WO2017120713A1 - 一种校园空气智能检测优化系统 - Google Patents

一种校园空气智能检测优化系统 Download PDF

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Publication number
WO2017120713A1
WO2017120713A1 PCT/CN2016/070540 CN2016070540W WO2017120713A1 WO 2017120713 A1 WO2017120713 A1 WO 2017120713A1 CN 2016070540 W CN2016070540 W CN 2016070540W WO 2017120713 A1 WO2017120713 A1 WO 2017120713A1
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air
module
detection
optimization
harmful gas
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PCT/CN2016/070540
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French (fr)
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汤美
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汤美
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Priority to CN201680000022.5A priority Critical patent/CN105683749A/zh
Priority to PCT/CN2016/070540 priority patent/WO2017120713A1/zh
Publication of WO2017120713A1 publication Critical patent/WO2017120713A1/zh

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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N33/00Investigating or analysing materials by specific methods not covered by groups G01N1/00 - G01N31/00
    • G01N33/0004Gaseous mixtures, e.g. polluted air
    • G01N33/0009General constructional details of gas analysers, e.g. portable test equipment
    • G01N33/0073Control unit therefor
    • G01N33/0075Control unit therefor for multiple spatially distributed sensors, e.g. for environmental monitoring
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N33/00Investigating or analysing materials by specific methods not covered by groups G01N1/00 - G01N31/00
    • G01N33/0004Gaseous mixtures, e.g. polluted air
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D46/00Filters or filtering processes specially modified for separating dispersed particles from gases or vapours
    • B01D46/30Particle separators, e.g. dust precipitators, using loose filtering material
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D2258/00Sources of waste gases
    • B01D2258/06Polluted air

