CN112346348A - Indoor environment adjustment system - Google Patents

Abstract

The invention is suitable for the technical field of intelligent home furnishing, and provides an indoor environment adjusting system, which comprises: the system comprises a monitoring subsystem, a control module, a temperature control center and a regulating subsystem; the monitoring subsystem comprises an environment monitoring module, a personnel detection module, an input module and an access control module; the control module is used for acquiring monitoring data of a target area, generating control data according to the monitoring data and sending the control data to the temperature control center; the monitoring data comprises environment monitoring data, personnel detection data, control data and personnel access data; the temperature control center is used for generating a control instruction according to the control data and sending the control instruction to the regulating subsystem; and the regulating subsystem is used for regulating the working state according to the control instruction. The indoor environment adjusting system provided by the invention can adjust the environment condition in the target area according to the actual condition of the target area and the selection of the user, thereby improving the user experience and satisfaction.

Description

Indoor environment adjustment system

Technical Field

The invention belongs to the technical field of intelligent home furnishing, and particularly relates to an indoor environment adjusting system.

Background

The intelligent home system is an integrated system which comprehensively utilizes a communication technology and a control technology, and can improve the convenience and the comfort of users. In the smart home system, the adjustment of the indoor environment is an important branch. In the current indoor environment adjustment system, the problem of low matching degree between the adjustment of the indoor environment and the actual needs of the user still exists.

Disclosure of Invention

In view of this, embodiments of the present invention provide an indoor environment adjusting system to solve the problem in the prior art that the degree of matching between the indoor environment adjusting process and the user requirement is low.

A first aspect of an embodiment of the present invention provides an indoor environment adjustment system, including:

the system comprises a monitoring subsystem, a control module, a temperature control center and a regulating subsystem;

the monitoring subsystem is in communication connection with the control module, and the control module and the regulating subsystem are in communication connection with the temperature control center respectively;

the monitoring subsystem includes: the system comprises an environment monitoring module, a personnel detection module, an input module and an entrance guard module;

the environment monitoring module is used for monitoring environment monitoring data of a target area;

the personnel detection module is used for detecting personnel detection data of the target area;

the input module is used for acquiring input data input by a user;

the access control module is used for acquiring personnel access data of the target area;

the control module is used for acquiring monitoring data of the target area; generating control data according to the monitoring data, and sending the control data to the temperature control center; the monitoring data comprises the environment monitoring data, the personnel detection data, the input data and the personnel access data;

the temperature control central hub is used for generating a control instruction according to the control data and sending the control instruction to the adjusting subsystem;

and the adjusting subsystem is used for adjusting the working state according to the control instruction.

In one embodiment of the invention, the environmental monitoring module includes a temperature sensor, a humidity sensor, and an air quality detector.

In one embodiment of the invention, the people detection module comprises a first infrared sensor and a radar device.

In one embodiment of the invention, the target region comprises first and second target sub-regions; the personnel detection data comprises infrared detection data;

the monitoring subsystem comprises a first monitoring unit corresponding to the first target sub-area and a second monitoring unit corresponding to the second target sub-area;

the adjusting subsystem comprises a first adjusting unit corresponding to the first target sub-area and a second adjusting unit corresponding to the second target sub-area;

the main control module is further used for judging whether a person exists in the first target sub-region according to the infrared detection data corresponding to the first target sub-region and judging whether a person exists in the second target sub-region according to the infrared detection data corresponding to the second target sub-region;

and if the first target sub-region and the second target sub-region both have people, preferentially generating control data corresponding to the first sub-region.

In one embodiment of the invention, the person detection data comprises first infrared data and radar data; the control data comprises tuyere direction data;

the control module is used for judging whether a person exists in the target area according to the first infrared data; if people exist in the target area, generating people number data and position data in the target area according to the radar data; and generating air port orientation data according to the number data and the position data.

In one embodiment of the present invention, the input module includes at least one of a remote controller and a smart terminal.

In one embodiment of the invention, the access control module comprises at least one of a second infrared sensor, a door magnetic switch and a smart door lock.

In one embodiment of the invention, the conditioning subsystem includes an air purifier, a fresh air device, a temperature conditioning device, and a humidity conditioning device.

