CN110687822A - Intelligent household system - Google Patents

Abstract

The invention relates to an intelligent home system, which comprises: a refrigerator; an air conditioner that adjusts temperature and air quality in a home environment; a lighting device that adjusts brightness in a home environment; the floor heating equipment is used for adjusting the ground temperature in the home environment; and a control device which controls the refrigerator, the air conditioner, the lighting device, and the floor heating device to perform any one of a full-person outgoing mode, a partial outgoing mode, a vacation mode, and a returning-to-home mode according to a distance between a family member and a room and a duration of the distance, which are acquired by an infrared sensor or a GPS.

Description

Intelligent household system

Technical Field

The invention relates to an intelligent home system.

Background

In a conventional air conditioning system, a detection device for determining a distance from a user to a room is generally provided, and a current state of the user is determined based on the distance from the user to the room detected by the detection device. For example, when the user is in a close distance from the room, it is determined that the user is about to enter the room, and the air conditioner is turned on and the temperature of the air conditioner is appropriately adjusted. However, such techniques are only suitable for use where the user is at home, i.e. not too far from the room.

In contrast, when the user leaves home, it is proposed that the remote control device detects the distance between the user and the room, determines the current state of the user, and controls the on/off of the air conditioner.

For example, patent document 1 discloses an air conditioning system with a remote positioning function, which includes at least one air conditioner, and the air conditioner is further provided with: the communication module is used for receiving the control parameters of the air conditioner and feeding back the running state of the air conditioner; the air conditioning system further includes: the control module is used for assisting in controlling the state of the air conditioner; the remote control device acquires the physical position information of the device through a wireless network; the remote control device transmits the acquired physical position information to the control module, the control module controls the communication module to receive and send data, judges whether the current state meets the set condition or not according to the received data, and adjusts the running state of the air conditioner in real time according to the result.

Documents of the prior art

Patent document 1: CN1889614A

However, patent document 1 relates only to control of the air conditioner, and does not relate at all to how to control other electric devices in a home. Further, patent document 1 does not describe how to handle the manual operation by the user while controlling the air conditioner, that is, how to control the air conditioner when the manual operation by the user occurs. Therefore, according to the technical solution of patent document 1, not only the other electrical devices in the home cannot be controlled, but also a system error may occur in the air conditioning system when a user performs a manual operation, and the functions of the smart home system cannot be exerted to the maximum extent, and the most comfortable home environment cannot be provided to the user.

Disclosure of Invention

An object of the present invention is to provide an intelligent home system, which can dynamically control on and off of various electrical devices in a room by acquiring a distance between a user and the room in real time using a remote measuring device such as an infrared sensor or a GPS, thereby providing a comfortable intelligent home environment for the user.

Another object of the present invention is to provide a smart home system, which can change an operation mode of the smart home system in real time when a user status changes, so that the function of the smart home system can be performed to the maximum extent, and a most comfortable smart home environment can be provided to the user.

In a first aspect of a smart home system according to a first aspect of the present invention, a smart home system includes: a refrigerator; an air conditioner that adjusts temperature and air quality in a home environment; a lighting device that adjusts brightness in a home environment; the floor heating equipment is used for adjusting the ground temperature in the home environment; and a control device which controls the refrigerator, the air conditioner, the lighting device, and the floor heating device to perform any one of a full-person outgoing mode, a partial outgoing mode, a vacation mode, and a returning-to-home mode according to a distance between a family member and a room acquired by an infrared sensor or a GPS and a duration of the distance.

In addition to the first aspect, the second aspect of the smart home system according to the first aspect of the present invention is preferably such that the control device causes the air conditioner, the lighting device, and the floor heating device to operate the all-person outgoing mode when a state in which distances between all the family members and a room are greater than 1km continues for 30 minutes or longer.

In addition, in the third aspect of the smart home system according to the first aspect of the present invention, in addition to the first or second aspect, preferably, in the all-person outgoing mode, the control device controls the refrigerator to continue to operate, turns off all of the air conditioner and the lighting device, and turns down the floor heating device with respect to the ground temperature.

In addition, in a fourth aspect of the smart home system according to the first embodiment of the present invention, based on the first or second aspect, it is preferable that the control device switches to the home returning mode when all the family members are less than 1km away from the room and the distance is continuously decreased every 2 minutes during the period of the all-family-member outgoing mode.

In addition, in a fifth aspect of the smart home system according to the first aspect of the present invention, in addition to the first or second aspect, it is preferable that the control device switches to the partial-egress mode when a distance between a part of the family members and the room is less than 1km and the distance is continuously decreased every 2 minutes during the operation of the all-person-egress mode.

