Design and Research of Automatic Soap Remover Based on Miniature Optical Sensor

Xijie Hua; Shetong Jia; Shuai Yang; Hongbo Zhang

doi:https://doi.org/10.14445/22492593/IJCOT-V12I1P301

Research Article | Open Access | Download PDF

Volume 12 | Issue 1 | Year 2022 | Article Id. IJCOT-V12I1P301 | DOI : https://doi.org/10.14445/22492593/IJCOT-V12I1P301

Design and Research of Automatic Soap Remover Based on Miniature Optical Sensor

Xijie Hua, Shetong Jia, Shuai Yang, Hongbo Zhang

Received	Revised	Accepted
14 Feb 2022	25 Mar 2022	27 Mar 2022

Citation :

Xijie Hua, Shetong Jia, Shuai Yang, Hongbo Zhang, "Design and Research of Automatic Soap Remover Based on Miniature Optical Sensor," International Journal of Computer & Organization Trends (IJCOT), vol. 12, no. 1, pp. 1-2, 2022. Crossref, https://doi.org/10.14445/22492593/IJCOT-V12I1P301

Abstract

There is a large demand for soap in China, but using soap is extremely inconvenient. This design uses the method of automatically cutting soap to solve the inconvenience of using soap in the past and achieving the integrated process from "induction - cutting soap - finishing - using" to avoid non-essential contact and waste. the device mainly solves the problem based on the above-mentioned public health issues caused by direct or indirect contact. It is uncomplicated for users to clean their hands. It reduces the chance of people having physical contact with the same soap in public places, but it is also more conducive to the maintenance of personal hygiene.

Keywords

Soap, Automation device, Solid material cutting, Health protection.

References

[1] Tang Chunlian, Mao Xiaoqing, Yang Chaoqun. Investigation of the Contamination of Hospital Faucets, Soap and Soap Dishes [J]. Chinese Journal of Disinfection, 23(005) (2006) 485-485.

[2] Zhong Muxiang, Xu Runlin, Yang Laorong, Et Al. Evaluation of Handwashing with Soap and Hand Sanitiser [J]. Modern Preventive Medicine, 15 (2007) 2992-2992.

[3] Liu Shitou. Research on Some Problems in Designing and Manufacturing Cutting Tools [D]. Huazhong University of Science and Technology, (2006).

[4] Xie Yun, Zhao Hengbo, Liao Mingdong. Design of Stepper Motor Control Program Based on STM32 [J]. Information and Communication, 4 (2018) 108-110.

[5] Li Siqi, Zeng Rongxin. Design of Data Acquisition System Based on STM32 Infrared Sensor [J]. Industrial Control Computer, ,31(08) (2018) 30-31+33.

[6] Yu Yang, Liao Wanzhen. Strengthening the Management of Hand-Washing Soap to Prevent Nosocomial Infection[J]. Experimental and Laboratory Medicine, 20(005) (2002) 303-303.

[7] Zhu Youlin. Research on the Influence of Industrial Product Appearance Design on Structural Design [J]. Modern Manufacturing Technology and Equipment, 57(12) (2002) 27-29. DOI:10.16107/J.Cnki.Mmte.2021.0916.

[8] Han Chaoqun. Talking About the Importance of Industrial Design in Mechanical Products [J]. China Equipment Engineering, 2 (2002) 91-92.

[9] Liu Jianfeng, Wang Jing. Research and Design of a Long Chip Cutting Device for Turning Non-Metallic Materials [J]. Mechanical Engineer, 10 (2021) 104-106.

[10] Wang Zhiqiang. Design of Temperature and Photosensitive Wireless Sensor Based on STM32 [J]. Electronic Testing, 3 (2022). 46-49. DOI:10.16520/J.Cnki.1000-8519.2022.03.033.

[11] Zhang Zhongshen, Zhang Jun. Design and Implementation of Physical Fitness Monitor for College Students Based on STM32 Microcontroller [J]. Computer Measurement and Control, 30(02) (2022) 292-298. DOI: 10.16526/J.Cnki.11 -4762/Tp.2022.02.042.

[12] Zhang Lie. Analysis and Discussion on the Optimal Design of Mechanical Structure [J]. Modern Salt Chemical Industry, 49(01) (2022) 80-81. DOI: 10.19465/J.Cnki.2095-9710.2022.01.036.

[13] Zhou Liping, Li Zhao. Mechanical Structure Design Technology and Process - Industrial Robot Mechanical System [J]. Foundry, 71(01) (2022) 122.

[14] Zhang Wenjia. On the Mechanical Structure Design of CNC Machine Tool Loading and Unloading Manipulators [J]. Equipment Management and Maintenance, (22) (2011) 82-84. DOI:10.16621/J.Cnki.Issn1001-0599.2021.11D.44.

[15] Zhang Chuanshen, Cai Dongcheng, Cao Yinjie. Design of Intelligent Storage System Based on STM32 [J]. Automation Technology and Application, 40(11) (2021) 31-34.

[16] Wang Jiao, Wang Xianliang, Ye Dan, Pan Lijun. Hygiene Prevention and Control Measures in Public Places During the Novel Coronavirus Pneumonia Epidemic [J]. Journal of Environmental Hygiene, 10(04) (2020) 410-413. DOI: 10.13421/J .Cnki.Hjwsxzz.2020.04.016.

[17] Shi Xiaoming. Requirements For Protection and Disinfection of Key Places During the Outbreak of Novel Coronavirus Pneumonia [J]. Journal of Environmental Hygiene, 10(02) (2020)111-112+116.DOI:10.13421/J.Cnki.Hjwsxzz. 2020.02.001.

[18] Wang Jian, Li Hongmin, Zhang Jiarui, Wang Lixin, Qu Zonghao. Research Progress of Structural Health Monitoring and Increasing the Degree of Building Intelligence [J]. Intelligent Building and Smart City, (03) (2022) 124-127.DOI:10.13655/ J.Cnki.Ibci.2022.03.033.

[19] Fan Qing. Frontier Research on Mechanical Equipment Manufacturing and Intelligent Industry Development—Comment on Mechanical Equipment Design [J]. Nonferrous Metals (Smelting Section), (04) (2022) 121.

[20] Huang Yun. Research on Intelligent Technology and Mechatronics Integration in Machinery Manufacturing [J]. Nanfang Agricultural Machinery, 53(03) (2022) 108-110.

[21] Zhang Hao. Application of Intelligent Automation Technology in Mechanical Design [J]. Science and Technology Information, 19(27) (2021) 66-67+70.DOI:10.16661/J.Cnki.1672-3791.2110-5042-4405.

[22] Sang Lixin, Ding Shuxin. the Future Development Trend of Mechanical Design and Manufacturing and Its Automation [J]. Internal Combustion Engine and Accessories, (12) (2021) 154-155. DOI: 10.19475/J.Cnki.Issn1674-957x.2021.12 .071.

[23] Huang Qianqinghe. Analysis of Industrial Design Application Based on Electronic Control Technology in Mechanical Product Design [J]. Electronics World, (05) (2020) 80-81. DOI:10.19353/J.Cnki.Dzsj.2020.05 .045.