设计简介:
项目名:智能鞋柜
项目编号:mcuclub-dz-230
单片机类型:STM32F103C8T6
具体功能:
1、通过DHT11检测鞋柜温湿度,当温度低于设置值,进行加热,当湿度高于设置值,进行加热和通风;
2、通过GP2Y10检测粉尘浓度,当粉尘浓度值大于设置最大值,进行通风
3、通过MQ-135检测鞋柜内氨气,过高时启动紫外线杀菌
4、通过霍尔传感器检鞋柜门状态,关闭时,自动打开消毒灯,打开时,消毒灯关闭
5、通过光敏电阻检测光照值,当光照值低于设置最小值且鞋柜门打开,则LED照明灯自动打开
6、通过按键设置各阈值
7、通过显示屏显示测量值
8、通过蓝牙模块将测量数据发送到手机端,并可以控制加热、除湿、通风、消毒、照明以及模式切换
总字数:19206
实物链接:点击跳转
设计说明书链接:点击跳转
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摘 要
鞋子在穿着过程中会产生诸多卫生问题,在长期穿着后鞋内处于闷热潮湿的微环境,引发脚气足癣等皮肤病。新型冠状病毒在全球爆发,有研究发现鞋子也可能成为传播疾病的媒介,但忽视了对其进行清洁消毒。鞋柜作为存储鞋子的家具产品,其内部阴暗封闭,非常适宜细菌的生存与繁殖。如今单一存储功能的鞋柜已经不能满足人们的卫生健康需求,集智能化、绿色化于一体的消毒鞋柜将成为未来市场的趋势。
本文以鞋柜作为研究对象,采用单片机技术对其进行设计,分为软件设计和硬件设计,硬件设计:采用STM32单片机作为主控芯片,采用DHT11检测鞋柜中的温湿度,采用GP2Y10检测鞋柜灰尘浓度,采用MQ-135检测鞋柜内氨气浓度,采用霍尔传感器检鞋柜门状态,采用光敏电阻检测鞋柜内的光照强度值,采用OLED显示屏进行相关数据的显示,采用蓝牙模块将检测到的数据传输到用户的手机上,用户可以通过按键对其参数值进行设置,也可以通过手机对相关阈值进行设置;软件设计:采用Keil5作为此次设计程序编程软件,采用AD作为此次设计的原理图和PCB的绘制软件,采用stc-isp作为此次设计程序的烧录软件,采用Visio作为此次设计的流程图绘制软件;通过软硬件配合进行设计,实现对用户鞋柜中的相关参数进行控制,当检测到用户需要打开鞋柜时,自动进行打开。
关键词:鞋柜;温湿度;霍尔传感器;光照检测;单片机
Abstract
Shoes in the wearing process will produce many health problems, in the long-term wearing shoes in the hot and humid microenvironment, resulting in athlete’s foot and other skin diseases. In the global outbreak of the new coronavirus, studies have found that shoes may also become a vector of disease transmission, but they have neglected to clean and disinfect them. As a furniture product for storing shoes, the interior of the shoe cabinet is dark and closed, which is very suitable for the survival and reproduction of bacteria. Today, the single storage function of the shoe cabinet can no longer meet people’s health needs, set intelligent, green in one of the disinfection of the shoe cabinet will become the future market trend.
In this paper, the shoe cabinet as the research object, the use of single-chip technology to design it, divided into software design and hardware design, hardware design: STM32 single chip microcomputer is used as the main control chip, DHT11 is used to detect the temperature and humidity in the shoe cabinet, GP2Y10 is used to detect the dust concentration in the shoe cabinet, MQ-135 is used to detect the ammonia concentration in the shoe cabinet, Hall sensor is used to detect the door status of the shoe cabinet, photoresistor is used to detect the light intensity value in the shoe cabinet, and OLED display is used to display the relevant data. The Bluetooth module is used to transmit the detected data to the user’s mobile phone, and the user can set the parameter value by pressing the button, or set the related threshold through the mobile phone. Software design: Keil5 is used as the programming software of this design program, AD is used as the drawing software of this design schematic and PCB, stc-isp is used as the burning software of this design program, and Visio is used as the flowchart drawing software of this design. Through the design of hardware and software, the relevant parameters of the user’s shoe cabinet can be controlled. When the user needs to open the shoe cabinet, it will be opened automatically.
Key words: shoe cabinet; Temperature and humidity; Hall sensor; Light detection; Single chip microcomputer.
目 录
摘 要
Abstract
第1章 绪论
第2章 系统设计方案
第3章 硬件设计
第4章 系统程序设计
第5章 实物测试
结论
参 考 文 献
致谢
附录