In addition, in the sixth aspect of the smart home system according to the first aspect of the present invention, in addition to the first or second aspect, it is preferable that the control device maintains the all-person egress mode when all the family members are at distances of less than 1km from the room and the distances are continuously increased every 2 minutes during the operation of the all-person egress mode.

In addition to the first or second aspect, in the seventh aspect of the smart home system according to the first aspect of the present invention, preferably, when all the family members are located at a distance greater than 1km from the room and the heat source of the non-family member is detected by the infrared sensor during the all-family-member outgoing mode, the control device maintains the all-family-member outgoing mode and presents the heat source to the family members through the remote terminal device.

In addition, in an eighth aspect of the smart home system according to the first aspect of the present invention, in addition to the first or second aspect, it is preferable that the control device controls the refrigerator, the air conditioner, the lighting device, and the floor heating device in accordance with a desired operation mode when a desired operation mode is input by a family member through a remote terminal device during the operation of the all-person outgoing mode.

In addition to the first or second aspect, the ninth aspect of the smart home system according to the first aspect of the present invention is preferably configured such that the control device maintains the all-person outgoing mode when a control command for the refrigerator, the air conditioner, the lighting device, and the floor heating device is input by a home member through a remote terminal device during the all-person outgoing mode.

A tenth aspect of the smart home system according to the first aspect of the present invention is that, in addition to the first aspect, the control device causes the refrigerator, the air conditioner, the lighting device, and the floor heating device to operate the partial outgoing mode when a state in which a distance between a part of family members and a room is greater than 1km continues for 30 minutes or longer.

In addition to the first or tenth aspect, in an eleventh aspect of the smart home system according to the first aspect of the present invention, it is preferable that the control device controls the family members staying at home to set the operating states of the refrigerator, the air conditioner, the lighting device, and the floor heating device in the partial-egress mode.

In addition, according to a twelfth aspect of the smart home system according to the first aspect of the present invention, in addition to the first or tenth aspect, preferably, during the period of operating the partial outgoing mode, when the distances between the other part of family members and the room are all less than 100m and decrease continuously every 2 minutes, the control device notifies the other part of family members whether the family members go home or not to switch the operation mode through the remote terminal device.

In a thirteenth aspect of the smart home system according to the first aspect of the present invention, in addition to the first or tenth aspect, preferably, the control device maintains the partial-egress mode when the distance between the other part of the family members and the room is less than 100m and the distance continuously increases every 2 minutes while the partial-egress mode is being operated.

In addition, in a fourteenth aspect of the smart home system according to the first aspect of the present invention, in addition to the first or tenth aspect, preferably, when a family member inputs a desired operation mode through a remote terminal device during the operation of the partial-outgoing mode, the control device controls the refrigerator, the air conditioner, the lighting device, and the floor heating device in accordance with the desired operation mode.

In addition to the first or tenth aspect, in a fifteenth aspect of the smart home system according to the first aspect of the present invention, it is preferable that the control device maintains the partial-out mode when a control command for the refrigerator, the air conditioner, the lighting device, and the floor heating device is input by a member of a home through a remote terminal device during the partial-out mode.

A sixteenth aspect of the smart home system according to the first aspect of the present invention is that, in addition to the first aspect, the control device causes the refrigerator, the air conditioner, the lighting device, and the floor heating device to operate in the vacation mode when a state in which distances between all the family members and a room are greater than 1km continues for 24 hours or longer.

A seventeenth aspect of the smart home system according to the first aspect of the present invention is the first or sixteenth aspect, wherein in the vacation mode, the control device controls the refrigerator to continue to operate, the air conditioner and the lighting device to be turned off, and the floor heating device to operate the anti-freezing function.

In addition, in an eighteenth aspect of the smart home system according to the first aspect of the present invention, in addition to the first or sixteenth aspect, it is preferable that the control device controls the refrigerator, the air conditioner, the lighting device, and the floor heating device in accordance with a desired operation mode when a desired operation mode is input from a remote terminal device by a family member during the vacation mode.

A nineteenth aspect of the smart home system according to the first aspect of the present invention is the first or sixteenth aspect, wherein the control device maintains the vacation mode when a control command to the refrigerator, the air conditioner, the lighting device, and the floor heating device is input from a remote terminal device while the vacation mode is in operation.

Furthermore, in a twentieth aspect of the smart home system according to the first embodiment of the present invention, in addition to the first or sixteenth aspect, preferably, during the vacation mode, when a state in which distances between all the family members and the room are greater than 1km continues for less than 24 hours or continues for 24 hours or more, the control device maintains the vacation mode if the floor heating device is turned on by the family members through the remote terminal device.