In one embodiment of the invention, the system further comprises a cloud server in communication connection with the control module,

the control module is further used for sending the monitoring data and the control data to the cloud server;

the cloud server is used for storing the monitoring data and the control data.

In an embodiment of the present invention, the cloud server is further configured to:

generating a monitoring data-control data corresponding relation according to the stored historical monitoring data and historical control data;

generating reference control data corresponding to the current monitoring data according to the current monitoring data and the corresponding relation between the monitoring data and the control data; and sending the reference control data to the control module;

the control module is further configured to generate the control data based on the monitoring data and the reference control data.

Compared with the prior art, the embodiment of the invention has the following beneficial effects: the embodiment of the invention provides an indoor environment adjusting system, which comprises a monitoring subsystem, a control module, a temperature control center and a regulating subsystem, wherein the monitoring subsystem is used for monitoring the indoor environment; the monitoring subsystem is in communication connection with the control module, and the control module and the regulating subsystem are in communication connection with the temperature control center respectively; the monitoring subsystem comprises an environment monitoring module, a personnel detection module, an input module and an access control module; the control module is used for acquiring monitoring data of a target area, generating control data according to the monitoring data and sending the control data to the temperature control center; the monitoring data comprises environment monitoring data, personnel detection data, control data and personnel access data; the temperature control center is used for generating a control instruction according to the control data and sending the control instruction to the regulating subsystem; and the regulating subsystem is used for regulating the working state according to the control instruction. Through the indoor environment adjusting system provided by the embodiment of the invention, the control module can generate the control data according to the environment monitoring data, the personnel detection data, the personnel access data and the control data input by the user in the target area, so that the control data meets the actual needs of the user, and the user experience and satisfaction are improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of an indoor environment adjusting system according to an embodiment of the present invention.

Detailed Description

In the following description, for purposes of explanation and not limitation, specific details are set forth, such as particular system structures, techniques, etc. in order to provide a thorough understanding of the embodiments of the invention. It will be apparent, however, to one skilled in the art that the present invention may be practiced in other embodiments that depart from these specific details. In other instances, detailed descriptions of well-known systems, devices, circuits, and methods are omitted so as not to obscure the description of the present invention with unnecessary detail.

In order to explain the technical means of the present invention, the following description will be given by way of specific examples.

Referring to fig. 1, an embodiment of the present invention provides an indoor environment adjusting system, including: amonitoring subsystem 100, acontrol module 200, atemperature control hub 300, and aconditioning subsystem 400;

themonitoring subsystem 100 is in communication with thecontrol module 200, and thecontrol module 200 and theconditioning subsystem 400 are in communication with thetemperature control hub 300 respectively;

themonitoring subsystem 100 includes: the system comprises anenvironment monitoring module 110, apersonnel detection module 120, aninput module 130 and anentrance guard module 140;

theenvironment monitoring module 110 is configured to monitor environment monitoring data of a target area;

thepersonnel detection module 120 is configured to detect personnel detection data of the target area;

theinput module 130 is used for acquiring input data input by a user;

theaccess control module 140 is configured to obtain the person access data of the target area;

thecontrol module 200 is configured to obtain monitoring data of the target area; generating control data according to the monitoring data, and sending the control data to thetemperature control center 300; the monitoring data comprises the environment monitoring data, the personnel detection data, the input data and the personnel access data;

the temperature controlcentral hub 300 is used for generating a control instruction according to the control data and sending the control instruction to the adjusting subsystem;

theadjustment subsystem 400 is configured to adjust the operating state according to the control command.

In this embodiment, the target area includes at least one room.

Alternatively, when the target area includes a plurality of rooms, a plurality of sensors specifically included in theenvironment monitoring module 110 and theperson detection module 120 may be installed according to the actual situation of the target area.

Optionally, thecontrol module 200 includes an MCU terminal.

Specifically, thecontrol module 200 is pre-stored with a preset corresponding relationship between the monitoring data and the control data, and the control module is configured to generate the control data according to the current monitoring data and the pre-stored preset corresponding relationship between the monitoring data and the control data.

