence induction system 2 monitors human existence, is cut off the power supply to the air conditioner by air conditioner connecting seat 1 according to human nonexistence information again, need not to think to interfere, both can be intelligent through the power of air conditioner connecting seat 1 shutoff air conditioner, even the people also can realize intelligent outage because forget to close the air conditioner to the electric power energy can be saved.

For the specific processes of S1, S2, S3a, and S4a, reference may be made to the contents in the first embodiment, and details are not described herein again.

Referring to fig. 4 again, further, in step S2, the human presence sensing device 2 monitors whether a human body is present in the room, and if so, performs the next step;

and S3b, the air conditioner connecting seat 1 receives the control mode sent by the remote controller 3 and adjusts the air conditioner according to the control mode.

The control mode that prestores in remote controller 3 to can realize the multiple intelligent control of air conditioner, set up according to user's hobby, in order to strengthen user's experience. The control mode in this embodiment is stored in the second memory of the remote controller 3.

The control modes in the intelligent air conditioner control method in this embodiment include a segmented control mode, in which an operator can preset at least two air conditioner modes through the remote controller 3, and the time between two adjacent air conditioner modes is adjustable. The sectional control mode creatively solves the problem that different requirements of human bodies for air-conditioning modes in different time periods.

It can be understood that users of the air conditioner have their own habits or preferences of using the air conditioner, or want to enjoy different air conditioning modes in different time periods, and the air conditioning modes in this embodiment include but are not limited to the existing air conditioning modes of cooling, heating, blowing, ventilating, sleeping, muting, and the like, and are not described herein again. The segmented control mode may enable an operator to enjoy different air conditioning modes at different time periods according to his own taste or physical habits. For example, a person just returns from the outside to a resident room for rest, and needs to be cooled down quickly in the room at the beginning, needs to be weakened in wind speed after bathing, and needs weaker wind power, and the temperature and volume suitable for sleeping when sleeping. At this time, the segmented control mode can be set into three segments, such as a strong wind refrigeration mode, a soft wind refrigeration mode and a sleep mode, at this time, an operator can set the mode to be changed into the soft wind refrigeration mode after 30 minutes of the strong wind refrigeration mode, and the mode to be changed into the sleep mode after 2 hours of the soft wind refrigeration mode. Thus, the operator can realize the intelligent control of the air conditioner according to the favorite habit of the operator through the remote controller 3. In specific application, a coded instruction capable of executing the control mode is stored in the second memory of the remote controller 3, a segmented control mode button is arranged on the remote controller 3, and after the button is pressed, each air-conditioning mode and time selection can be carried out, and the air-conditioning mode and the time selection are individually designed. Or, the voice command input of the control mode may also be directly performed through the voice recognition module of the remote controller 3, for example, the voice "select the segmented control mode", "the first stage is the strong wind cooling mode, and the duration is 30 minutes", and the like.

Preferably, the control mode further includes a delay control mode, and in the delay control mode, the operator can specifically control the air-conditioning mode in a delayed manner through the remote controller 3. The delay control mode creation solves the problem that intelligent regulation cannot be achieved after the air conditioner mode is selected.

It will be appreciated that the user of the air conditioner will often want to make minor adjustments as time goes backwards after the selection of the air conditioning mode, for example, in hot summer, turn on the air conditioner before falling asleep, set the air conditioner to the cooling mode, and set the air conditioner to a relatively low temperature, for example, 21 degrees, but after sleeping it will tend to catch a cold and wake up even a cold, and it is still desirable that the temperature in the cooling mode can be raised, for example, by 2 degrees in half an hour, by 2 degrees again after an hour, etc. The time delay control mode can lead a user to adjust the temperature to different temperatures within different time periods in advance, and the desired fine adjustment effect can be obtained through a plurality of time delay control instructions. In specific application, the time and condition of the delay control in the air-conditioning mode can be selected by setting a delay control mode button on the remote controller 3, or the delay instruction can be directly input through a voice recognition module of the remote controller 3. For example, in winter, the user wants to form different temperatures for the temperature of the room in the heating mode in different time periods, the user can hold the remote controller 3 with the hand, first set the current air conditioner temperature to 30 degrees, then say "delay control mode" is selected, then say "half hour is adjusted by 2 degrees later", then say "one hour is adjusted by 4 degrees later", then say "three hours is adjusted by 5 degrees later", so that the air conditioner can realize the following intelligent control process, in the heating mode, the initial temperature is 30 degrees, 28 degrees after half hour, 26 degrees after one hour, and 25 degrees after three hours. Therefore, the people can obtain different desired ambient temperatures in different time periods in the sleeping state.