In addition, a twenty-first aspect of the smart home system according to the first embodiment of the present invention is based on the first aspect or the sixteenth aspect, and preferably, during the vacation mode, when a state in which distances between all family members and a room are greater than 1km continues for less than 24 hours or for 24 hours or more, if the floor heating device is turned off by a family member through a remote terminal device, the control device maintains the vacation mode and issues a warning to the family member through the remote terminal device.

In addition to the first aspect, it is preferable that the control device operates the return mode in the refrigerator, the air conditioner, the lighting device, and the floor heating device when a distance between a household member and a room is less than 1km and continuously decreases every 1 minute.

In addition, a twentieth aspect of the smart home system according to the first aspect of the present invention is preferably configured such that, in the get-home mode, the control device controls the refrigerator to continue to operate, turns on all of the air conditioners and the lighting devices, and turns up the floor heating device to increase the temperature, in addition to the first or second aspect.

A twenty-fourth aspect of the smart home system according to the first aspect of the present invention is the first or twenty-second aspect, wherein in the home return mode, the control device preferably starts the air conditioner in advance so that the room temperature reaches a daily habit temperature of the family members.

In addition to the twenty-fifth aspect, the smart home system according to the first embodiment of the present invention is preferably configured such that the habit temperature can be acquired in a machine learning mode.

A twenty-sixth aspect of the smart home system according to the first aspect of the present invention is the first or twenty-second aspect, wherein the control device switches to the whole-family going-out mode when distances between all the family members and the room are greater than 1km and the distances are continuously increased every 2 minutes during the operation of the home returning mode.

In addition, in a twenty-seventh aspect of the smart home system according to the first aspect of the present invention, based on the first or twenty-second aspect, it is preferable that the control device switches to the partial-outgoing mode when only one of all the family members arrives at home during the operation of the home returning mode.

A twenty-eighth aspect of the smart home system according to the first aspect of the present invention is the first or twenty-second aspect, wherein the control device maintains the return-to-home mode when not only one of all the family members is out of the home while the other family members are out of the home during the return-to-home mode.

In addition, in a twenty-ninth aspect of the smart home system according to the first aspect of the present invention, in addition to the first or twenty-second aspect, it is preferable that the control device maintain the return mode when a desired operation mode is input by a home member through a remote terminal device during the return mode.

A thirtieth aspect of the smart home system according to the first aspect of the present invention is the first or twenty-second aspect, wherein the control device maintains the return mode when a control command to the refrigerator, the air conditioner, the lighting device, and the floor heating device is input by a remote terminal device while the return mode is in operation.

Effects of the invention

According to the intelligent home system, the distance between the user and the room and the information input by the family members through the remote terminal equipment can be acquired in real time by using the infrared sensor, the GPS and other remote measurement equipment, so that the on and off of various electric equipment in the room are dynamically controlled, and a comfortable intelligent home environment is brought to the user.

According to the intelligent home system, the operation mode of the intelligent home system can be changed timely when the user state changes, so that the functions of the intelligent home system can be exerted to the maximum extent, and the most comfortable intelligent home environment can be further brought to the user.

Drawings

Fig. 1 is a block diagram showing an overall structure of a smart home system of the present invention.

Fig. 2 is a schematic diagram illustrating a selection manner of the operation mode of the smart home system according to the present invention.

Fig. 3 is a schematic diagram for explaining a situation that an operation mode is changed due to a change in a user state in a process of operating a whole-person outgoing mode of the smart home system of the present invention.

Fig. 4 is a schematic diagram for explaining a situation that an operation mode changes due to a change in a user state in a process of operating a part of an outgoing mode of the smart home system of the present invention.

Fig. 5 is a schematic diagram for explaining a situation that an operation mode changes due to a change in a user state in a process of operating a vacation mode of the smart home system of the present invention.

Fig. 6 is a schematic diagram for explaining a situation that an operation mode changes due to a change in a user state in a process of operating the home mode of the smart home system of the present invention.

Detailed Description

< integral Structure >

Fig. 1 is a block diagram showing an overall structure of a smart home system of the present invention.

As shown in fig. 1, the smart home system 1 of the present invention includes a refrigerator 20, an air conditioner 30, a lighting device 40, a floor heating device 50, and a control device 10.

The refrigerator 20 can maintain freshness of food items by storing various fresh food items at a low temperature. Further, the type of the refrigerator 20 may be a cold air forced circulation type refrigerator, a cold air natural convection type refrigerator, a cold air forced circulation and natural convection type refrigerator, and the like, and is not particularly limited.

