CN114935895A

CN114935895A - Controller for intelligent household equipment

Info

Publication number: CN114935895A
Application number: CN202210771862.9A
Authority: CN
Inventors: 尚利剑
Original assignee: Anhui Yishang Smart Home Co ltd
Current assignee: Anhui Yishang Smart Home Co ltd
Priority date: 2022-06-30
Filing date: 2022-06-30
Publication date: 2022-08-23

Abstract

The invention discloses a controller for intelligent home equipment, which relates to the technical field of intelligent home, and is characterized in that characteristic parameters of each intelligent home are obtained according to the characteristics of each intelligent home, then indoor and outdoor temperature values and humidity values are obtained, whether the indoor and outdoor temperature values and humidity values are normal or not is judged, and when the indoor temperature value or humidity value is abnormal, an adjusting instruction is automatically generated, so that the intelligent home is correspondingly adjusted; when the temperature or the humidity of the smart home is abnormal, the smart home is provided with corresponding characteristic parameter threshold values, when the control center adjusts the smart home to the qualified range of the characteristic parameter threshold values, the adjustment is stopped, the smart home is prevented from running for a long time in an abnormal environment, and the smart home is not handled by people, so that unnecessary damage caused by unnecessary damage is avoided, and the service life and the use effect of the smart home are ensured.

Description

Controller for intelligent household equipment

Technical Field

The invention belongs to the technical field of intelligent home furnishing, and particularly relates to a controller for intelligent home furnishing equipment.

Background

The intelligent home is characterized in that a home is used as a platform, facilities related to home life are integrated by utilizing a comprehensive wiring technology, a network communication technology, a safety precaution technology, an automatic control technology and an audio and video technology, an efficient management system of home facilities and family schedule affairs is constructed, home safety, convenience, comfortableness and artistry can be improved, and an environment-friendly and energy-saving living environment is realized. The intelligent home is characterized in that various devices (such as audio and video devices, a lighting system, a curtain control device, an air conditioner control device, a security system, a digital cinema system, a network home appliance, three meters, and the like) in the home are connected together through the Internet of things technology, and multiple functions and means such as home appliance control, lighting control, curtain control, telephone remote control, indoor and outdoor remote control, anti-theft alarm, environment monitoring, heating and ventilation control, infrared forwarding, programmable timing control and the like are provided.

In the use process of the smart home, the indoor temperature and humidity often have great influence on the operation of the smart home, and particularly under the unmanned condition, the smart home is allowed to be continuously operated and used in an abnormal environment, so that the service life of the smart home can be greatly shortened or faults can be caused; for this reason, a controller for smart home devices is now provided.

Disclosure of Invention

The invention aims to provide a controller for intelligent household equipment.

The purpose of the invention can be realized by the following technical scheme: a controller for intelligent home equipment comprises a control center, wherein the control center is in communication connection with an intelligent home terminal, and is also in communication connection with a data acquisition module, a data processing module, a data analysis module and an intelligent adjustment module;

the data acquisition module comprises a home data acquisition terminal and an environmental data acquisition terminal, the home data acquisition terminal is installed on the smart home and used for acquiring characteristic parameters of the smart home in the using process, the environmental data acquisition terminal is used for acquiring environmental data of the smart home, and the environmental data acquisition terminal is bound with the home data acquisition terminal installed on the smart home to perform data information interactive transmission;

the data processing module is used for processing the data acquired by the data acquisition module;

the data analysis module is used for analyzing the characteristic parameters of the smart home according to the processing data of the data processing module;

the intelligent adjusting module is used for adjusting indoor environment data.

Further, the process that the home data acquisition terminal acquires the characteristic parameters of the smart home comprises the following steps: the method comprises the steps that a home data acquisition terminal is installed on an intelligent home, and basic information of the intelligent home is bound with the home data acquisition terminal; setting corresponding characteristics according to different smart homes and purposes thereof; acquiring real-time characteristic parameters of each characteristic of the smart home through a home data acquisition terminal; and sending the obtained real-time characteristic parameters to a data processing module, and uploading the real-time characteristic parameters to a control center for storage.

Further, the process of acquiring the environmental data by the environmental data acquisition terminal includes: the method comprises the following steps that environment data acquisition terminals are installed on outdoor and indoor smart homes, and the environment data acquisition terminals on the indoor smart homes are bound with home data acquisition terminals on the smart homes; the method comprises the steps of obtaining indoor environment data and outdoor environment data of the intelligent home, wherein the environment data comprise indoor environment temperature and indoor environment humidity, and the outdoor environment data comprise outdoor environment temperature and outdoor environment humidity.