Definitions

  • the invention relates to the field of campus environment control technology, and more particularly to a campus air intelligent detection optimization system.
  • the technical problem to be solved by the present invention is to provide a campus air intelligent detection and optimization system capable of timely detecting and displaying air quality, and alarming of harmful gas exceeding the standard and automatically optimizing the air, in view of the above-mentioned defects of the prior art.
  • a campus air intelligent detection and optimization system comprising a service terminal, a student sub-end and an air detection optimization end uniformly distributed in various areas on the campus; wherein the service terminal comprises an information processor and is used for the student sub-end a first wireless communication module in communication with the air detection optimization terminal;
  • the air detection optimization end includes a power module, a second wireless communication module for communicating with the service terminal, a dust detection module for detecting dust content in the air, and a harmful gas detection module for detecting harmful gas content in the air.
  • a processing module for receiving and processing the dust detecting module and the harmful gas detecting module detecting information, an alarm module for transmitting alarm information to the student sub-end through the service terminal when the harmful gas exceeds the standard
  • the air optimization module includes an air humidifier and an air adsorption purifier; the air humidifier is configured to inhale air and introduce the air into the water tank when the dust detecting module detects that the dust content in the air exceeds the standard Discharging and filtering; the air adsorption purifier is configured to inhale air after the harmful gas exceeds the standard and adsorb it after being adsorbed by activated carbon;
  • the student sub-end includes a display screen, a third wireless communication module for receiving information of the service terminal, and the display screen is used for displaying air quality status of each area of the campus and alarming when an alarm information is sent in a certain area .
  • the campus air intelligent detection and optimization system of the present invention wherein the power module is a solar battery.
  • the campus air intelligent detection and optimization system of the present invention wherein the air detection optimization end further includes a wind detection module, and the wind detection module detection data is sent to the student through the service terminal after being processed by the processing module
  • the sub-end is displayed by the display screen.
  • the campus air intelligent detection and optimization system wherein the air detection optimization end further includes an air humidity detecting module, wherein the air humidity detecting module detects that the data is sent to the office through the service terminal after being processed by the processing module The student is described and displayed by the display.
  • the campus air intelligent detection and optimization system of the present invention wherein the air detection optimization end further includes a temperature detecting module, and the temperature detecting module detecting data is sent to the student through the service terminal after being processed by the processing module.
  • the sub-end is displayed by the display screen.
  • the invention has the advantages that the dust detection module and the harmful gas detection module are arranged, and the detection data is transmitted to the display screen of the student sub-end through the service terminal, so as to facilitate timely grasping the air condition of each area in the campus, and then avoiding when traveling. If the dust detection module or the harmful gas detection module detects that the dust or harmful gas in the air exceeds the standard, the air optimization module works under the driving of the processing module, and the area is operated in a heavily polluted area or in a more serious area; The gas is automatically optimized without additional labor, and the optimization cost is low, which is easy to popularize.
  • FIG. 1 is a block diagram showing the principle of a campus air intelligent detection optimization system according to a preferred embodiment of the present invention.
  • the campus air intelligent detection optimization system of the preferred embodiment of the present invention includes a service terminal 1, a student sub-end 2, and an air detection optimization terminal 3 uniformly distributed in various areas on the campus;
  • the service terminal 1 includes an information processor. 10 and a first wireless communication module 11 for communicating with the student terminal 2 and the air detection optimization terminal 3;
  • the air detection optimization terminal 3 includes a power module 30, a second wireless communication module 31 for communicating with the service terminal 1, a dust detection module 32 for detecting dust content in the air, and a harmful gas detection for detecting harmful gas content in the air.
  • the air optimization module 36 includes an air humidifier 360 and an air adsorption purifier 361.
  • the air humidifier 360 is configured to inhale and introduce air when the dust detecting module 32 detects that the dust content in the air exceeds the standard.
  • the water tank is filtered and discharged; the air adsorption purifier 361 is used for inhaling air when the harmful gas exceeds the standard and discharging it after being adsorbed by the activated carbon;
  • the student terminal 2 includes a display screen 20, a third wireless communication module 21 for receiving information of the service terminal 1, and a display screen 20 for displaying air quality status of each area of the campus and alarming when an alarm information is sent in a certain area;
  • the dust detecting module 32 and the harmful gas detecting module 33 are disposed, and the detection data is transmitted to the display screen 20 of the student sub-end 2 through the service terminal 1 to facilitate timely grasping the air condition of each area in the campus, thereby avoiding pollution when traveling.
  • a protective device such as a mask is taken; when the dust detecting module 32 or the harmful gas detecting module 33 detects that the dust or harmful gas in the air exceeds the standard, the air optimization module 36 operates under the driving of the processing module 34.
  • the gas in the region is automatically optimized without additional labor, and the optimization cost is low, which is convenient for popularization.
  • the power module 30 is a solar battery pack, which greatly saves cost.
  • the air detection optimization terminal 3 further includes a wind detection module 37.
  • the wind detection module 37 detects that the data is processed by the processing module 34 and sent to the student terminal 2 through the service terminal 1 and displayed by the display screen 20, which is convenient for real-time control. Wind information for each region.
  • the air detection optimization terminal 3 further includes an air humidity detection module 38.
  • the air humidity detection module 38 detects that the data is processed by the processing module 34 and sent to the student sub-end 2 through the service terminal 1 and displayed by the display screen 20, which is convenient. Real-time information on air humidity in each area.
  • the air detection optimization terminal 3 further includes a temperature detection module 39.
  • the temperature detection module 39 detects that the data is processed by the processing module 34 and then sent to the student sub-end 2 through the service terminal 1 and displayed by the display screen 20, which is convenient for real-time control. Temperature information for each zone.

Abstract

一种校园空气智能检测优化系统,包括服务终端(1)、学生子端(2)和均匀分布在校园内各个区域的空气检测优化端(3);服务终端(1)包括信息处理器(10)和第一无线通讯模块(11);空气检测优化端(3)包括电源模块(30)、第二无线通讯模块(31)、粉尘检测模块(32)、有害气体检测模块(33)、用于接收并处理粉尘检测模块(32)以及有害气体检测模块(33)检测信息的处理模块(34)、用于在有害气体超标时通过服务终端(1)向学生子端(2)发送报警信息的报警模块(35)、用于优化空气的空气优化模块(36),空气优化模块(36)包括空气加湿器(360)和空气吸附净化器(361);学生子端(2)包括显示屏(20)、第三无线通讯模块(21);当粉尘检测模块(32)或有害气体检测模块(33)检测到空气中粉尘或有害气体超标时,空气优化模块(36)在处理模块(34)驱动下进行工作自动优化空气。