The air conditioner 30 can adjust parameters such as temperature and humidity of the indoor ambient air and can supply air to the room. The type of the air conditioner 30 is not particularly limited, and may be a wall-mounted air conditioner, a cabinet air conditioner, a window air conditioner, a ceiling air conditioner, or the like.

The lighting device 40 is various devices provided in a room for lighting. Direct lighting is a conventional general lighting approach. Further, as for the kind of the illumination device 40, direct illumination, indirect illumination, semi-indirect illumination, uniform diffusion illumination, and the like may be possible, without particular limitation.

The ground heating equipment 50 is a short for floor radiation heating, and uses the whole ground as a radiator, uniformly heats the whole ground through a heating medium in a floor radiation layer, and conducts from bottom to top by utilizing the law of heat accumulation and upward radiation of the ground, so as to achieve the purpose of heating. In addition, the floor heating device 50 may be a water floor heating system, an electric heating system, or the like, and is not particularly limited.

The control device 10 is provided with an infrared sensor or a GPS, and controls the refrigerator 20, the air conditioner 30, the lighting device 40, and the floor heating device 50 to perform any one of a full-person outgoing mode, a partial outgoing mode, a vacation mode, and a home-returning mode, based on the distance between the family member and the room acquired by the infrared sensor or the GPS and the duration of the distance.

Next, the control of the refrigerator 20, the air conditioner 30, the lighting apparatus 40, and the floor heating apparatus 50 by the control apparatus 10 will be described in detail.

< selection mode of operation mode of smart home system >

Fig. 2 is a schematic diagram illustrating a case where the smart home system of the present invention operates the all-person out mode.

As shown in fig. 2, the operation modes of the smart home system of the present invention include: the four modes of the full-member outgoing mode, the partial outgoing mode, the vacation mode and the home returning mode. The manner how the control device 10 determines and selects these four modes will be specifically described below.

First, the control device 10 determines whether or not a person is present in the home using infrared rays (not shown), and if it is determined that a person is present in the home, it determines the distance between all the family members and the room.

When the state where all the family members have a distance greater than 1km from the room lasts for more than 30 minutes, the control device 10 causes the air conditioner 30, the lighting device 40, and the floor heating device 50 to operate the whole-person outgoing mode. Specifically, the control apparatus 10 causes the refrigerator 20 to continue to operate, causes the air conditioner 30 and the lighting apparatus 40 to be all turned off, and causes the floor heating apparatus 50 to lower the floor temperature. As a result, the smart home system according to the present invention turns off all the electric devices other than the refrigerator 20 and the floor heating 50 and lowers the floor heating temperature.

When a state where a distance between a part of the family members and the room is more than 1km continues for more than 30 minutes, the control device 10 operates the refrigerator 20, the air conditioner 30, the lighting device 40, and the floor heating device 50 in a part of the outgoing mode. Specifically, the control device 10 causes a family member staying at home to set the operation states of the refrigerator 20, the air conditioner 30, the lighting device 40, and the floor heating device 50. As a result, the smart home system according to the present invention adjusts the states of all the electric devices based on the preference of the family members staying at home.

When a state in which all the family members have a distance greater than 1km from the room continues for more than 24 hours, the control device 10 operates the refrigerator 20, the air conditioner 30, the lighting device 40, and the floor heating device 50 in the vacation mode. Specifically, the control apparatus 10 causes the refrigerator 20 to perform a low power operation, causes the air conditioner 30 and the lighting apparatus 40 to be all turned off, and causes the floor heating apparatus 50 to operate a freezing prevention function. As a result, the smart home system according to the present invention is in a state in which the electric devices other than the refrigerator 20 and the floor heating device 50 are all turned off and the floor heating device is operated with the anti-freezing function.

When the distance between the family members and the room is less than 1km and continuously decreases every 1 minute, the control apparatus 10 operates the refrigerator 20, the air conditioner 30, the lighting apparatus 40, and the floor heating apparatus 50 in the return mode. Specifically, the control apparatus 10 causes the refrigerator 20 to continue to operate, causes the air conditioner 30 and the lighting apparatus 40 to be all turned on, and causes the floor heating apparatus 50 to increase the temperature. Alternatively, in the home mode, the control device 10 turns on the air conditioner 20 in advance to bring the room temperature to the daily customary temperature of the family members. Wherein, the habitual temperature can be obtained through a machine learning mode. As a result, the smart home system according to the present invention is in a state in which the air conditioner 30 and the lighting device 40 are all turned on and the temperature of the floor heating device 50 is raised, or the air conditioner is turned on in advance so that the room temperature reaches the daily temperature customary for the family members.