Further, the processing procedure of the data processing module comprises: establishing a temperature two-dimensional coordinate system and a humidity two-dimensional coordinate system, respectively mapping the obtained outdoor environment temperature and the outdoor environment humidity to the temperature two-dimensional coordinate system and then the humidity two-dimensional coordinate system, and respectively generating an outdoor temperature change curve and an outdoor humidity change curve so as to obtain an outdoor temperature curve graph and an outdoor humidity curve graph; respectively setting a temperature threshold interval and a humidity threshold interval in an outdoor temperature curve graph and an outdoor humidity curve graph; the temperature threshold interval comprises an upper temperature threshold line and a lower temperature threshold line, and the humidity threshold interval comprises an upper humidity threshold line and a lower humidity threshold line; marking the part of the outdoor temperature change curve outside the temperature threshold interval; and marking the part of the outdoor humidity change curve, which is positioned outside the humidity threshold value interval.

Further, the analysis process of the data analysis module comprises: through the outdoor temperature curve chart, judge the outdoor ambient temperature condition to according to outdoor ambient temperature generation temperature regulation instruction, through the outdoor humidity curve chart, judge the outdoor ambient humidity condition, and according to outdoor ambient humidity generation humidity regulation instruction, obtain indoor ambient temperature and indoor ambient humidity, and send indoor ambient temperature and indoor ambient humidity to intelligent regulation module.

Further, the process of determining the outdoor ambient temperature condition includes: marking a curve part which is positioned below the lower limit threshold line of the outdoor temperature in the outdoor temperature curve graph, and acquiring the area LS of a closed interval formed between the curve in the outdoor temperature curve graph and the lower limit threshold line of the outdoor temperature; marking a curve part positioned above an upper limit threshold line of the outdoor temperature in the outdoor temperature curve, and acquiring an area RS of a closed interval formed between the curve in the outdoor temperature curve graph and the upper limit threshold line of the outdoor temperature; when LS is larger than or equal to L0, the outdoor environment temperature is judged to be low; when RS is larger than or equal to R0, the external environment temperature is judged to be high temperature; the L0 and the R0 are both temperature thresholds, and L0 < R0.

Further, the judgment process of the outdoor environment humidity comprises the following steps: marking a curve part which is positioned below the lower limit threshold line of the outdoor humidity in the outdoor humidity curve graph, and acquiring the area GS of a closed interval formed between the curve in the outdoor humidity curve graph and the lower limit threshold line of the outdoor humidity; marking a curve part positioned above an upper limit threshold line of the outdoor humidity in the outdoor humidity curve, and acquiring an area DS of a closed interval formed between the curve in the outdoor humidity curve graph and the upper limit threshold line of the outdoor humidity; when LS is larger than or equal to G0, the outdoor environment humidity is judged to be dry; when RS is more than or equal to D0, judging that the external environment humidity is moist; both G0 and D0 are humidity thresholds, and G0 < D0.

Further, the adjusting process of the intelligent adjusting module comprises the following steps: respectively obtaining an indoor and outdoor temperature difference WC and an indoor and outdoor humidity difference SC; when the outdoor environment temperature is high and WC is greater than W0, judging that the indoor temperature is too high, generating a cooling instruction and sending the cooling instruction to a control center; when the outdoor environment temperature is low and WC is less than W1, judging that the indoor temperature is too low, and generating a heating instruction; when the outdoor environment humidity is humid and SC is greater than S0, judging that the indoor humidity is too high, generating a dehumidification instruction and sending the dehumidification instruction to a control center; when the outdoor environment humidity is dry and WC is less than S1, the indoor humidity is judged to be low, and the operation is not carried out.

The invention has the beneficial effects that: according to the characteristics of each intelligent home, obtaining characteristic parameters of each intelligent home, then obtaining indoor and outdoor temperature values and humidity values, judging whether the indoor and outdoor temperature values and the humidity values are normal or not, and automatically generating an adjusting instruction when the indoor temperature value or the indoor humidity value is abnormal so as to correspondingly adjust the intelligent home; when the temperature or the humidity of the smart home is abnormal, the smart home is provided with corresponding characteristic parameter threshold values, when the control center adjusts the smart home to the qualified range of the characteristic parameter threshold values, the adjustment is stopped, the smart home is prevented from running for a long time in an abnormal environment, and the smart home is not handled by people, so that unnecessary damage caused by unnecessary damage is avoided, and the service life and the use effect of the smart home are ensured.

Drawings

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

Fig. 1 is a schematic block diagram of a controller for smart home devices.