Description

一种校园空气智能检测优化系统 技术领域
本发明涉及校园环境控制技术领域,更具体地说,涉及一种校园空气智能检测优化系统。
背景技术
随着工业的发展,大气质量呈现每况愈下的形势,雾霾天气正逐渐吞噬着更多的地区;对学校这样人群较密集的区域,区域内的空气质量监控必须得到高度的重视;然而目前校园内暂无一种能对空气质量及时检测显示,以及有害气体超标报警、自动对空气进行优化的智能系统。
技术问题
本发明要解决的技术问题在于,针对现有技术的上述缺陷,提供一种能对空气质量及时检测并显示,以及有害气体超标报警、自动对空气进行优化的校园空气智能检测优化系统。
技术解决方案
本发明解决其技术问题所采用的技术方案是:
构造一种校园空气智能检测优化系统,包括服务终端、学生子端和均匀分布在校园内各个区域的空气检测优化端;其中,所述服务终端包括信息处理器和用于与所述学生子端和所述空气检测优化端通讯的第一无线通讯模块;
所述空气检测优化端包括电源模块、用于与所述服务终端通讯的第二无线通讯模块、用于检测空气中粉尘含量的粉尘检测模块、用于检测空气中有害气体含量的有害气体检测模块、用于接收并处理所述粉尘检测模块以及所述有害气体检测模块检测信息的处理模块、用于在有害气体超标时通过所述服务终端向所述学生子端发送报警信息的报警模块、用于优化空气的空气优化模块,所述空气优化模块包括空气加湿器和空气吸附净化器;所述空气加湿器用于在所述粉尘检测模块检测空气中粉尘含量超标时对空气进行吸气并导入水槽中进行过滤后排出;所述空气吸附净化器用于在所述有害气体超标时对空气进行吸气并将其经过活性碳吸附后排出;
所述学生子端包括显示屏、用于接收所述服务终端信息的第三无线通讯模块;所述显示屏用于显示校园各区域空气质量状态以及在某一区域有发送报警信息时进行报警提醒。
本发明所述的校园空气智能检测优化系统,其中,所述电源模块为太阳能电池组。
本发明所述的校园空气智能检测优化系统,其中,所述空气检测优化端还包括风力检测模块,所述风力检测模块检测数据经过所述处理模块处理后经过所述服务终端发送至所述学生子端并由所述显示屏显示。
本发明所述的校园空气智能检测优化系统,其中,所述空气检测优化端还包括空气湿度检测模块,所述空气湿度检测模块检测数据经过所述处理模块处理后经过所述服务终端发送至所述学生子端并由所述显示屏显示。
本发明所述的校园空气智能检测优化系统,其中,所述空气检测优化端还包括温度检测模块,所述温度检测模块检测数据经过所述处理模块处理后经过所述服务终端发送至所述学生子端并由所述显示屏显示。
有益效果
本发明的有益效果在于:设置粉尘检测模块和有害气体检测模块,并将检测数据通过服务终端传递至学生子端的显示屏上显示,便于及时掌握校园内各个区域的空气状况,进而出行时避开污染较为严重区域或在较为严重区域带上口罩等防护设备;当粉尘检测模块或有害气体检测模块检测到空气中粉尘或有害气体超标时,空气优化模块在处理模块驱动下进行工作,对该区域气体进行自动优化,无需额外人工,且优化成本低,便于推广普及。
附图说明
为了更清楚地说明本发明实施例或现有技术中的技术方案,下面将结合附图及实施例对本发明作进一步说明,下面描述中的附图仅仅是本发明的部分实施例,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其他附图:
图1是本发明较佳实施例的校园空气智能检测优化系统原理框图。
本发明的实施方式
为了使本发明实施例的目的、技术方案和优点更加清楚,下面将结合本发明实施例中的技术方案进行清楚、完整的描述,显然,所描述的实施例是本发明的部分实施例,而不是全部实施例。基于本发明的实施例,本领域普通技术人员在没有付出创造性劳动的前提下所获得的所有其他实施例,都属于本发明的保护范围。
本发明较佳实施例的校园空气智能检测优化系统如图1所示,包括服务终端1、学生子端2和均匀分布在校园内各个区域的空气检测优化端3;服务终端1包括信息处理器10和用于与学生子端2和空气检测优化端3通讯的第一无线通讯模块11;
空气检测优化端3包括电源模块30、用于与服务终端1通讯的第二无线通讯模块31、用于检测空气中粉尘含量的粉尘检测模块32、用于检测空气中有害气体含量的有害气体检测模块33、用于接收并处理粉尘检测模块32以及有害气体检测模块33检测信息的处理模块34、用于在有害气体超标时通过服务终端1向学生子端2发送报警信息的报警模块35、用于优化空气的空气优化模块36,空气优化模块36包括空气加湿器360和空气吸附净化器361;空气加湿器360用于在粉尘检测模块32检测空气中粉尘含量超标时对空气进行吸气并导入水槽中进行过滤后排出;空气吸附净化器361用于在有害气体超标时对空气进行吸气并将其经过活性碳吸附后排出;
学生子端2包括显示屏20、用于接收服务终端1信息的第三无线通讯模块21;显示屏20用于显示校园各区域空气质量状态以及在某一区域有发送报警信息时进行报警提醒;
设置粉尘检测模块32和有害气体检测模块33,并将检测数据通过服务终端1传递至学生子端2的显示屏20上显示,便于及时掌握校园内各个区域的空气状况,进而出行时避开污染较为严重区域或在较为严重区域带上口罩等防护设备;当粉尘检测模块32或有害气体检测模块33检测到空气中粉尘或有害气体超标时,空气优化模块36在处理模块34驱动下进行工作,对该区域气体进行自动优化,无需额外人工,且优化成本低,便于推广普及。
如图1所示,电源模块30为太阳能电池组,大大节约成本。
如图1所示,空气检测优化端3还包括风力检测模块37,风力检测模块37检测数据经过处理模块34处理后经过服务终端1发送至学生子端2并由显示屏20显示,便于实时掌握各区域风力信息。
如图1所示,空气检测优化端3还包括空气湿度检测模块38,空气湿度检测模块38检测数据经过处理模块34处理后经过服务终端1发送至学生子端2并由显示屏20显示,便于实时掌握各区域空气湿度信息。
如图1所示,空气检测优化端3还包括温度检测模块39,温度检测模块39检测数据经过处理模块34处理后经过服务终端1发送至学生子端2并由显示屏20显示,便于实时掌握各区域温度信息。
应当理解的是,对本领域普通技术人员来说,可以根据上述说明加以改进或变换,而所有这些改进和变换都应属于本发明所附权利要求的保护范围。