As described above, as shown in fig. 2, the control device 10 controls the refrigerator 20, the air conditioner 30, the lighting device 40, and the floor heating device 50 to perform any one of a full-person outgoing mode, a partial outgoing mode, a leave mode, and a home returning mode according to the distances between all the family members and the room acquired by the infrared rays and the durations of the distances, so that the smart home system according to the present invention can provide a comfortable home environment for the user.

< situation that the operation mode changes due to the change of the user state in the process of operating the whole-person outgoing mode of the smart home system >

Fig. 3 is a schematic diagram for explaining a situation in which a user operation occurs during the process of operating the whole-person outgoing mode of the smart home system of the present invention.

As shown in fig. 3, when the smart home system according to the present invention is operating in the whole family outgoing mode, if the distances between all family members and the room, which are obtained by the infrared sensor, are less than 1km and the distances are continuously decreased every 2 minutes, the control device 10 starts the return program to switch to the return mode.

As shown in fig. 3, when the smart home system according to the present invention is operating in the whole-family outing mode, if the distance between the room and some family members obtained by the infrared sensor is less than 1km and the distance continuously decreases every 2 minutes, the control device 10 starts the regression process, and the family members select to switch to the part-family outing mode through the APP.

As shown in fig. 3, when the smart home system according to the present invention is operating in the all-person outgoing mode, if the distances between all the family members and the room, which are acquired by the infrared sensor, are less than 1km and the distances continuously increase every 2 minutes, the control device 10 starts the open program to continuously maintain the all-person outgoing mode.

As shown in fig. 3, when the smart home system according to the present invention is operating the whole-person going-out mode, if the family member inputs a desired operation mode through the remote terminal device, the control device 10 starts a regression program, and the user defines a desired operation mode, and can select any one of the whole-person going-out mode, the partial going-out mode, the vacation mode, and the returning-to-home mode.

As shown in fig. 3, when the smart home system according to the present invention is operating in the whole person outgoing mode, if a family member inputs a control command to the refrigerator 20, the air conditioner 30, the lighting device 40, and the floor heating device 50 through the remote terminal device, the control device 10 starts an open program to continue to maintain the whole person outgoing mode.

As shown in fig. 3, when the smart home system according to the present invention is operating in the whole family outing mode, if all the family members located at a distance from the room, which is greater than 1km, are detected by the infrared sensor and heat sources of non-family members, such as pets, constant temperature electric kettles, hot soup on tables, etc., are detected by the infrared sensor, the control device 10 starts the open program, continues to maintain the whole family outing mode, and at the same time, may remind the family members of the presence of the heat sources using APP.

In the process of linking the refrigerator 20, the air conditioner 30, the lighting equipment 40, and the floor heating equipment 50, if a user operates a certain equipment, the final operation (whether opening or returning or each mode operation) of the equipment is based on the final operation of the user, and the remaining equipments are based on each operation mode.

As described above, as shown in fig. 3, the control device 10 obtains the distance between all the family members and the room, the duration of the distance, and the information input by the family members through the remote terminal device by using the infrared sensor at any time when the smart home system is operating in the all-person outgoing mode, thereby changing or maintaining the operation modes of the refrigerator 20, the air conditioner 30, the lighting device 40, and the floor heating device 50, and enabling the smart home system according to the present invention to maximally exhibit the functions of the smart home system. In addition, the operation mode of the intelligent home system can be changed timely when the user state changes, so that the functions of the intelligent home system can be exerted to a greater extent, and a comfortable intelligent home environment can be further brought to the user.

< situation that the operation mode changes due to the change of the user state during the process of operating part of the outgoing modes of the smart home system >

Fig. 4 is a schematic diagram for explaining a situation where a user operation occurs during a process in which the smart home system of the present invention operates a partial egress mode.

As shown in fig. 4, when the smart home system according to the present invention is operating in the partial outgoing mode, if the distances between the other part of family members and the room, which are obtained by the infrared sensor, are all less than 100m and continuously decrease every 2 minutes, the control device 10 starts the return program, notifies the family through the APP, and inquires whether to switch the operation mode, so as to maintain the partial outgoing mode or switch the operation mode to the return mode.

As shown in fig. 4, when the smart home system according to the present invention is operating in the partial-egress mode, if the distances between the other part of family members and the room, which are acquired by the infrared sensor, are all less than 100m and the distances continuously increase every 2 minutes, the control device 10 starts the open program and continues to maintain the partial-egress mode.