Detailed Description

As shown in fig. 1, a controller for smart home devices includes a control center, the control center is communicatively connected with a smart home terminal, and the control center is further communicatively connected with a data acquisition module, a data processing module, a data analysis module and an intelligent adjustment module;

in a specific implementation process, the intelligent home terminal comprises basic information of the intelligent home, the basic information of the intelligent home comprises a name, a purpose and a placement position, a corresponding information set is generated according to the basic information of each intelligent home, an independent index sequence is generated, and the independent index sequence is uploaded to a control center for storage;

the data acquisition module comprises a home data acquisition terminal and an environmental data acquisition terminal, the home data acquisition terminal is installed on the smart home and used for acquiring characteristic parameters of the smart home in the using process, and the specific acquisition process comprises the following steps:

step J1: the method comprises the steps that a home data acquisition terminal is installed on an intelligent home, and basic information of the intelligent home is bound with the home data acquisition terminal;

step J2: setting corresponding characteristics according to different smart homes and the purposes of the smart homes;

step J3: acquiring real-time characteristic parameters of each characteristic of the smart home through a home data acquisition terminal;

step J4: and sending the obtained real-time characteristic parameters to a data processing module, and uploading the real-time characteristic parameters to a control center for storage.

The environment data acquisition terminal is used for acquiring environment data of the smart home, the environment data acquisition terminal is bound with the home data acquisition terminal installed on the smart home, data information interactive transmission is carried out, and the specific process of acquiring the environment data by the environment data acquisition terminal comprises the following steps:

step H1: the method comprises the following steps that environment data acquisition terminals are installed on outdoor and indoor smart homes, and the environment data acquisition terminals on the indoor smart homes are bound with home data acquisition terminals on the smart homes;

step H2: acquiring indoor environment data and outdoor environment data of the smart home, wherein the environment data comprises indoor environment temperature and indoor environment humidity, and the indoor environment temperature and the indoor environment humidity are respectively marked as NHW and NHS; the outdoor environment data comprises outdoor environment temperature and outdoor environment humidity, and the outdoor environment temperature and the outdoor environment humidity are respectively marked as WHW and WHS;

step H3: and sending the acquired environment data to a data processing module.

The data processing module is used for processing the data acquired by the data acquisition module, and the specific processing process comprises the following steps:

step C1: establishing a temperature two-dimensional coordinate system and a humidity two-dimensional coordinate system, respectively mapping the obtained outdoor environment temperature and the outdoor environment humidity to the temperature two-dimensional coordinate system and then the humidity two-dimensional coordinate system, and respectively generating an outdoor temperature change curve and an outdoor humidity change curve so as to obtain an outdoor temperature curve graph and an outdoor humidity curve graph;

step C2: respectively setting a temperature threshold interval and a humidity threshold interval in an outdoor temperature curve graph and an outdoor humidity curve graph; the temperature threshold interval comprises an upper temperature threshold line and a lower temperature threshold line, and the humidity threshold interval comprises an upper humidity threshold line and a lower humidity threshold line; it should be further noted that, in a specific implementation process, the upper temperature threshold line is located above the lower temperature threshold in the outdoor temperature graph, and the upper humidity threshold line is located above the lower humidity threshold in the outdoor humidity graph;

step C3: marking the part of the outdoor temperature change curve outside the temperature threshold interval; marking the part of the outdoor humidity change curve outside the humidity threshold interval;

step C4: and sending the processing data obtained in the steps C1-C3 to a data analysis module.

The data analysis module is used for analyzing the characteristic parameters of the smart home according to the processing data of the data processing module, and the specific analysis process comprises the following steps:

step F1: the method comprises the following steps of judging the outdoor environment temperature condition through an outdoor temperature curve graph, and generating a temperature adjusting instruction according to the outdoor environment temperature, wherein the specific process comprises the following steps:

step F11: marking a curve part which is positioned below the lower limit threshold line of the outdoor temperature in the outdoor temperature curve graph, and acquiring the area LS of a closed interval formed between the curve in the outdoor temperature curve graph and the lower limit threshold line of the outdoor temperature; marking a curve part positioned above an upper limit threshold line of the outdoor temperature in the outdoor temperature curve, and acquiring an area RS of a closed interval formed between the curve in the outdoor temperature curve graph and the upper limit threshold line of the outdoor temperature;

step F12: when LS is larger than or equal to L0, the outdoor environment temperature is judged to be low; when RS is larger than or equal to R0, the external environment temperature is judged to be high temperature; the L0 and the R0 are both temperature thresholds, and L0 < R0;

step F13: sending the external environment temperature condition to an intelligent adjusting module;

step F2: judging the humidity condition of the outdoor environment through an outdoor humidity curve chart, and generating a humidity adjusting instruction according to the humidity of the outdoor environment

