CN116658033A

CN116658033A - Intelligent door and window cloud intelligent operation system

Info

Publication number: CN116658033A
Application number: CN202310691755.XA
Authority: CN
Inventors: 海宪华
Original assignee: Henan Zhaoji Construction Engineering Co ltd
Current assignee: Henan Zhaoji Construction Engineering Co ltd
Priority date: 2023-06-12
Filing date: 2023-06-12
Publication date: 2023-08-29

Abstract

The application discloses an intelligent door and window cloud intelligent operation system, which relates to the technical field of control systems and comprises an information acquisition module: the information acquisition module acquires environment data in real time by a plurality of information acquisition sub-modules, classifies the environment data and uploads the environment data to the cloud platform; an information processing module: the information processing module is used for analyzing various environmental data uploaded to the cloud platform, the information processing module stores preset ranges, the preset ranges are normal ranges of each type of environmental data, and when any type of environmental data exceeds the corresponding preset range, the information processing module sends preset operation instructions; door and window control module: the door and window control module is used for receiving the operation instruction and performing closing or opening operation of the door and window according to the operation instruction.

Description

Intelligent door and window cloud intelligent operation system

Technical Field

The application relates to the technical field of control systems, in particular to an intelligent door and window cloud intelligent operating system.

Background

The door and window system is used as a difficult or deficient component part in a building, according to the characteristic of self-movable, the door and window opening and closing control is used for controlling the in and out of the building and the anti-theft function, and when the air is good, the opening of the window can achieve the good ventilation effect, the effect of improving the indoor air quality is achieved, and when the air is bad or the window is blown down, the important functions of particulate matters and rainwater entering the interior of the building can be reduced by closing the window.

At present, doors and windows of many families are opened and closed manually or remotely, so that the condition that the opening and closing of the doors and windows are not timely when no people or the environment is changed is not noticed at the first time in the families, for example, rainwater is not noticed to fall into a room when a window is opened, even when the window is closed, gas leakage leads to exceeding of gas concentration, that is to say, the current doors and windows are difficult to identify after the environment is changed, and then the automatic opening and closing operation of the doors and windows is carried out, so that the possibility of threatening the safety of life and property is reduced, and therefore, an intelligent cloud door and window operating system is needed to realize the automatic opening and closing operation of the doors and windows based on the analysis of environmental data.

Disclosure of Invention

The invention aims at: the intelligent door and window cloud intelligent operation system has the advantages that according to the technical problem that the door and window is difficult to identify the environment change and then is automatically opened and closed, various environment data can be measured, an instruction for opening or closing the door and window is sent after the data are analyzed through the cloud platform, the opening and closing state of the door and window is self-adaptively adjusted at the first time through real-time monitoring of the environment data, and the threat of emergency to life and property safety is effectively reduced.

In order to achieve the above object, the present application provides the following technical solutions:

in a first aspect of the present application, there is provided a smart door and window cloud intelligent operating system, comprising:

and the information acquisition module is used for: the information acquisition module acquires environment data in real time by a plurality of information acquisition sub-modules, classifies the environment data and uploads the environment data to the cloud platform;

an information processing module: the information processing module is used for analyzing various environmental data uploaded to the cloud platform, the information processing module stores preset ranges, the preset ranges are normal ranges of each type of environmental data, and when any type of environmental data exceeds the corresponding preset range, the information processing module sends preset operation instructions;

door and window control module: the door and window control module is used for receiving the operation instruction and performing door and window closing or opening operation according to the operation instruction;

the environmental data includes, but is not limited to: wind speed data acquired by a wind speed acquisition submodule; rainfall data acquired by the rainfall acquisition submodule; gas concentration data acquired by the gas acquisition submodule; and the smoke concentration data are collected by the smoke collecting submodule.

In an embodiment of the present application, the information processing module determines a priority of the environmental data collected and uploaded by the plurality of information collecting sub-modules, where the priority is determined as classifying the plurality of environmental data, the information processing module preferentially analyzes the environmental data with a high priority, and when any data in the environmental data in the priority exceeds the corresponding preset range, the information processing module sends the operation instruction corresponding to the environmental data until the environmental data in the priority does not exceed the preset range, and the information processing module starts to analyze the environmental data of the next priority, where the control instructions of the environmental data of the same level are unified.

In an embodiment of the present application, the system further includes an area module, where the area module sets the collection range of the environmental data to different areas, and the preset ranges corresponding to the environmental data in different areas are different.

In an embodiment of the present application, a multi-level threshold is set according to the preset range, and the higher the level number is, the larger the difference between the threshold and the preset range is, and when the environmental data is at different threshold levels, the information processing module sends the operation instruction set corresponding to the threshold level.

In an embodiment of the present application, the system further includes an alarm prompting module: the alarm prompting module is used for receiving the operation instruction and sending out a local alarm and/or a remote alarm according to the operation instruction, wherein the local alarm is used for sending out an alarm prompt to the acquisition range of the environmental data; the remote alarm is to send a remote alarm prompt to a preset signal receiving device, and the signal receiving device comprises communication devices which are not limited to contacts and property security rooms.

In an embodiment of the present application, the door and window control module further includes a human body recognition sub-module, which determines whether a person exists in the collection range of the environmental data according to the number of people who are recognized to enter and exit, when the person exists, the alarm prompting module issues the local alarm according to the operation instruction, and when the local alarm is issued for a preset time, the environmental data still exceeds the preset range, a remote alarm is issued; the remote alert is sent directly when no one is present.

In an embodiment of the application, the door and window control device further comprises a door and window abnormality module, wherein the door and window abnormality module is used for controlling the door and window control module to lock the door and window in the process of recognizing that the door and window is opened in an abnormality mode, and the door and window abnormality module is used for recognizing that the human body recognition submodule recognizes that the human body enters the acquisition range of the environmental data after the door and window is opened in an abnormality mode, and controlling the door and window control module to lock the door and window again.

In an embodiment of the present application, the environmental data further includes, but is not limited to: oxygen content data acquired by the oxygen content acquisition submodule; humidity data acquired by the humidity acquisition submodule; particulate matter concentration data acquired by the dust acquisition submodule; temperature data acquired by the temperature acquisition submodule; sound data collected by the noise collection submodule; negative oxygen ion content data acquired by the negative oxygen ion acquisition submodule; radiation value data acquired by the radiation acquisition submodule; ozone content data collected by the ozone collection submodule.