Claims (5)

  1. 一种校园空气智能检测优化系统,包括服务终端、学生子端和均匀分布在校园内各个区域的空气检测优化端;其特征在于,所述服务终端包括信息处理器和用于与所述学生子端和所述空气检测优化端通讯的第一无线通讯模块;
    所述空气检测优化端包括电源模块、用于与所述服务终端通讯的第二无线通讯模块、用于检测空气中粉尘含量的粉尘检测模块、用于检测空气中有害气体含量的有害气体检测模块、用于接收并处理所述粉尘检测模块以及所述有害气体检测模块检测信息的处理模块、用于在有害气体超标时通过所述服务终端向所述学生子端发送报警信息的报警模块、用于优化空气的空气优化模块,所述空气优化模块包括空气加湿器和空气吸附净化器;所述空气加湿器用于在所述粉尘检测模块检测空气中粉尘含量超标时对空气进行吸气并导入水槽中进行过滤后排出;所述空气吸附净化器用于在所述有害气体超标时对空气进行吸气并将其经过活性碳吸附后排出;
    所述学生子端包括显示屏、用于接收所述服务终端信息的第三无线通讯模块;所述显示屏用于显示校园各区域空气质量状态以及在某一区域有发送报警信息时进行报警提醒。
  2. 根据权利要求1所述的校园空气智能检测优化系统,其特征在于,所述电源模块为太阳能电池组。
  3. 根据权利要求1所述的校园空气智能检测优化系统,其特征在于,所述空气检测优化端还包括风力检测模块,所述风力检测模块检测数据经过所述处理模块处理后经过所述服务终端发送至所述学生子端并由所述显示屏显示。
  4. 根据权利要求1所述的校园空气智能检测优化系统,其特征在于,所述空气检测优化端还包括空气湿度检测模块,所述空气湿度检测模块检测数据经过所述处理模块处理后经过所述服务终端发送至所述学生子端并由所述显示屏显示。
  5. 根据权利要求1所述的校园空气智能检测优化系统,其特征在于,所述空气检测优化端还包括温度检测模块,所述温度检测模块检测数据经过所述处理模块处理后经过所述服务终端发送至所述学生子端并由所述显示屏显示。
PCT/CN2016/070540 2016-01-11 2016-01-11 一种校园空气智能检测优化系统 WO2017120713A1 (zh)

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