Optionally, the specific process of thecontrol module 200 generating the control data is as follows: and generating control initial data according to the preset corresponding relation of the monitoring data and the control data, the current environment monitoring data, the personnel detection data and the personnel access data, updating the control initial data according to the input data, and generating the control data. That is, the priority of the input data input by the user is higher than the control initial data generated according to the preset monitoring data-control data correspondence.

Optionally, theConditioning subsystem 400 includes a home HVAC system (Heating, Ventilation and Air Conditioning).

In this embodiment, thecontrol module 200 considers the environmental monitoring data, the personnel detection data, the input data and the personnel access data in the process of generating the control data according to the monitoring data, and the control data can simultaneously meet the requirements of the actual environmental conditions and the needs of the user, and also consider the requirements of user experience and energy conservation.

In one embodiment of the present invention, theenvironmental monitoring module 110 includes a temperature sensor, a humidity sensor, and an air quality detector.

In the present embodiment, the air quality detector includes, but is not limited to, a VOC detector, a PM2.5 detector.

In one embodiment of the present invention, theperson detection module 120 includes a first infrared sensor and a radar device.

In this embodiment, thecontrol module 200 is configured to determine whether there is a person in the target area according to first infrared detection data detected by the first infrared sensor.

When a person is in the target area, thecontrol module 200 generates control data according to the environmental monitoring data and adjusts the specific working state of thesubsystem 400;

when the unmanned time of the target area exceeds a preset first time threshold, thecontrol module 200 is further configured to generate control data according to the environmental monitoring data, so that each device in theadjustment subsystem 400 is turned off or operates in an energy saving mode.

In this embodiment, the personnel detection data generated by thepersonnel detection module 120 can determine the personnel condition in the target area in time, so as to avoid resource waste caused by idle running of the adjustment subsystem when the target area is unmanned, and avoid poor user experience caused by incapability of operating the adjustment subsystem in time when personnel enter the target area.

In one embodiment of the invention, the target region comprises first and second target sub-regions; the personnel detection data comprises infrared detection data;

the monitoring subsystem 10 includes a first monitoring unit corresponding to the first target sub-area and a second monitoring unit corresponding to the second target sub-area;

the adjusting subsystem 40 comprises a first adjusting unit corresponding to the first target sub-area and a second adjusting unit corresponding to the second target sub-area;

thecontrol module 200 is further configured to determine whether a person is in the first target sub-region according to the infrared detection data corresponding to the first target sub-region, and determine whether a person is in the second target sub-region according to the infrared detection data corresponding to the second target sub-region;

and if the first target sub-region and the second target sub-region both have people, preferentially generating control data corresponding to the first target sub-region.

In this embodiment, thecontrol module 200 prestores a manner of dividing the target area into a first target sub-area and a second target sub-area.

Optionally, when both the first target sub-region and the second target sub-region have a person, thecontrol module 200 preferentially generates control data corresponding to the first target sub-region, including adjusting a working state of the first adjusting unit located in the first target sub-region until the monitoring data acquired by the first monitoring unit is in a preset user comfort interval, and then generates control data corresponding to the second target sub-region.

In a specific embodiment, the first target sub-area includes rooms requiring emphasis adjustment, such as children's rooms and elderly people's rooms; the second target sub-region is a region of the target region other than the first target sub-region.

In this embodiment, thecontrol module 200 preferentially generates the control data corresponding to the first target sub-region, and can timely adjust the first adjusting unit corresponding to the first target sub-region when the output of theadjusting subsystem 400 is limited, so as to timely improve the environmental comfort level in the first target sub-region.

In one embodiment of the invention, the people detection data comprises infrared detection data and radar data; the control data comprises tuyere direction data;

thecontrol module 200 is configured to determine whether a person is in the target area according to the first infrared data; if people exist in the target area, generating people number data and position data in the target area according to the radar data; and generating air port orientation data according to the number data and the position data.

In this embodiment, the control data includes air blowing intensity data, and thecontrol module 200 is further configured to generate air blowing intensity data according to the number-of-people data.

In this embodiment, thecontrol module 200 can prevent the air outlet from directly facing the user by adjusting the air outlet direction and the air supply intensity of each device in the adjustment subsystem, thereby preventing the user from discomfort and improving the user satisfaction.