In an embodiment of the present application, the sound data collected by the noise collection sub-module includes internal volume data generated in the environmental data collection range and external noise data generated outside the environmental data collection range and transmitted into the environmental data collection range, the preset range corresponding to the sound data includes a first range, a second range and a third range from high to low according to a range value, and the door and window control module controls the window to be closed when the external noise data is higher than the first range in a preset first time; in a preset second time, when the internal volume data is not lower than the third range, the external noise data is higher than the first range, and the door and window control module controls a window to be closed; and when the internal volume data is lower than the third range and the external noise data is higher than the second range, the door and window control module controls the window to be closed.

In a second aspect of the present application, there is provided a smart door and window cloud intelligent operation method, comprising:

collecting environment data in real time, classifying a plurality of environment data, and uploading the environment data to a cloud platform;

analyzing various environmental data uploaded to the cloud platform, storing a preset range, wherein the preset range is a normal range of each environmental data, and sending a preset operation instruction when any one of the environmental data exceeds the corresponding preset range;

receiving the operation instruction, and performing closing or opening operation of the door and window according to the operation instruction;

the environmental data includes, but is not limited to: wind speed data, rainfall data, gas concentration data and smoke concentration data.

In an embodiment of the present application, priority determination is performed on a plurality of environmental data, where the priority determination is that a plurality of environmental data are classified, the information processing module preferentially analyzes the environmental data with a high priority, and when any data in the environmental data in the priority exceeds the corresponding preset range, the information processing module sends the corresponding operation instruction until the environmental data with the priority does not exceed the preset range, and the information processing module starts to analyze the environmental data with the next priority, where the control instructions of the environmental data with the same level are unified.

In an embodiment of the present application, different areas are set for the collection range of the environmental data, and the preset ranges corresponding to the environmental data in the different areas are different.

In an embodiment of the present application, a multi-level threshold is set according to the preset range, and the higher the level number is, the larger the difference between the threshold and the preset range is, and when the environmental data is at different threshold levels, the operation instruction corresponding to the threshold level setting is sent.

In an embodiment of the present application, a local alarm and/or a remote alarm are/is sent according to the operation instruction, where the local alarm is an alarm prompt sent to the collection range of the environmental data; the remote alarm is to send a remote alarm prompt to a preset signal receiving device, and the signal receiving device comprises communication devices which are not limited to contacts and property security rooms.

In an embodiment of the application, whether people exist in the acquisition range of the environmental data is judged according to the number of people who are identified to enter and exit, when people exist, the local alarm is sent according to the operation instruction, and when the local alarm is sent within the preset time, the environmental data still exceeds the preset range, a remote alarm is sent; the remote alert is sent directly when no one is present.

In an embodiment of the application, the door and window is locked in the process of recognizing that the door and window is opened in an abnormal mode, and after recognizing that the door and window is opened in an abnormal mode, recognizing that a human body enters the acquisition range of the environmental data, and controlling the door and window to be locked again.

In an embodiment of the present application, the environmental data further includes, but is not limited to: oxygen content data; humidity data; particulate matter concentration data; temperature data; wind direction data; sound data; negative oxygen ion content data; radiation value data; ozone content data.

In an embodiment of the present application, the sound data includes internal volume data generated in the environmental data collection range and external noise data generated outside the environmental data collection range and transmitted into the environmental data collection range, the preset range corresponding to the sound data includes a first range, a second range and a third range from high to low according to a range value, and in a preset first time, when the external noise data is higher than the first range, a window is controlled to be closed; when the internal volume data is not lower than the third range in the preset second time, the external noise data is higher than the first range, and the window is controlled to be closed; and when the internal volume data is lower than the third range, the external noise data is higher than the second range, and the window is controlled to be closed.

The application has the following beneficial effects:

1. in an embodiment of the application, the information acquisition module acquires a plurality of environmental data in real time, sorts and uploads the environmental data to the information processing module, the information processing module refers to the preset range, carries out real-time analysis on each environmental data, when any one of the environmental data exceeds the corresponding preset range, the information processing module sends out the operation instruction, the door and window control module receives the operation instruction, carries out corresponding opening or closing operation of doors and windows according to the operation instruction, and as the environmental data is acquired and analyzed in real time, once the environmental data exceeding the preset range appears, the operation instruction is sent out immediately, so that the system can detect the plurality of environmental data, carries out self-adaptive real-time opening and closing control on doors and windows, and effectively avoids the problem that the opening and closing of the doors and windows are not timely threatening personnel and property safety;

2. prioritizing a plurality of the environmental data, for example, the primary data is the environmental data that affects life safety, including in particular but not limited to: the gas concentration data and the smoke concentration data can cause damage to the body and even death when excessive gas and smoke are inhaled, and the gas concentration in the closed space is too high, so that the risk of explosion exists, and the smoke is usually generated along with fire, so that the life and property safety is extremely easy to be threatened; when encountering heavy wind and heavy rain, the indoor article and property safety can be damaged, and the life safety can not be threatened directly basically; therefore, when the window is required to be closed in a rainy day and the window is required to be opened in the same time when the condition that the indoor gas exceeds the standard is detected, the information processing module preferentially analyzes the gas concentration data in the primary data, when the gas concentration data exceeds the corresponding preset range, the information processing module sends the corresponding operation command, the door and window are opened, the indoor gas concentration is reduced, until the gas concentration data and other environmental data in the primary data do not exceed the preset range, the information processing module starts to analyze the current rainfall data in the secondary data, and when the gas concentration data exceeds the corresponding preset range, the rainfall data in the period of time is not analyzed, only the real-time environmental data are analyzed, so that the information storage pressure of the information processing module is saved, the data processing lag is avoided, the control command of the environmental data in the same stage is unified, the situation that the environmental data in the same stage exceed the corresponding preset range at the same time, but the contradiction commands are caused by the operation command of opening the window at the same time is avoided; furthermore, multistage data comprising three-stage data and four-stage data can be set according to requirements and preference, and finer priority grading can be carried out on the environment data;