As shown in fig. 4, when the smart home system according to the present invention is operating in the partial outgoing mode, if a family member inputs a desired operation mode through the remote terminal device, the control device 10 starts a regression program, and the user defines a desired operation mode, and may select any one of the full-person outgoing mode, the partial outgoing mode, the vacation mode, and the returning mode.

As shown in fig. 4, when the smart home system according to the present invention is operating in the partial-outgoing mode, if a family member inputs a control command to the refrigerator 20, the air conditioner 30, the lighting device 40, and the floor heating device 50 through the remote terminal device, the control device 10 starts an open program to continue to maintain the partial-outgoing mode.

In the process of linking the refrigerator 20, the air conditioner 30, the lighting equipment 40, and the floor heating equipment 50, if a user operates a certain equipment, the final operation (whether opening or returning or each mode operation) of the equipment is based on the final operation of the user, and the remaining equipments are based on each operation mode.

As described above, as shown in fig. 4, the control device 10 obtains the distance between all the family members and the room, the duration of the distance, and the information input by the family members through the remote terminal device by using the infrared sensor at any time when the smart home system is operating in the partial outgoing mode, thereby changing or maintaining the operation modes of the refrigerator 20, the air conditioner 30, the lighting device 40, and the floor heating device 50, and enabling the smart home system according to the present invention to maximally exhibit the functions of the smart home system. In addition, the operation mode of the intelligent home system can be changed timely when the user state changes, so that the functions of the intelligent home system can be exerted to a greater extent, and a comfortable intelligent home environment can be further brought to the user.

< situation that the operation mode changes due to the change of the user state in the process of operating the vacation mode of the smart home system >

Fig. 5 is a schematic diagram for explaining a situation that a user operation occurs during the vacation mode of the smart home system of the present invention.

As shown in fig. 5, when the smart home system according to the present invention is operating in the vacation mode, if a family member inputs a desired operation mode through the remote terminal device, the control device 10 starts a regression program, and the user defines a desired operation mode, and may select any one of a full-family exit mode, a partial-family exit mode, a vacation mode, and a home-returning mode.

As shown in fig. 5, when the smart home system according to the present invention is operating in the vacation mode, if a family member inputs a control command for the refrigerator 20, the air conditioner 30, the lighting device 40, and the floor heating device 50 through the remote terminal device, the control device 10 starts an open program to continue to maintain the vacation mode.

As shown in fig. 5, when the smart home system according to the present invention is operating in the vacation mode, if the state that the distances between all the family members and the room, which are acquired by using the infrared sensor, are greater than 1km continues for less than 24 hours or continues for more than 24 hours, and the family members open the floor heating device through the remote terminal device, the control device 10 starts the opening procedure to continue to maintain the vacation mode.

As shown in fig. 5, when the smart home system according to the present invention is operating in the vacation mode, if the state that the distances between all the family members and the room, which are obtained by using the infrared sensor, are greater than 1km continues for less than 24 hours or continues for more than 24 hours, and the family members close the floor heating device through the remote terminal device, the control device 10 starts the open program, continues to maintain the vacation mode, and simultaneously sends a warning to the family members through the APP.

In the process of linking the refrigerator 20, the air conditioner 30, the lighting equipment 40, and the floor heating equipment 50, if a user operates a certain equipment, the final operation (whether opening or returning or each mode operation) of the equipment is based on the final operation of the user, and the remaining equipments are based on each operation mode.

As described above, as shown in fig. 5, when the smart home system is operating in the vacation mode, the control device 10 changes or maintains the operation modes of the refrigerator 20, the air conditioner 30, the lighting device 40, and the floor heating device 50 by acquiring the distances between all the family members and the room, the durations of the distances, and information input by the family members through the remote terminal device by using the infrared sensor at any time, so that the smart home system according to the present invention can maximally exhibit the functions of the smart home system. In addition, the operation mode of the intelligent home system can be changed timely when the state of the user changes, so that the functions of the intelligent home system can be exerted to a greater extent, and a comfortable intelligent home environment can be further brought to the user.

< situation that the operation mode changes due to the change of the user state in the process of the intelligent home system operating in the home-returning mode >

Fig. 6 is a schematic diagram illustrating a situation where a user operation occurs during the home mode of the smart home system according to the present invention.

As shown in fig. 6, when the smart home system according to the present invention is operating in the home mode, if the distances between all the family members and the room, which are obtained by the infrared sensor, are greater than 1km and the distances are continuously increased every 2 minutes, the control device 10 starts the return program and switches to the all-member-out mode.

As shown in fig. 6, when the smart home system according to the present invention is operating in the going-home mode, if only one of all the family members arrives at home and the rest of the family members go out, the control device 10 starts the returning program and switches to the partial going-out mode.