In one embodiment of the present invention, theinput module 130 includes at least one of a remote controller and a smart terminal.

Specifically, the input data input by the user includes, but is not limited to, mode data, target temperature data, target humidity data; start/stop data of the air purifier, the fresh air device, the temperature adjusting device and the humidity adjusting device;

optionally, the mode data input by the user includes, but is not limited to, a sleep mode, a normal mode, a power saving mode, and a vacation mode.

In this embodiment, thecontrol module 200 pre-stores control data corresponding to different mode data, so as to switch the corresponding control data according to different application scenarios, and achieve user experience and high efficiency and energy saving.

Optionally, the form of the control data input by the user includes, but is not limited to, voice information and text information.

In one embodiment of the present invention, theaccess control module 140 includes at least one of a second infrared sensor, a door magnetic switch, and a smart door lock.

In this embodiment, theentrance guard module 140 is installed at an entrance and exit of the target area.

In this embodiment, thecontrol module 200 is configured to determine the situation of the person entering and leaving the target area according to the person entering and leaving data of the target area acquired by the access control module.

In this embodiment, thecontrol module 200 is configured to determine whether there is a person in the target area according to first infrared detection data obtained by the detection of the first infrared sensor and person access data obtained by the detection of the access control module.

When the target area has a person, thecontrol module 200 is further configured to generate control data according to the environmental monitoring data;

when the unmanned time of the target area exceeds a preset first time threshold, thecontrol module 200 is further configured to generate control data according to the environment monitoring data, so that the devices in the regulation subsystem are turned off or run in an energy-saving mode.

Through the personnel detection data and the personnel data of coming in and going out thatentrance guard module 140 andpersonnel detection module 120 provided,control module 200 can the degree of accuracy confirm the personnel condition in the target area, in time adjusts control data, avoids idle running under the condition of guaranteeing user experience, realizes energy-conservation.

In one embodiment of the present invention, theconditioning subsystem 400 includes an air purifier, a fresh air device, a temperature regulating device, and a humidity regulating device.

In this embodiment, thetuning subsystem 400 is used to adjust the operating state according to the control commands sent by thetemperature control hub 300.

Specifically, the control command includes, but is not limited to, an on/off command, a timing command, and a target threshold command of the air purifier, the fresh air device, the temperature adjustment device, and the humidity adjustment device.

Optionally, the air purifier, the fresh air device, the temperature adjusting device, and the humidity adjusting device included in theadjusting subsystem 400 may be independent devices or integrated devices.

Optionally, when the target area includes a plurality of rooms, the air purifier, the fresh air device, the temperature adjusting device and the humidity adjusting device may be a plurality of rooms, and the rooms are installed according to actual conditions.

Optionally, the adjustingsubsystem 400 may further include other adjusting devices, and by setting various devices in theadjusting subsystem 400, the integration level of the indoor environment adjusting system may be improved, and diversification of functions may be achieved.

In one embodiment of the present invention, the indoor environment adjustment system further includes a cloud server in communication with thecontrol module 200,

thecontrol module 200 is further configured to send the monitoring data and the control data to the cloud server;

the cloud server is used for storing the monitoring data and the control data.

In this embodiment, can realize the monitoring data and the storage of control data to indoor environment adjustment system through high in the clouds server, conveniently carry out the analysis to user's custom.

Optionally, thecontrol module 200 performs signal transmission with the cloud server through a router or a gateway.

In an embodiment of the present invention, the cloud server is further configured to:

generating a monitoring data-control data corresponding relation according to the stored historical monitoring data and historical control data, and sending the monitoring data-control data corresponding relation to thecontrol module 200;

thecontrol module 200 is further configured to generate control data of the current time according to the current actual monitoring data and the monitoring data-control data corresponding relationship.

Optionally, the specific method for generating the monitoring data-control data corresponding relationship according to the stored historical monitoring data and historical control data by the cloud server is as follows: and deep learning is carried out on each historical control data of the historical monitoring data to obtain a monitoring data-control data corresponding relation.