3. According to different purposes of the collection range of the environmental data, the preset ranges generated by the environmental data in different areas are different, for example, the kitchen area is due to frequent use of fuel gas, so that the preset ranges corresponding to the fuel gas concentration data and the smoke concentration data in the kitchen area are higher than those of other areas, such as a living room and a bedroom, the collection area of the environmental data is set in areas through the area module, and the accurate preset range setting can be carried out on each area with different purposes; meanwhile, the regional module is used for carrying out regional setting on the acquisition regions of the environmental data, so that different opening and closing states of doors and windows in different regions can be achieved, for example, when the wind direction is stable in rainy days, the wind speeds and the rain amounts received by windows in different directions are different, therefore, the windows in regions where the wind speed data and the rain amount data do not reach the corresponding preset ranges can not be closed, for example, when cooking in a kitchen region, the smoke concentration data exceeds the corresponding preset ranges, and smoke does not float to a bedroom region, and therefore, the doors and windows in the kitchen region can be opened, and the door and window states of the bedroom are kept unchanged, so that the opening and closing modes of the doors and the windows are more flexible;

4. Setting a multi-level threshold according to the preset range, and sending corresponding operation instructions according to different reached thresholds, for example, when the gas concentration data is just higher than the preset range, namely a first-level threshold in a kitchen area, the information processing module sends a windowing instruction, and when the gas concentration data is higher than a second-level threshold, the information processing module sends windowing and opening instructions, and the corresponding thresholds and the operation instructions are set according to specific environmental data, so that the opening and closing modes of doors and windows are more flexible;

5. by setting the alarm prompting module, people in or out of the environment data acquisition area can timely know the environment change, timely check and repair the cause of the environment data change, for example, when the information processing module analyzes that the smoke concentration data exceeds the preset range, the alarm prompting module carries out local alarm to prompt people to check smoke, if fire is extinguished, if no person exists in the environment data acquisition area or the person does not have the mobility, remote alarm is carried out to inform the contact person to timely return to the environment data acquisition area to process the smoke generation cause, and further if the smoke concentration data exceeds a high threshold value, namely, the smoke concentration is high, the contact person is difficult to timely arrive, the information processing module sends an opening instruction, and the remote alarm informs the property to enter to process the smoke generation cause, so that the life safety and property safety of the people in the environment data acquisition area can be guaranteed to the greatest extent;

6. By setting the alarm prompting module, people in or out of the environment data acquisition area can timely know the environment change, timely check and repair the cause of the environment data change, for example, when the information processing module analyzes that the smoke concentration data exceeds the preset range, the alarm prompting module carries out local alarm to prompt people to check smoke, if fire is extinguished, if no person exists in the environment data acquisition area or the person does not have the mobility, remote alarm is carried out to inform the contact person to timely return to the environment data acquisition area to process the smoke generation cause, and further if the smoke concentration data exceeds a high threshold value, namely, the smoke concentration is very high, the information processing module sends out an opening instruction to inform the property to enter into processing the smoke generation cause, and the life safety and property safety of the people in the environment data acquisition area are guaranteed to the greatest extent;

7. the corresponding information acquisition sub-module of the corresponding sensor group can be set according to specific requirements to acquire corresponding environmental data, the information processing module stores the corresponding preset range, and further, the priority is set according to results caused by the abnormality of the environmental data and the personal preference of various environmental data, so that the door and window performs switching operation more in accordance with the personal preference based on the current environmental conditions;

8. The sound data collected by the noise collection sub-module comprises internal volume data generated in the environment data collection range and external noise data generated outside the environment data collection range and transmitted into the environment data collection range, namely, indoor volume and outdoor volume, and a first time and a second time are set, for example, the first time is an active time, when the external noise data is higher than the first range, the door and window control module controls the window to be closed, and when the external noise data is lower than the second rest time, the door and window control module controls the window to be closed by firstly identifying the internal volume data, when the internal volume data is lower than the third range, and when the internal volume data is lower than the third range, no activity is performed in the environment data collection range, and rest is possible, so that rest quality is required to be ensured more quietly, and therefore, the external noise data is higher than the second range, and the second range is lower than the first range; when the internal volume data is not lower than the third range, that is, the current environment data acquisition range is still active, and the environment data is not at rest temporarily, when the external noise data is also higher than the first range, the window is controlled to be closed by the door and window control module, so that the window is closed when the external volume is lower during rest, the rest quality is ensured, and when the environment data is active, the sensitivity to noise is lower relative to the rest, and the window opening ventilation can be performed.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the disclosure and together with the description, serve to explain the principles of the disclosure.

Fig. 1 is a schematic diagram of an electronic device in a hardware operating environment according to an embodiment of the present application.

Fig. 2 is a schematic diagram of a system architecture according to an embodiment of the application.

Fig. 3 is a schematic diagram of a functional module of a smart operation system for a smart door and window cloud according to an embodiment of the present application.

Fig. 4 is a flowchart of steps of a smart operation method for a smart door and window according to an embodiment of the present application.

Detailed Description

In order that the above-recited objects, features and advantages of the present application will become more readily apparent, a more particular description of the application will be rendered by reference to the appended drawings and appended detailed description. It will be apparent that the described embodiments are some, but not all, embodiments of the application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

The scheme of the application is further described below with reference to the accompanying drawings.

Referring to fig. 1, fig. 1 is a schematic structural diagram of an electronic device in a hardware running environment according to an embodiment of the present application.

As shown in fig. 1, the electronic device may include: a processor 1001, such as a central processing unit (Central Processing Unit, CPU), a communication bus 1002, a user interface 1003, a network interface 1004, a memory 1005. Wherein the communication bus 1002 is used to enable connected communication between these components. The user interface 1003 may include a Display, an input unit such as a Keyboard (Keyboard), and the optional user interface 1003 may further include a standard wired interface, a wireless interface. The network interface 1004 may optionally include a standard wired interface, a WIreless interface (e.g., a WIreless-FIdelity (WI-FI) interface). The Memory 1005 may be a high-speed random access Memory (Random Access Memory, RAM) Memory or a stable nonvolatile Memory (NVM), such as a disk Memory. The memory 1005 may also optionally be a storage device separate from the processor 1001 described above.