In conclusion, the human body existence sensing device monitors the existence of the human body, the air conditioner is powered off by the air conditioner connecting seat according to the non-existence information of the human body, interference does not need to be considered, the power supply of the air conditioner can be intelligently cut off by the air conditioner connecting seat, and intelligent power off can be realized even if a person forgets to turn off the air conditioner, so that the electric power energy is saved. In addition, the air conditioner control method and the air conditioner control device solve the problems that the requirements of a human body for the air conditioner modes are different in different periods and the air conditioner modes cannot be intelligently regulated and controlled after being selected through the ideas of a segmented control mode and a delay control module, and greatly enrich the intelligence of air conditioner control.

The above description is only an embodiment of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (10)

1. An intelligent control method for an air conditioner is characterized by comprising the following steps:

the air conditioner connecting seat (1) is arranged in a socket, a plug of an air conditioner is inserted into the air conditioner connecting seat (1), and the human body existence sensing device (2) is arranged in a room;

the human body existence sensing device (2) monitors whether a human body exists in a room or not, and if not, the next step is executed;

the human body existence sensing device (2) sends human body nonexistence information to the air conditioner connecting seat (1);

the air conditioner connecting seat (1) cuts off the power supply of the air conditioner.

2. The intelligent control method of the air conditioner according to the claim 1, characterized in that the human existence sensing device (2) monitors whether the human exists in the room, if yes, the next step is executed;

the air conditioner connecting seat (1) receives the control mode sent by the remote controller (3) and adjusts the air conditioner according to the control mode.

3. The intelligent control method for the air conditioner is characterized in that the control modes comprise a segmented control mode, in the segmented control mode, an operator can preset at least two air conditioner modes through the remote controller (3), and the time between every two adjacent air conditioner modes is adjustable.

4. The intelligent control method for the air conditioner is characterized in that the control modes further comprise a delay control mode, and in the delay control mode, an operator can specifically control the air conditioner mode in a delay mode through a remote controller (3).

5. The intelligent control method for the air conditioner according to any one of claims 1 to 4, wherein the air conditioner connecting seat (1) comprises an air conditioner power supply circuit (11), a first control circuit (12), a first communicator (13), a commercial power input plug (14) and a commercial power output socket (15); the first control circuit (12) is electrically connected with the power circuit (11) and the first communicator (13) respectively, and the power circuit (11) is electrically connected with the commercial power input plug (14) and the commercial power output socket (15) respectively; the mains supply input plug (14) is electrically connected with a mains supply, and the mains supply output socket (15) is electrically connected with an air conditioner; the human presence sensing device (2) comprises an inductor power circuit (21), a second control circuit (22), a second communicator (23) and a human presence inductor (24); the second control circuit (22) is electrically connected with the inductor power circuit (21), the second communicator (23) and the human body presence inductor (24), respectively, and the second communicator (23) is in wireless communication connection with the first communicator (13); the human body presence sensor (24) is used for sensing whether a human body is present in a room or not and transmitting the information that the human body is not present to the first control circuit (12), and the first control circuit (12) controls the air conditioner power supply circuit (11) to be switched off according to the information that the human body is not present.

6. The intelligent control method of air conditioners according to claim 5, wherein the human presence sensor (24) is an infrared or radar sensing chip.

7. The intelligent control method of the air conditioner according to claim 5, wherein the air conditioner connecting base (1) further comprises a remote control circuit (16) and a first memory integrated in the remote control circuit (16), wherein an air conditioner infrared remote control information code library is stored in the first memory, and the remote control circuit (16) is in wireless communication connection with the remote controller (3).

8. The intelligent control method of the air conditioner is characterized in that the remote controller (3) is provided with a voice recognition module, and the voice recognition module is used for voice recognition and forming corresponding control instruction information.

9. The intelligent control method of the air conditioner according to claim 4, wherein the remote controller (3) is further provided with a second memory, and an electrical appliance infrared remote control information code library is stored in the second memory.

10. An intelligent control method for an air conditioner according to claim 9, wherein the infrared remote control information code library of the electric appliance comprises one or more of an infrared code library of the air conditioner, an infrared code library of a television, an infrared code library of an intelligent fan, an infrared code library of an intelligent illuminating lamp and an infrared code library of an intelligent curtain.

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