Optionally, the generating, by the cloud server, the monitoring data-control data corresponding relationship according to the stored historical monitoring data and historical control data specifically includes:

the cloud server counts a first time period when the user usually enters the target area and a second time period when the user usually leaves the target area according to historical personnel detection data and historical personnel access data in the historical monitoring data, and generates control data before the first time period and before the second time period respectively, so that a proper indoor environment condition is provided for the user in advance, energy is saved, and idling and resource waste are avoided.

The cloud server counts and obtains the common temperatures corresponding to the user in different seasons, different time periods of each day and different monitoring data according to the environment monitoring data, the input data and the control data in the historical monitoring data, so that the actual use habits of the user are fitted, and the use experience and the satisfaction degree of the user are improved.

In this embodiment, the indoor environment adjustment system further includes a display communicatively coupled to thecontrol module 200.

Specifically, the display is used for displaying monitoring data and control data.

In this embodiment, the monitor data and the control data are displayed by the display, so that the user can more intuitively know the condition of the target area.

The indoor environment adjusting system provided by the invention can adapt to different indoor environment scenes, efficiently and accurately adjust the temperature, the humidity, the air circulation condition and the air quality of the target area according to the actual condition and the habit of the user, provide convenience for the user, and can meet the requirements of user experience and energy conservation and environmental protection.

The above-mentioned embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the spirit and scope of the embodiments of the present invention, and are intended to be included within the scope of the present invention.

Claims (10)