Those skilled in the art will appreciate that the structure shown in fig. 1 is not limiting of the electronic device and may include more or fewer components than shown, or may combine certain components, or may be arranged in different components.

As shown in fig. 1, an operating system, a data storage module, a network communication module, a user interface module, and an electronic program may be included in the memory 1005 as one type of storage medium.

In the electronic device shown in fig. 1, the network interface 1004 is mainly used for data communication with a network server; the user interface 1003 is mainly used for data interaction with a user; the processor 1001 and the memory 1005 in the electronic device can be arranged in the electronic device, and the electronic device calls an intelligent operation system of the intelligent door and window cloud stored in the memory 1005 through the processor 1001 and executes the intelligent operation method of the intelligent door and window cloud provided by the embodiment of the application.

Referring to fig. 2, a system architecture diagram of an embodiment of the present application is shown. As shown in fig. 2, the system architecture may include a first device 201, a second device 202, a third device 203, a fourth device 204, and a network 205. Wherein the network 205 is used as a medium to provide communication links between the first device 201, the second device 202, the third device 203, and the fourth device 204. The network 205 may include various connection types, such as wired, wireless communication links, or fiber optic cables, among others.

In this embodiment, the second device 202 may process data and/or information obtained from the first device 201, the third device 203, and/or the fourth device 204. In some embodiments, the second device 202 may be a single server or a group of servers. The server farm may be centralized or distributed. In some embodiments, the second device 202 may be local or remote. For example, the second device 202 may access information and/or data from the first device 201, the third device 203, and/or the fourth device 204 via the network 205. As another example, the processing device 120 may be directly connected to the first device 201, the second device 202, the third device 203, and/or the fourth device 204 to access information and/or data. In some embodiments, the second device 202 may be implemented on a cloud platform. For example, the cloud platform may include a private cloud, a public cloud, a hybrid cloud, a community cloud, a distributed cloud, an inter-cloud, a multi-cloud, and the like, or any combination thereof.

In the present embodiment, the first device 201 is an information collecting device, and when the device is hardware, it may be various electronic devices including, but not limited to, a smoke sensor 204-1, a raindrop sensor 204-2, a temperature sensor 204-3, a wind speed sensor, an oxygen content sensor, a humidity sensor, a dust sensor, a gas sensor, a noise sensor, a negative oxygen ion sensor, a radiation sensor, an ozone sensor, a server, and the like. In this case, the hardware device may be realized as a distributed device group composed of a plurality of devices, or may be realized as a single device. When the device is software, it can be installed in the above-listed devices. In this case, as software, it may be implemented as a plurality of software or software modules for providing distributed services, for example, or as a single software or software module.

In this embodiment, the fourth device 204 is a hardware device or software that may support a network connection to provide various network services. When the device is hardware, it may be a variety of electronic devices including, but not limited to, a smart phone 204-1, a tablet, a projector 204-2, a desktop computer 204-3, a server, and the like. In this case, the hardware device may be realized as a distributed device group composed of a plurality of devices, or may be realized as a single device. When the device is software, it can be installed in the above-listed devices. In this case, as software, it may be implemented as a plurality of software or software modules for providing distributed services, for example, or as a single software or software module. The present invention is not particularly limited herein.

The first device 201, the second device 202 and the fourth device 204 are all understood as terminals. The terminal may be a terminal having a wireless transceiving function or a chip system which may be provided in the terminal. The terminal device may also be referred to as a User Equipment (UE), an access terminal, a subscriber unit, a subscriber station, a mobile station, a remote terminal, a mobile device, a user terminal, a wireless communication device, a user agent, or a user device. The terminal device in the embodiment of the present application may be a mobile phone (mobile phone), a tablet computer (Pad), a computer with a wireless transceiving function, a Virtual Reality (VR) terminal device, an augmented reality (augmented reality, AR) terminal device, a wireless terminal in industrial control (industrial control), a wireless terminal in unmanned driving (self driving), a wireless terminal in remote medical (remote medical), a wireless terminal in smart grid (smart grid), a wireless terminal in transportation security (transportation safety), a wireless terminal in smart city (smart city), a wireless terminal in smart home (smart home), a vehicle-mounted terminal, an RSU with a terminal function, or the like. The communication between the first device 201, the fourth device 204, and the second device 202 may be communication between terminals, and may also be referred to as side communication.

In this embodiment, the third device 203 is a storage device, which may store data (for example, environment data, a preset range corresponding to various environment data, etc.), instructions, and/or any other information. In some embodiments, the storage device may store data acquired from the first device 201, the second device 202, and/or the fourth device 204. For example, the storage device may store various environmental data or the like acquired from the first device 201. In some embodiments, the storage device may store data and/or instructions that the cloud platform may execute or use to perform the exemplary methods described in this specification.

In some embodiments, the storage device may include one or a combination of a large capacity memory, a removable memory, a volatile read-write memory, a read-only memory (ROM), and the like. In some embodiments, the storage device may be implemented by an apparatus described in this specification.

In some embodiments, the storage device may be connected to the network 205 to enable communication with one or more components (e.g., the first device 201, the fourth device 204) in a smart door and window cloud smart operating system. One or more components in the smart window cloud smart operating system may read data or instructions in the third device 203 over the network 205. In some embodiments, the third device 203 may be part of the second device 202 or may be a separate device that is directly or indirectly connected to the second device 202.

Network 205 may include any suitable network capable of facilitating the exchange of information and/or data of a smart door and window cloud smart operating system. In some embodiments, one or more components of a smart door and window cloud smart operating system (e.g., first device 201, second device 202, third device 203, fourth device 204) may exchange information and/or data with one or more components of a smart door and window cloud smart operating system over network 205. For example, the second device 202 may obtain the environmental data from the first device 201 via the network 205. In some embodiments, network 205 may include one or more of a public network (e.g., the internet), a private network (e.g., a Local Area Network (LAN), a Wide Area Network (WAN)), etc., a wired network (e.g., ethernet), a wireless network (e.g., an 802.11 network, a wireless Wi-Fi network, etc.), a cellular network (e.g., a Long Term Evolution (LTE) network), a frame relay network, a Virtual Private Network (VPN), a satellite network, a telephone network, a router, a hub, a server computer, etc. In some embodiments, network 205 may include one or more network access points. For example, the network 205 may include wired and/or wireless network access points, such as base stations and/or internet switching points, through which one or more components of a smart door and window cloud intelligent operating system may connect to the network 205 to exchange data and/or information.

