消毒机器人Hanth-x1开源分享

描述

首先让我告诉你，我们人类有幸拥有迄今为止发现或发明的技术，我们需要永远采用它。

在您的安卓移动设备中安装应用程序“UVC 消毒设备”。以前，必须启用 Android 设备才能安装来自未知来源的应用程序。将 UVC 消毒设备插入电网。绿色 LED 将亮起

执行之前安装在您的移动设备上的应用程序。

通过蓝牙连接UVC消毒设备。建立连接后，蓝色 LED 将亮起。

选择辐射时间，您可以手动设置时间或从下拉菜单中选择。

单击“激活”按钮。该应用程序将 UVC 设备的资产显示为“已激活”。红色 LED 将亮起并开始闪烁。此灯会伴随蜂鸣器发出几声短促的哔哔声。在最后一声较长的哔声后，UVC 灯将打开。只要 UVC 灯正常工作，红色 LED 将从闪烁切换为持续亮起。

该应用程序将在编程时间完成后关闭设备。该应用程序会将设备的资产显示为“未激活”，并且红灯将关闭。或者，可以通过单击“停止”按钮关闭设备。单击“重置”按钮可以重置计时器。

剂量参考表显示了消毒高达 99.9% 的不同种类微生物所需的 UVC 剂量参考值。

单击“退出”按钮退出应用程序。蓝色 LED 将关闭。

The main use of this sanitizer is to reduce or eliminate a wide range of microorganisms existing in a specific area. The reference values for dosage are provided to allow the user estimation of the minimum exposure time that needs to be used. These values are only indicative, and therefore, the optimal exposure time should be determined experimentally according to the needs. The dosages values indicated in reference  can be used to estimate the required exposure time according to the following simplified method:
The UV-C dosage received by surface unit (D, expressed in J/cm2) at a given distance (r) from the sanitizer, depends on the power of the emitted UV-C light (P, equal to 8 W for our device) according to this equation:
(1)
D=(P.t)/(2π.L.r)
where L is the length of the UV-C lamps (30 cm) and t is the exposure time expressed in seconds.
Based on this equation, the exposure time can be calculated as follows:
(2)
t=(2π.L.r.D)/P
Using this method, a tool to estimate the minimum exposure time to reach the desired dosage for a certain distance from the device (Fig. 5b) was developed and is available in the initial screen of the app controlling the device.

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设计阶段

谢谢你。

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参考

[1]