Step F21: marking a curve part which is positioned below the lower limit threshold line of the outdoor humidity in the outdoor humidity curve graph, and acquiring the area GS of a closed interval formed between the curve in the outdoor humidity curve graph and the lower limit threshold line of the outdoor humidity; marking a curve part positioned above an upper limit threshold line of the outdoor humidity in the outdoor humidity curve, and acquiring an area DS of a closed interval formed between the curve in the outdoor humidity curve graph and the upper limit threshold line of the outdoor humidity;

step F22: when LS is larger than or equal to G0, the outdoor environment humidity is judged to be dry; when RS is larger than or equal to D0, judging that the external environment humidity is moist; both G0 and D0 are humidity thresholds, and G0 < D0;

step F23: sending the external environment humidity condition to an intelligent adjusting module;

step F3: and acquiring the indoor environment temperature NHW and the indoor environment humidity NHS, and sending the indoor environment temperature NHW and the indoor environment humidity NHS to the intelligent adjusting module.

The intelligent regulation module is used for regulating indoor environment data, and the specific regulation process comprises the following steps:

step Z1: respectively obtaining an indoor and outdoor temperature difference WC and an indoor and outdoor humidity difference SC through formulas WC (NHW-WHW) and SC (NHS-WHS);

step Z2: when the outdoor environment temperature is high and WC is greater than W0, judging that the indoor temperature is too high, generating a cooling instruction and sending the cooling instruction to a control center; when the outdoor environment temperature is low and WC is less than W1, judging that the indoor temperature is too low, generating a heating instruction, and sending the heating instruction to a control center; wherein W0 and W1 are both temperature difference thresholds, and W0 and W1 are both larger than 0;

step Z3: when the outdoor environment humidity is wet and the absolute value SC is more than S0, judging that the indoor humidity is too high, generating a dehumidification instruction and sending the dehumidification instruction to a control center; when the outdoor environment humidity is dry and WC is less than S1, judging that the indoor humidity is low and not operating; wherein S0 and S1 are both humidity difference thresholds, and S0 and S1 are both greater than 0.

It should be further explained that, in the specific implementation process, after receiving the instruction of the intelligent adjusting module, the control center controls the corresponding intelligent home to perform corresponding adjustment; the method comprises the steps that for each smart home, a characteristic parameter threshold value when the indoor environment temperature is high and low and a characteristic parameter threshold value when the indoor environment humidity is humid are respectively set, in the process of adjusting the smart home by a control center, the characteristic parameters of the smart home are obtained through a data acquisition terminal, the obtained characteristic parameters are compared with the characteristic parameter threshold value, and when the characteristic parameters of the smart home do not exceed the characteristic parameter threshold value, the control center stops the adjusting process of the smart home.

In the embodiments provided in the present invention, it should be understood that the disclosed apparatus, device and method may be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the modules is only one logical functional division, and there may be other divisions when the actual implementation is performed; the modules described as separate parts may or may not be physically separate, and parts displayed as modules may or may not be physical units, may be located in one position, or may be distributed on multiple network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the method of this embodiment.

Finally, it should be noted that the above examples are only intended to illustrate the technical process of the present invention and not to limit the same, and although the present invention has been described in detail with reference to the preferred embodiments, it will be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical process of the present invention without departing from the spirit and scope of the technical process of the present invention.

Claims

1. A controller for intelligent home equipment comprises a control center, wherein the control center is in communication connection with an intelligent home terminal, and is characterized in that the control center is also in communication connection with a data acquisition module, a data processing module, a data analysis module and an intelligent adjustment module;

the intelligent adjusting module is used for adjusting indoor environment data, and the control center controls the corresponding intelligent home to perform corresponding adjustment after receiving the instruction of the intelligent adjusting module; the method comprises the steps that for each intelligent home, a characteristic parameter threshold value when the indoor environment temperature is high and low and a characteristic parameter threshold value when the indoor environment humidity is humid are respectively set, in the process that the control center adjusts the intelligent home, the characteristic parameters of the intelligent home are obtained through a data acquisition terminal, the obtained characteristic parameters are compared with the characteristic parameter threshold value, and when the characteristic parameters of the intelligent home do not exceed the characteristic parameter threshold value, the control center stops the adjusting process of the intelligent home.

2. The controller for smart home devices according to claim 1, wherein the process of the home data acquisition terminal acquiring the feature parameters of the smart home device comprises: the method comprises the steps that a home data acquisition terminal is installed on an intelligent home, and basic information of the intelligent home is bound with the home data acquisition terminal; setting corresponding characteristics according to different smart homes and purposes thereof; acquiring real-time characteristic parameters of each characteristic of the smart home through a home data acquisition terminal; and sending the obtained real-time characteristic parameters to a data processing module, and uploading the real-time characteristic parameters to a control center for storage.