In a specific implementation, the device may provide the corresponding network service by installing a corresponding client application or server application. After the device has installed the client application, it may be embodied as a client in network communication. Accordingly, after the server application is installed, it may be embodied as a server in network communications.

It should be understood that the number of networks and devices in fig. 2 is merely illustrative. There may be any number of networks and devices as desired for an implementation.

Referring to fig. 3, an embodiment of the present application provides a smart door and window cloud intelligent operating system 300, comprising:

information acquisition module 301: the information acquisition module 301 acquires environmental data in real time by using a plurality of information acquisition sub-modules, classifies the environmental data and uploads the environmental data to the cloud platform;

it should be noted that the environmental data includes, but is not limited to: wind speed data acquired by a wind speed acquisition submodule; rainfall data acquired by the rainfall acquisition submodule; gas concentration data acquired by the gas acquisition submodule; the smoke concentration data are collected through the smoke collecting submodule, wherein when the wind speed is not fast, wind enters the room to replace indoor air, so that the effect of improving the air quality is achieved, but if the wind speed is too fast, the window is opened to enable the wind to enter the room, and damage to indoor property is likely to occur; similarly, opening a window to allow rain to fly into the room may also damage the property in the room; if the gas leakage or fire occurs in the window closing state, the gas concentration or smoke concentration in the room is much higher than that in the relatively open window state, so that the human body absorbs the gas or smoke with higher concentration, the human body is more likely to be damaged, and even the gas concentration is too high, the explosion risk is likely to exist, and it is noted that the cloud platform can store various environmental data in a classified manner, and the cloud platform specifically can include private cloud, public cloud, mixed cloud, community cloud, distributed cloud, inter-cloud, cloudy or any combination thereof;

Information processing module 302: the information processing module 302 is configured to analyze a plurality of environmental data uploaded to the cloud platform, where the information processing module 302 stores a preset range, the preset range is a normal range of each of the environmental data, and when any one of the environmental data exceeds a corresponding preset range, the information processing module 302 sends a preset operation instruction;

it should be noted that, the cloud platform correspondingly sets a plurality of preset ranges according to a plurality of environmental data, for example, when the wind speed is greater than 4m/s, the indoor objects may be blown down, so that the preset range for the wind speed is set to be less than 4m/s, and when the wind speed data acquired by the wind speed acquisition sub-module is greater than 4m/s, a control instruction for closing the door and window is sent; similarly, when the rainfall data acquired by the rainfall acquisition sub-module exceeds the corresponding preset range, a control instruction for closing the door and window is sent out; when the gas concentration data acquired by the gas acquisition submodule and the smoke concentration data acquired by the smoke acquisition submodule exceed the corresponding preset range, a control instruction for opening doors and windows is sent out;

door and window control module 303: the door and window control module 303 is configured to receive the operation instruction, and perform a door and window closing or opening operation according to the operation instruction;

In this embodiment, the information collecting module 301 collects multiple environmental data in real time, sorts and uploads the environmental data to the information processing module 302, the information processing module 302 refers to the preset range, performs real-time analysis on each environmental data, when any one of the environmental data exceeds the corresponding preset range, the information processing module 302 sends out the operation command, the door and window control module 303 receives the operation command, performs opening or closing operation of the corresponding door and window according to the operation command, and as the environmental data is collected and analyzed in real time, once the environmental data exceeding the preset range appears, the operation command is sent out immediately, so that the system can detect multiple environmental data, perform self-adaptive real-time opening and closing control on the door and window, and effectively avoid the problem that the opening and closing of the door and window are not timely leading to life and property security being threatened.

In a possible implementation manner, the information processing module 302 determines the priority of the environmental data collected and uploaded by the information collecting submodule, the priority is determined to be that the environmental data is classified, the information processing module 302 preferentially analyzes the environmental data with high priority, when any data in the environmental data in the priority exceeds the corresponding preset range, the information processing module 302 sends the corresponding operation instruction until the environmental data with the priority does not exceed the preset range, and the information processing module 302 starts to analyze the environmental data with the current next level of priority, and the control instructions of the environmental data with the same level are unified.

In this embodiment, the plurality of environmental data are prioritized, for example, the primary data are the environmental data that affect life safety, and specifically include, but are not limited to: the gas concentration data and the smoke concentration data can cause damage to the body and even death when excessive gas and smoke are inhaled, and the gas concentration in the closed space is too high, so that the risk of explosion exists, and the smoke is usually generated along with fire, so that the life and property safety is extremely easy to be threatened;

when encountering heavy wind and heavy rain, the indoor article and property safety can be damaged, and the life safety can not be threatened directly basically;

therefore, when it is detected that the window is required to be closed in a rainy day and the window is required to be opened in the case that the indoor gas exceeds the standard, the information processing module 302 preferentially analyzes the gas concentration data in the first-level data, when the gas concentration data exceeds the preset range, the information processing module 302 sends the corresponding operation command, the door and window are opened, the indoor gas concentration is reduced, until the gas concentration data and other environmental data in the first-level data do not exceed the preset range, the information processing module 302 starts to analyze the rainfall data in the second-level data at present, and when the gas concentration data exceeds the rainfall data in the period corresponding to the preset range, the analysis is not performed, only the real-time environmental data is analyzed, so that the information storage pressure of the information processing module 302 is saved, and meanwhile, the control commands of the environmental data in the same level are unified, and the contradiction commands caused by the operation of the window are avoided when the environmental data in the same level exceeds the preset range at the same time; furthermore, the multi-level data can be set according to the requirements and preferences, including three-level data and four-level data, and the environment data is subjected to finer priority classification.

In a possible implementation manner, the system further comprises an area module, wherein the area module sets the acquisition range of the environmental data into different areas, and the preset ranges corresponding to the environmental data in different areas are different.