As shown in fig. 6, when the smart home system according to the present invention is operating in the home mode, if not only one of all the family members arrives at home and the rest of the family members go out, the control device 10 starts the open program and continues to maintain the home mode.

As shown in fig. 6, when the smart home system according to the present invention is operating in the home mode, if a family member inputs a desired operation mode through the remote terminal device, the control device 10 starts an open program, and the user defines a desired operation mode, and may select any one of a full-person outgoing mode, a partial outgoing mode, a vacation mode, and a home mode.

As shown in fig. 6, when the smart home system according to the present invention is operating in the home mode, if a family member inputs a control command to the refrigerator 20, the air conditioner 30, the lighting device 40, and the floor heating device 50 through the remote terminal device, the control device 10 starts an open program and continues to maintain the home mode.

In the process of linking the refrigerator 20, the air conditioner 30, the lighting equipment 40, and the floor heating equipment 50, if a user operates a certain equipment, the final operation (whether opening or returning or each mode operation) of the equipment is based on the final operation of the user, and the remaining equipments are based on each operation mode.

As described above, as shown in fig. 6, when the smart home system is operating in the home mode, the control device 10 changes or maintains the operation modes of the refrigerator 20, the air conditioner 30, the lighting device 40, and the floor heating device 50 by acquiring the distances between all the family members and the room, the durations of the distances, and the information input by the family members through the remote terminal device by using the infrared sensor at any time, so that the smart home system according to the present invention can maximally exhibit the functions of the smart home system. In addition, the operation mode of the intelligent home system can be changed timely when the user state changes, so that the functions of the intelligent home system can be exerted to a greater extent, and a comfortable intelligent home environment can be further brought to the user.

Industrial applicability of the invention

The intelligent home system can be used in families, offices, industrial plants and the like, can dynamically control the on and off of various electrical equipment in a room, and timely changes the operation mode of the intelligent home system when the state of a user changes, so that the functions of the intelligent home system can be exerted to the maximum extent, and a comfortable intelligent home environment can be further brought to the user.

Description of the reference symbols

1: intelligent household system

10: control device

20: refrigerator with a door

30: air conditioner

40: lighting device

50: ground heating equipment

Claims (30)

1. The utility model provides an intelligent home system which characterized in that has:

a refrigerator;

an air conditioner that adjusts temperature and air quality in a home environment;

a lighting device that adjusts brightness in a home environment;

the floor heating equipment is used for adjusting the ground temperature in the home environment; and

and a control device for controlling the refrigerator, the air conditioner, the lighting device, and the floor heating device to perform any one of a full-person outgoing mode, a partial outgoing mode, a vacation mode, and a returning-to-home mode according to a distance between the family member and the room, which is acquired by using an infrared sensor or a GPS, and a duration of the distance.

2. The smart home system of claim 1,

when the distance between all the family members and the room is more than 1km and lasts for more than 30 minutes, the control device enables the air conditioner, the lighting device and the floor heating device to operate the whole-member outgoing mode.

3. The smart home system of claim 1 or 2,

in the whole-person outgoing mode, the control device controls the refrigerator to continuously operate, the air conditioner and the lighting device are all turned off, and the ground heating device is enabled to lower the ground temperature.

4. The smart home system of claim 1 or 2,

during the operation of the whole-family going-out mode, the control device switches to the home-returning mode when all the family members are less than 1km from the room and the distance is continuously reduced every 2 minutes.

5. The smart home system of claim 1 or 2,

during the operation of the full-member egress mode, the control device switches to the partial egress mode when the distance of a part of the family members from the room is less than 1km and the distance is continuously decreasing every 2 minutes.

6. The smart home system of claim 1 or 2,

during the operation of the full-member-egress mode, the control device maintains the full-member-egress mode when all the family members are less than 1km away from the room and the distance is continuously increased every 2 minutes.

7. The smart home system of claim 1 or 2,

during the whole-family outing mode, when all family members are more than 1km away from the room and the heat source of the non-family member is detected through the infrared sensor, the control device maintains the whole-family outing mode and prompts the heat source to the family members through the remote terminal device.

8. The smart home system of claim 1 or 2,

during the operation of the whole-person outgoing mode, when a family member inputs a desired operation mode through a remote terminal device, the control device controls the refrigerator, the air conditioner, the lighting device, and the floor heating device according to the desired operation mode.

9. The smart home system of claim 1 or 2,

during the operation of the whole-person outgoing mode, when a family member inputs control instructions for the refrigerator, the air conditioner, the lighting device and the floor heating device through a remote terminal device, the control device maintains the whole-person outgoing mode.