3. The controller for smart home devices according to claim 1, wherein the process of the environment data acquisition terminal acquiring the environment data includes: the method comprises the steps that environment data acquisition terminals are installed on outdoor and indoor smart homes, and the environment data acquisition terminals on the indoor smart homes are bound with home data acquisition terminals on the smart homes; the method comprises the steps of obtaining indoor environment data and outdoor environment data of the intelligent home, wherein the environment data comprise indoor environment temperature and indoor environment humidity, and the outdoor environment data comprise outdoor environment temperature and outdoor environment humidity.

4. The controller for smart home devices according to claim 3, wherein the processing procedure of the data processing module comprises: establishing a temperature two-dimensional coordinate system and a humidity two-dimensional coordinate system, respectively mapping the obtained outdoor environment temperature and the outdoor environment humidity to the temperature two-dimensional coordinate system and then the humidity two-dimensional coordinate system, and respectively generating an outdoor temperature change curve and an outdoor humidity change curve so as to obtain an outdoor temperature curve graph and an outdoor humidity curve graph; respectively setting a temperature threshold interval and a humidity threshold interval in an outdoor temperature curve graph and an outdoor humidity curve graph; the temperature threshold interval comprises an upper temperature threshold line and a lower temperature threshold line, and the humidity threshold interval comprises an upper humidity threshold line and a lower humidity threshold line; marking the part of the outdoor temperature change curve outside the temperature threshold interval; and marking the part of the outdoor humidity change curve, which is positioned outside the humidity threshold value interval.

5. The controller for smart home devices according to claim 4, wherein the analysis process of the data analysis module comprises: through outdoor temperature curve graph, judge outdoor environment temperature condition to according to outdoor environment temperature generation temperature regulation instruction, through outdoor humidity curve graph, judge outdoor environment humidity condition, and according to outdoor environment humidity generation humidity regulation instruction, obtain indoor environment temperature and indoor environment humidity, and send indoor environment temperature and indoor environment humidity to intelligent regulation module.

6. The controller for smart home devices according to claim 5, wherein the determining process of the outdoor environment temperature condition comprises: marking a curve part which is positioned below the lower limit threshold line of the outdoor temperature in the outdoor temperature curve graph, and acquiring the area LS of a closed interval formed between the curve in the outdoor temperature curve graph and the lower limit threshold line of the outdoor temperature; marking a curve part positioned above an upper limit threshold line of the outdoor temperature in the outdoor temperature curve, and acquiring an area RS of a closed interval formed between the curve in the outdoor temperature curve graph and the upper limit threshold line of the outdoor temperature; when LS is larger than or equal to L0, the outdoor environment temperature is judged to be low; when RS is larger than or equal to R0, the external environment temperature is judged to be high temperature; the L0 and the R0 are both temperature thresholds, and L0 < R0.

7. The controller for smart home devices according to claim 6, wherein the determination process of the outdoor environment humidity comprises: marking a curve part which is positioned below the lower limit threshold line of the outdoor humidity in the outdoor humidity curve graph, and acquiring the area GS of a closed interval formed between the curve in the outdoor humidity curve graph and the lower limit threshold line of the outdoor humidity; marking a curve part positioned above an upper limit threshold line of the outdoor humidity in the outdoor humidity curve, and acquiring an area DS of a closed interval formed between the curve in the outdoor humidity curve graph and the upper limit threshold line of the outdoor humidity; when LS is larger than or equal to G0, judging that the outdoor environment humidity is dry; when RS is larger than or equal to D0, judging that the external environment humidity is moist; both G0 and D0 are humidity thresholds, and G0 < D0.

8. The controller for smart home devices according to claim 7, wherein the adjusting process of the smart adjusting module comprises: respectively obtaining an indoor and outdoor temperature difference WC and an indoor and outdoor humidity difference SC; when the outdoor environment temperature is high and WC is greater than W0, judging that the indoor temperature is too high, generating a cooling instruction and sending the cooling instruction to a control center; when the outdoor environment temperature is low and WC is less than W1, judging that the indoor temperature is too low, and generating a heating instruction; when the outdoor environment humidity is humid and SC is greater than S0, judging that the indoor humidity is too high, generating a dehumidification instruction and sending the dehumidification instruction to a control center; when the outdoor environment humidity is dry and WC is less than S1, the indoor humidity is judged to be low, and the operation is not carried out.