In this embodiment, according to different uses of the collection range of the environmental data, the preset ranges generated by the plurality of environmental data in different areas are different, for example, in an indoor kitchen due to frequent use of fuel gas, the preset ranges corresponding to the fuel gas concentration data and the smoke concentration data in the kitchen area are higher than those in other areas, for example, a living room and a bedroom, the collection area of the environmental data is set in areas by the area module, and the accurate preset range setting can be performed for each area with different uses; meanwhile, the regional module is used for setting the acquisition regions of the environmental data in a regional mode, different opening and closing states of doors and windows in different regions can be achieved, for example, when the wind direction is stable in a rainy day, the wind speeds and the rain amounts received by windows in different directions are different, so that the windows in the regions, which do not reach the corresponding preset ranges, of the wind speed data and the rain amount data can not be closed, for example, when the kitchen region is used for cooking, the smoke concentration data exceeds the corresponding preset ranges, and smoke does not float to the bedroom region, and therefore the doors and windows in the kitchen region can be opened, the states of the doors and windows in the bedroom are kept unchanged, and the doors and windows are opened and closed more flexibly.

In a possible implementation manner, the multiple threshold values are set according to the preset range, the higher the number of levels is, the larger the difference between the threshold value and the preset range is, and when the environmental data is at different threshold levels, the information processing module 302 sends the operation instruction corresponding to the threshold level setting.

In this embodiment, the multi-level threshold is set according to the preset range, and the corresponding operation instruction is sent according to the different reached thresholds, for example, when the gas concentration data is just higher than the preset range, that is, the first-level threshold, in the kitchen area, the information processing module 302 sends a windowing instruction, and when the gas concentration data is higher than the second-level threshold, the information processing module 302 sends a windowing and opening instruction, and the corresponding threshold and the operation instruction are set according to the specific environmental data, so that the opening and closing modes of doors and windows are more flexible.

In one possible embodiment, the method further comprises an alarm prompting module: the alarm prompting module is used for receiving the operation instruction and sending out a local alarm and/or a remote alarm according to the operation instruction, wherein the local alarm is used for sending out an alarm prompt to the acquisition range of the environmental data; the remote alarm is to send a remote alarm prompt to a preset signal receiving device, and the signal receiving device comprises communication devices which are not limited to contacts and property security rooms.

In this embodiment, by setting the alarm prompting module, a person located in or outside the environmental data collection area can timely learn about the environmental change, and timely check and repair the reason for the environmental change, for example, when the information processing module 302 analyzes that the smoke concentration data exceeds the preset range, the alarm prompting module performs a local alarm to prompt the person to check smoke, if a fire situation is extinguished, if no person or no mobility of the person is present in the environmental data collection area, a remote alarm is performed to notify the contact person to timely return to the environmental data collection area to process the smoke generation reason, further, if the smoke concentration data exceeds a high threshold, that is, the smoke concentration is very high, and when the contact person is difficult to timely arrive, the information processing module 302 sends an opening instruction, and the remote alarm notifies the property to process the smoke generation reason, so that the life safety and property safety of the person in the environmental data collection area are guaranteed to the greatest extent.

In a possible implementation manner, the door and window control module 303 further includes a human body recognition sub-module, which determines whether a person exists in the collection range of the environmental data according to the number of people who are recognized to enter and exit, when the person exists, the alarm prompting module issues the local alarm according to the operation instruction, and when the local alarm is issued within a preset time, the environmental data still exceeds the preset range, a remote alarm is issued; the remote alert is sent directly when no one is present.

In this embodiment, a human body recognition submodule is configured to determine whether a person exists in the collection range of the environmental data according to the number of people who are recognized to enter and exit, and send out a local alarm according to the operation instruction when the person exists by the alarm prompt module according to whether different alarm modes are adopted, and when the local alarm is sent out for a preset time, the environmental data still exceeds the preset range, that is, when the person in the collection range of the environmental data does not notice an alarm or does not have mobility, a remote alarm is sent out; when no person exists, the remote alarm is directly sent, so that the design is designed to avoid that when the person exists, the problem that the person can be processed is avoided, unnecessary alarms are carried out on the contact person and/or the property, and when the person does not exist, the delay time is caused by firstly carrying out local alarms; further, when the smoke concentration exceeds the preset range, for example, the human body recognition submodule recognizes that a person exists in the current area, the information processing module 302 sends a door opening instruction, so that people in the area can be conveniently evacuated, and people outside the area are prevented from being difficult to enter the area to rescue and evacuate; when the human body recognition submodule recognizes that the current area is unmanned, when the smoke concentration data exceeds a set threshold value, the door and window is closed to block the current area, so that possible fire overflow is prevented, and the property loss in a larger range is possible.

In a possible implementation manner, the device further comprises a door and window abnormality module, wherein the door and window abnormality module is used for identifying the process that a door and window is opened in an abnormality manner, controlling the door and window control module 303 to lock the door and window, and the door and window abnormality module is used for identifying that after the door and window is opened in an abnormality manner, the human body identification submodule identifies that a human body enters the acquisition range of the environmental data, and controlling the door and window control module 303 to lock the door and window again.

In this embodiment, the normal opening of the door and window includes opening of a preset normal password such as a key and a fingerprint, when abnormal conditions such as attempting to open the door and window by multiple times of wrong passwords occur, the door and window is locked, so as to ensure the life and property safety in the area, after the further door and window is opened, the human body recognition submodule recognizes that the human body enters the collection range of the environmental data, and controls the door and window control module 303 to lock the door and window again, so that the escape time of people entering the room through the abnormal means is prolonged as far as possible, and property loss is prevented from being taken away to the greatest extent.

In one possible embodiment, the environmental data further includes, but is not limited to: oxygen content data acquired by the oxygen content acquisition submodule; humidity data acquired by the humidity acquisition submodule; particulate matter concentration data acquired by the dust acquisition submodule; temperature data acquired by the temperature acquisition submodule; sound data collected by the noise collection submodule; negative oxygen ion content data acquired by the negative oxygen ion acquisition submodule; radiation value data acquired by the radiation acquisition submodule; ozone content data collected by the ozone collection submodule.