10. The smart home system of claim 1,

when a state in which a distance between a part of family members and a room is more than 1km continues for more than 30 minutes, the control device causes the refrigerator, the air conditioner, the lighting device, and the floor heating device to operate the part of the outgoing mode.

11. The smart home system of claim 1 or 10,

in the partial outgoing mode, the control apparatus controls a family member staying at home to set operation states of the refrigerator, the air conditioner, the lighting apparatus, and the floor heating apparatus.

12. The smart home system of claim 1 or 10,

during the operation of the partial outgoing mode, when the distance between another part of family members and the room is less than 100m and the distance continuously decreases every 2 minutes, the control device informs the other part of family members whether the family members go home or not to switch the operation mode through the remote terminal device.

13. The smart home system of claim 1 or 10,

during the operation of the partial-egress mode, the control device maintains the partial-egress mode when the distance from the room to another part of the family members is less than 100m and continuously increases every 2 minutes.

14. The smart home system of claim 1 or 10,

during the operation of the partial-outgoing mode, when a family member inputs a desired operation mode through a remote terminal device, the control device controls the refrigerator, the air conditioner, the lighting device, and the floor heating device according to the desired operation mode.

15. The smart home system of claim 1 or 10,

during the operation of the partial-outgoing mode, when a family member inputs a control instruction for the refrigerator, the air conditioner, the lighting apparatus, and the floor heating apparatus through a remote terminal apparatus, the control apparatus maintains the partial-outgoing mode.

16. The smart home system of claim 1,

when a state in which distances between all the family members and the room are greater than 1km continues for 24 hours or more, the control apparatus causes the refrigerator, the air conditioner, the lighting apparatus, and the floor heating apparatus to operate the vacation mode.

17. The smart home system of claim 1 or 16,

in the vacation mode, the control device controls the refrigerator to continue to operate, the air conditioner and the lighting device are all turned off, and the floor heating device operates the freezing prevention function.

18. The smart home system of claim 1 or 16,

during the vacation mode, when a family member inputs a desired operation mode through a remote terminal device, the control device controls the refrigerator, the air conditioner, the lighting device, and the floor heating device according to the desired operation mode.

19. The smart home system of claim 1 or 16,

during the operation of the vacation mode, when a family member inputs a control command for the refrigerator, the air conditioner, the lighting apparatus, and the floor heating apparatus through a remote terminal apparatus, the control apparatus maintains the vacation mode.

20. The smart home system of claim 1 or 16,

during the vacation mode, when the distance between all family members and a room is more than 1km and the distance lasts less than 24 hours or lasts more than 24 hours, if the family members open the floor heating equipment through the remote terminal equipment, the control equipment maintains the vacation mode.

21. The smart home system of claim 1 or 16,

during the vacation mode, when the distance between all family members and a room is more than 1km and the distance lasts less than 24 hours or lasts more than 24 hours, if the family members close the floor heating equipment through the remote terminal equipment, the control equipment maintains the vacation mode and gives a warning to the family members through the remote terminal equipment.

22. The smart home system of claim 1,

the control device operates the return mode by the refrigerator, the air conditioner, the lighting device, and the floor heating device when the distance between the family member and the room is less than 1km and continuously decreases every 1 minute.

23. The smart home system of claim 1 or 22,

in the home returning mode, the control device controls the refrigerator to continuously operate, so that the air conditioner and the lighting device are all turned on, and the floor heating device increases the temperature.

24. The smart home system of claim 1 or 22,

in the home returning mode, the control device turns on the air conditioner in advance to make the room temperature reach the daily customary temperature of family members.

25. The smart home system of claim 24,

the habitual temperature can be obtained through a machine learning mode.

26. The smart home system of claim 1 or 22,

during the return-to-home mode, when all the family members are at distances from the room greater than 1km and the distances continue to increase every 2 minutes, the control apparatus switches to the all-member-out mode.

27. The smart home system of claim 1 or 22,

during the operation of the go-home mode, when only one of all the family members goes home and the rest goes out, the control device switches to the partial-out mode.

28. The smart home system of claim 1 or 22,

during the operation of the go-home mode, the control apparatus maintains the go-home mode when not only one of all the family members arrives at home and the rest goes out.

29. The smart home system of claim 1 or 22,

the control device maintains the home-returning mode when a family member inputs a desired operation mode through a remote terminal device during the operation of the home-returning mode.

30. The smart home system of claim 1 or 22,

during the returning home mode, when a family member inputs a control command for the refrigerator, the air conditioner, the lighting apparatus, and the floor heating apparatus through a remote terminal apparatus, the control apparatus maintains the returning home mode.

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