Translated fromChinese

1.一种室内环境调整系统，其特征在于，包括：监测子系统、控制模块、温控中枢以及调节子系统；1. An indoor environment adjustment system is characterized in that, comprising: a monitoring subsystem, a control module, a temperature control center and an adjustment subsystem;所述监测子系统与所述控制模块通信连接，所述控制模块和所述调节子系统分别与所述温控中枢通信连接；The monitoring subsystem is connected in communication with the control module, and the control module and the adjustment subsystem are respectively connected in communication with the temperature control center;所述监测子系统包括：环境监测模块、人员探测模块、输入模块以及门禁模块；The monitoring subsystem includes: an environment monitoring module, a personnel detection module, an input module and an access control module;所述环境监测模块用于监测目标区域的环境监测数据；The environmental monitoring module is used to monitor the environmental monitoring data of the target area;所述人员探测模块用于探测所述目标区域的人员探测数据；The personnel detection module is used to detect personnel detection data of the target area;所述输入模块用于获取用户输入的输入数据；The input module is used to obtain input data input by the user;所述门禁模块用于获取所述目标区域的人员出入数据；The access control module is used to obtain the personnel access data of the target area;所述控制模块用于获取所述目标区域的监测数据；并根据所述监测数据生成控制数据，以及将所述控制数据发送至所述温控中枢；所述监测数据包括所述环境监测数据、所述人员探测数据、所述输入数据以及所述人员出入数据；The control module is used for acquiring monitoring data of the target area; generating control data according to the monitoring data, and sending the control data to the temperature control center; the monitoring data includes the environmental monitoring data, said personnel detection data, said input data, and said personnel access data;所述温控中枢用于根据所述控制数据生成控制指令，并将所述控制指令发送至所述调节子系统；The temperature control center is configured to generate a control instruction according to the control data, and send the control instruction to the adjustment subsystem;所述调节子系统用于根据所述控制指令调整工作状态。The adjustment subsystem is used to adjust the working state according to the control instruction.2.如权利要求1所述的一种室内环境调整系统，其特征在于，所述环境监测模块包括温度传感器、湿度传感器以及空气质量探测器。2 . The indoor environment adjustment system according to claim 1 , wherein the environment monitoring module comprises a temperature sensor, a humidity sensor and an air quality detector. 3 .3.如权利要求1所述的一种室内环境调整系统，其特征在于，所述人员探测模块包括第一红外传感器和雷达装置。3 . The indoor environment adjustment system according to claim 1 , wherein the person detection module comprises a first infrared sensor and a radar device. 4 .4.如权利要求3所述的一种室内环境调整系统，其特征在于，所述目标区域包括各第一目标子区域和第二目标子区域；所述人员探测数据包括红外探测数据；4. The indoor environment adjustment system according to claim 3, wherein the target area includes each first target sub-area and a second target sub-area; the personnel detection data includes infrared detection data;所述监测子系统包括所述第一目标子区域对应的第一监测单元和所述第二目标子区域对应的第二监测单元；The monitoring subsystem includes a first monitoring unit corresponding to the first target sub-area and a second monitoring unit corresponding to the second target sub-area;所述调节子系统包括所述第一目标子区域对应的第一调节单元和所述第二目标子区域对应的第二调节单元；The adjustment subsystem includes a first adjustment unit corresponding to the first target sub-area and a second adjustment unit corresponding to the second target sub-area;所述控制模块还用于根据第一目标子区域对应的红外探测数据判断所述第一目标子区域中是否有人，根据第二目标子区域对应的红外探测数据判断所述第二目标子区域中是否有人；The control module is further configured to determine whether there is a person in the first target sub-area according to the infrared detection data corresponding to the first target sub-area, and determine whether there is a person in the second target sub-area according to the infrared detection data corresponding to the second target sub-area. is there anyone;若所述第一目标子区域和所述第二目标子区域均有人，则优先生成所述第一目标子区域对应的控制数据。If both the first target sub-area and the second target sub-area are occupied, the control data corresponding to the first target sub-area is preferentially generated.5.如权利要求3所述的一种室内环境调整系统，其特征在于，所述人员探测数据包括红外探测数据和雷达数据；所述控制数据包括风口朝向数据；5 . The indoor environment adjustment system according to claim 3 , wherein the personnel detection data includes infrared detection data and radar data; the control data includes tuyere orientation data; 6 .所述控制模块用于根据所述红外探测数据判断所述目标区域内是否有人；若所述目标区域中有人，则根据所述雷达数据生成所述目标区域中的人数数据和位置数据；并根据所述人数数据和所述位置数据，生成风口朝向数据。The control module is used to judge whether there is a person in the target area according to the infrared detection data; if there is a person in the target area, generate the number of people data and position data in the target area according to the radar data; The data on the number of people and the data on the position generate tuyere orientation data.6.如权利要求1所述的一种室内环境调整系统，其特征在于，所述输入模块包括遥控器和智能终端中的至少一种。6. The indoor environment adjustment system according to claim 1, wherein the input module comprises at least one of a remote control and an intelligent terminal.7.如权利要求1所述的一种室内环境调整系统，其特征在于，所述门禁模块包括第二红外传感器、门磁开关以及智能门锁中的至少一种。7 . The indoor environment adjustment system according to claim 1 , wherein the access control module comprises at least one of a second infrared sensor, a magnetic door switch and a smart door lock. 8 .8.如权利要求1所述的一种室内环境调整系统，其特征在于，所述调节子系统包括空气净化器、新风装置、温度调节装置以及湿度调节装置。8. The indoor environment adjustment system according to claim 1, wherein the adjustment subsystem comprises an air purifier, a fresh air device, a temperature adjustment device and a humidity adjustment device.9.如权利要求1所述的一种室内环境调整系统，其特征在于，所述系统还包括与所述控制模块通信连接的云端服务器，9. The indoor environment adjustment system according to claim 1, wherein the system further comprises a cloud server connected in communication with the control module,所述控制模块还用于将所述监测数据和所述控制数据发送至所述云端服务器；The control module is further configured to send the monitoring data and the control data to the cloud server;所述云端服务器用于存储所述监测数据和所述控制数据。The cloud server is used for storing the monitoring data and the control data.10.如权利要求9所述的一种室内环境调整系统，其特征在于，所述云端服务器还用于：10. The indoor environment adjustment system according to claim 9, wherein the cloud server is further used for:根据存储的历史监测数据和历史控制数据生成监测数据-控制数据对应关系，并将所述监测数据-控制数据对应关系发送至所述控制模块；Generate a monitoring data-control data correspondence according to the stored historical monitoring data and historical control data, and send the monitoring data-control data correspondence to the control module;控制模块还用于根据当前实际的监测数据和所述监测数据-控制数据对应关系生成当前时间的控制数据。The control module is further configured to generate the control data of the current time according to the current actual monitoring data and the corresponding relationship between the monitoring data and the control data.

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