It should be noted that, for example, when the oxygen content data is lower than 20%, an anoxic environment is generated, and therefore, when the oxygen content data collected by the oxygen content collection submodule is lower than the preset range, the information processing module 302 sends a control instruction for opening the door and window; when the humidity data in the air is higher than the preset range, the clothes are easy to mold, and therefore the information processing module 302 sends out a door and window closing command; in the haze weather, the indexes pm2.5 and pm10 in the air are higher, so that the lung health of a human body is endangered, and the information processing module 302 sends a door and window closing instruction when the particle concentration data collected by the dust collecting sub-module, namely the indexes pm2.5 and pm10, are higher than the preset range; when the temperature data is lower than the low value of the preset range and higher than the high value of the preset range, the information processing module 302 sends a door and window closing command, so that the temperature in the control area is more comfortable; when the noise outside the area is too large, the sound data collected by the noise collecting sub-module exceeds the preset range, and the information processing module 302 sends out a command for closing the door and window, so that noise pollution in the area is reduced; the ventilation can increase the content of negative oxygen ions beneficial to the body, and when the content data of the negative oxygen ions collected by the negative oxygen ion collection submodule is lower than the preset range, the information processing module 302 sends a door and window opening instruction; the radiation values include ultraviolet values, and too high ultraviolet values are harmful to the body, so that when the radiation value data collected by the radiation collecting sub-module exceeds the preset range, the information processing module 302 sends a command for closing the door and window; when the ozone content is too high, the ozone is harmful to the body, so that the ozone content data acquired by the ozone acquisition sub-module exceeds the preset range, and the information processing module 302 sends a door and window opening instruction;

In an embodiment, the corresponding sensor group may be set to correspond to an information acquisition sub-module according to specific requirements, so as to acquire the corresponding environmental data, and the information processing module 302 stores the corresponding preset range, and further sets priority according to a result caused by abnormality of the environmental data and the personal preference to a plurality of environmental data, so that the door and window performs a switching operation more according to the personal preference under the current environmental condition.

In a possible implementation manner, the sound data collected by the noise collection sub-module includes internal volume data generated in the environmental data collection range and external noise data generated outside the environmental data collection range and transmitted into the environmental data collection range, the preset range corresponding to the sound data includes a first range, a second range and a third range from high to low according to a range value, and the door and window control module 303 controls a window to be closed when the external noise data is higher than the first range in a preset first time; in a preset second time, when the internal volume data is not lower than the third range and the external noise data is higher than the first range, the door and window control module 303 controls the window to be closed; when the internal volume data is lower than the third range and the external noise data is higher than the second range, the door and window control module 303 controls the window to be closed.

In this embodiment, the sound data collected by the noise collection sub-module includes the internal volume data generated in the environmental data collection range and the external noise data generated outside the environmental data collection range and transmitted into the environmental data collection range, that is, the indoor volume and the outdoor volume, and the first time and the second time are set, for example, the first time is the active time, when the external noise data is higher than the first range, the window control module 303 controls the window to close, and when the external noise data is lower than the first range, the window control module 303 controls the window to close by identifying the internal volume data first when the internal volume data is lower than the third range, no activity is performed in the environmental data collection range, and therefore, a rest quality needs to be ensured more quietly, and therefore, the external noise data is higher than the second range, and the second range is lower than the first range; when the internal volume data is not lower than the third range, that is, the current environment data collection range is still active, and is not at rest temporarily, and when the external noise data is also higher than the first range, the door and window control module 303 controls the window to be closed, so that the window is closed when the external volume is lower during rest, the rest quality is ensured, and when the environment data collection range is active, the sensitivity to noise is lower relative to the rest, and the window opening ventilation can be performed.

In a second aspect of the present application, there is provided a smart door and window cloud intelligent operation method 400, comprising:

s401: collecting environment data in real time, classifying a plurality of environment data, and uploading the environment data to a cloud platform;

s402: analyzing various environmental data uploaded to the cloud platform, storing a preset range, wherein the preset range is a normal range of each environmental data, and sending a preset operation instruction when any one of the environmental data exceeds the corresponding preset range;

s403: receiving the operation instruction, and performing closing or opening operation of the door and window according to the operation instruction;

In a possible implementation manner, priority determination is performed on the plurality of environmental data, the priority determination is that the plurality of environmental data are classified, the environmental data with high priority are analyzed preferentially, when any data in the environmental data in the priority exceeds the corresponding preset range, the operation instruction is sent until the environmental data with the priority does not exceed the preset range, analysis processing is started on the environmental data with the next priority, and the control instructions of the environmental data with the same level are unified.

In a possible implementation manner, different areas are set for the acquisition range of the environmental data, and the preset ranges corresponding to the environmental data in the different areas are different.

In a possible implementation manner, a multi-level threshold is set according to the preset range, the higher the level number is, the larger the difference between the threshold and the preset range is, and when the environmental data is at different threshold levels, the operation instruction corresponding to the threshold level setting is sent.

In a possible implementation manner, a local alarm and/or a remote alarm are/is sent according to the operation instruction, wherein the local alarm is used for sending an alarm prompt to the acquisition range of the environmental data; the remote alarm is to send a remote alarm prompt to a preset signal receiving device, and the signal receiving device comprises communication devices which are not limited to contacts and property security rooms.

In a possible implementation manner, whether a person exists in the acquisition range of the environmental data is judged according to the number of people who are identified to enter and exit, when the person exists, the local alarm is sent according to the operation instruction, and when the local alarm is sent for a preset time, the environmental data still exceeds the preset range, a remote alarm is sent; the remote alert is sent directly when no one is present.

In one possible implementation mode, the door and window is locked in the process of being opened in an abnormal mode, and after being opened in an abnormal mode, the door and window is identified to enter the acquisition range of the environmental data, and the door and window is controlled to be locked again.

In one possible embodiment, the environmental data further includes, but is not limited to: oxygen content data; humidity data; particulate matter concentration data; temperature data; wind direction data; sound data; negative oxygen ion content data; radiation value data; ozone content data.

In a possible implementation manner, the sound data comprises internal volume data generated in the environment data acquisition range and external noise data generated outside the environment data acquisition range and transmitted into the environment data acquisition range, the preset range corresponding to the sound data comprises a first range, a second range and a third range from high to low according to range values, and in a preset first time, when the external noise data is higher than the first range, a window is controlled to be closed; when the internal volume data is not lower than the third range in the preset second time, the external noise data is higher than the first range, and the window is controlled to be closed; and when the internal volume data is lower than the third range, the external noise data is higher than the second range, and the window is controlled to be closed.