D.J. Weber,  H. Kanamori,  W.A. Rutala
‘No touch’ technologies for environmental decontamination: focus on ultraviolet devices and hydrogen peroxide systems
Curr. Opin. Infect. Dis.,  29 (4) (2016), pp. 424-431
View Record in ScopusGoogle Scholar
[2]
N. Mahida,  N. Vaughan,  T. Boswell
First UK evaluation of an automated ultraviolet-C room decontamination device (Tru-D™)
J. Hosp. Infect.,  84 (4) (2013), pp. 332-335
ArticleDownload PDFView Record in ScopusGoogle Scholar
[3]
A. Beal,  N. Mahida,  K. Staniforth,  N. Vaughan,  M. Clarke,  T. Boswell
First UK trial of Xenex PX-UV, an automated ultraviolet room decontamination device in a clinical haematology and bone marrow transplantation unit
J. Hospital Infect.,  93 (2) (2016), pp. 164-168
ArticleDownload PDFView Record in ScopusGoogle Scholar
[4]
M.M. Nerandzic,  J.L. Cadnum,  M.J. Pultz,  C.J. Donskey
Evaluation of an automated ultraviolet radiation device for decontamination of Clostridium difficile and other healthcare-associated pathogens in hospital rooms
BMC Infect. Dis.,  10 (1) (2010)
Google Scholar
[5]
J.C. Chang,  et al.
UV inactivation of pathogenic and indicator microorganisms
Appl. Environ. Microbiol.,  49 (6) (1985), pp. 1361-1365
CrossRefView Record in ScopusGoogle Scholar
[6]
T.A. Conner-Kerr,  P.K. Sullivan,  J. Gaillard,  M.E. Franklin,  R.M. Jones
The effects of ultraviolet radiation on antibiotic-resistant bacteria in vitro
Ostomy Wound Manage.,  44 (10) (1998), pp. 50-56
View Record in ScopusGoogle Scholar
[7]
S.I. Ahmad (Ed.),  Ultraviolet Light in Human Health, Diseases and Environment,  vol. 996,  Springer International Publishing,  Cham (2017)
[8]
A. Downes,  T.P. Blunt
On the influence of light upon protoplasm
Proc. R. Soc. London,  28 (190–195) (1878), pp. 199-212
View Record in ScopusGoogle Scholar
[9]
P. Gøtzsche
Niels Finsen’s treatment for lupus vulgaris
J. R. Soc. Med.,  104 (1) (Jan. 2011), pp. 41-42
CrossRefView Record in ScopusGoogle Scholar
[10]
E.A. Nardell,  et al.
Safety of upper-room ultraviolet germicidal air disinfection for room occupants: results from the tuberculosis ultraviolet shelter study
Public Health Rep.,  123 (1) (2008), pp. 52-60
CrossRefView Record in ScopusGoogle Scholar
[11]
R.M. Ryan,  G.E. Wilding,  R.J. Wynn,  R.C. Welliver,  B.A. Holm,  C.L. Leach
Effect of enhanced ultraviolet germicidal irradiation in the heating ventilation and air conditioning system on ventilator-associated pneumonia in a neonatal intensive care unit
J. Perinatol.,  31 (9) (2011), pp. 607-614
CrossRefView Record in ScopusGoogle Scholar
[12]
G. Messina,  S. Burgassi,  D. Messina,  V. Montagnani,  G. Cevenini
A new UV-LED device for automatic disinfection of stethoscope membranes
Am. J. Infect. Control,  43 (10) (2015), pp. e61-e66
ArticleDownload PDFView Record in ScopusGoogle Scholar
[13]
M.U. Owens,  D.R. Deal,  M.O. Shoemaker,  G.B. Knudson,  E. Janet,  J.L. Deal
High-dose ultraviolet C light inactivates spores of Bacillus subtilis var. niger and Bacillus anthracis sterne on non-reflective surfaces
Area,  10 (November) (2005), pp. 1-6
CrossRefGoogle Scholar

[14]
R.L. Riley,  E.A. Nardell
Clearing the air: the theory and application of ultraviolet air disinfection
Am. Rev. Respiratory Dis.,  139 (5) (1989), pp. 1286-1294
CrossRefView Record in ScopusGoogle Scholar
[15]
Arduino, https://www.arduino.cc.
Google Scholar
[16]
J.M. Pearce
Chapter 1 – Introduction to open-source hardware for science
Open-Source Lab,  Elsevier,  Boston (2014), pp. 1-11
ArticleDownload PDFView Record in ScopusGoogle Scholar
[17]
MIT App Inventor 2, http://ai2.appinventor.mit.edu/.
Google Scholar
[18]
“Light Sources Inc and American Ultraviolet Company. UV irradiation dosage table.” [Online]. Available: http://www.americanairandwater.com/uv-facts/uvdosage.htm.
Google Scholar
[19]
“ClorDISys Company. UV irradiation dosage table.” [Online]. Available: http://www.clordisys.com/pdfs/misc/UV Data Sheet.pdf.
Google Scholar
[20]
K.C. Dhankani,  J.M. Pearce
Open source laboratory sample rotator mixer and shaker
HardwareX,  1 (2017), pp. 1-12
ArticleDownload PDFView Record in ScopusGoogle Scholar
[21]
“UV-C lamps, Phillips TUV-T8 special lamps family.” [Online]. Available: http://www.lighting.philips.com/main/prof/conventional-lamps-and-tubes/special-lamps/purificationwater-and-air/commercial-and-professional-air/tuv-t8.
Google Scholar
[22]
Teamviewer, https://www.teamviewer.com/.