It should be noted that, the specific implementation manner of the intelligent operation system for the intelligent door and window cloud according to the embodiment of the present application refers to the specific implementation manner of the intelligent operation system for the intelligent door and window cloud set forth in the first aspect of the embodiment of the present application, and is not repeated herein.

In a third aspect of the present application, there is provided a smart door and window cloud intelligent operation electronic device, comprising a processor and a memory; the memory is used for storing a computer program, and when the processor executes the computer program, the electronic device is caused to execute the specific implementation of the intelligent operation method of the intelligent door and window cloud according to the embodiment of the application.

In a fourth method of the present application, a smart operation readable storage medium for a smart door and window cloud is provided, and a program or an instruction is stored on the readable storage medium, where the program or the instruction is executed by a processor to implement each process of implementing a specific implementation of the smart operation method for a smart door and window cloud according to the foregoing embodiment of the present application.

In some embodiments, the computer readable storage medium may be FRAM, ROM, PROM, EPROM, EEPROM, flash memory, magnetic surface memory, optical disk, or CD-ROM; but may be a variety of devices including one or any combination of the above memories. The computer may be a variety of computing devices including smart terminals and servers.

In some embodiments, the executable instructions may be in the form of programs, software modules, scripts, or code, written in any form of programming language (including compiled or interpreted languages, or declarative or procedural languages), and they may be deployed in any form, including as stand-alone programs or as modules, components, subroutines, or other units suitable for use in a computing environment.

As an example, the executable instructions may, but need not, correspond to files in a file system, may be stored as part of a file that holds other programs or data, for example, in one or more scripts in a hypertext markup language (HTML, hyper Text Markup Language) document, in a single file dedicated to the program in question, or in multiple coordinated files (e.g., files that store one or more modules, sub-programs, or portions of code).

As an example, executable instructions may be deployed to be executed on one computing device or on multiple computing devices located at one site or, alternatively, distributed across multiple sites and interconnected by a communication network.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that an article or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such article or apparatus. Without further limitation, an element defined by the phrase "comprising … …" does not exclude the presence of other like elements in an article or apparatus that comprises the element.

The smart door and window cloud intelligent operation system provided above is described in detail, and specific examples are applied to illustrate the principles and embodiments of the present application, and the description of the above examples is only for helping to understand the smart door and window cloud intelligent operation method and core ideas thereof of the present application; meanwhile, as those skilled in the art will vary in the specific embodiments and application scope according to the idea of the present application, the present disclosure should not be construed as limiting the present application in summary.

Claims

1. Intelligent door and window cloud intelligent operation system, its characterized in that includes:

2. The intelligent operation system of intelligent door and window cloud according to claim 1, wherein the information processing module performs priority determination on the environmental data collected and uploaded by the information collecting submodules, the priority determination is that the environmental data is classified, the information processing module preferentially analyzes the environmental data with high priority, when any data in the environmental data in the priority exceeds the corresponding preset range, the information processing module sends the corresponding operation instruction until the environmental data of the priority does not exceed the preset range, and the information processing module starts to analyze the environmental data of the next priority, and the control instructions of the environmental data of the same level are unified.

3. The intelligent operation system of intelligent door and window cloud according to claim 2, further comprising a region module, wherein the region module sets the collection range of the environmental data to different regions, and the preset ranges corresponding to the environmental data in different regions are different.

4. The intelligent operation system of intelligent door and window cloud according to claim 3, wherein the information processing module sends the operation instruction set corresponding to the threshold level when the environmental data is at different threshold levels as the difference between the threshold and the preset range is larger as the number of levels is higher.

5. The intelligent door and window cloud operating system of any one of claims 1-4, further comprising an alert prompt module: the alarm prompting module is used for receiving the operation instruction and sending out a local alarm and/or a remote alarm according to the operation instruction, wherein the local alarm is used for sending out an alarm prompt to the acquisition range of the environmental data; the remote alarm is to send a remote alarm prompt to a preset signal receiving device, and the signal receiving device comprises communication devices which are not limited to contacts and property security rooms.

6. The intelligent operation system of intelligent door and window cloud as claimed in claim 5, wherein said door and window control module further comprises a human body recognition sub-module for judging whether a person exists in the collection range of said environmental data according to the number of people who are recognized to enter and exit, said alarm prompting module issuing said local alarm according to said operation instruction when a person exists, said local alarm issuing a remote alarm when said environmental data still exceeds the preset range within a preset time; the remote alert is sent directly when no one is present.

7. The intelligent cloud operating system for intelligent doors and windows according to claim 6, further comprising a door and window abnormality module, wherein the door and window abnormality module is used for controlling the door and window control module to perform locking operation on the door and window in the process of recognizing that the door and window is opened in an abnormality mode, and the door and window abnormality module is used for recognizing that the door and window is opened in an abnormality mode, the human body recognition submodule recognizes that a human body enters the acquisition range of the environmental data, and controls the door and window control module to perform locking operation on the door and window again.

8. The intelligent door and window cloud operating system of any of claims 1-4, wherein said environmental data further includes, but is not limited to: oxygen content data acquired by the oxygen content acquisition submodule; humidity data acquired by the humidity acquisition submodule; particulate matter concentration data acquired by the dust acquisition submodule; temperature data acquired by the temperature acquisition submodule; sound data collected by the noise collection submodule; negative oxygen ion content data acquired by the negative oxygen ion acquisition submodule; radiation value data acquired by the radiation acquisition submodule; ozone content data collected by the ozone collection submodule.

9. The intelligent operation system of intelligent door and window cloud as claimed in claim 8, wherein the sound data collected by the noise collection sub-module includes internal volume data generated in the environment data collection range and external noise data generated outside the environment data collection range and transmitted into the environment data collection range, the preset range corresponding to the sound data includes a first range, a second range and a third range from high to low according to range values, and the door and window control module controls the window to be closed when the external noise data is higher than the first range in preset first time; in a preset second time, when the internal volume data is not lower than the third range, the external noise data is higher than the first range, and the door and window control module controls a window to be closed; and when the internal volume data is lower than the third range and the external noise data is higher than the second range, the door and window control module controls the window to be closed.

10. The intelligent operation method of the intelligent door and window cloud is characterized by comprising the following steps of: