阅读说明：本技术 一种可基于物联网络的紫外消毒系统及使用方法 (Ultraviolet disinfection system based on Internet of things and use method ) 是由 黄潇潇 于 2021-08-25 设计创作，主要内容包括：本发明公开了一种可基于物联网络的紫外消毒系统及使用方法；属于空气消毒装置技术领域；它包括若干套消毒组件；每套消毒组件均通过物联交换机与云平台控制中心信号连接；每套消毒组件包括终端主机,由终端主机控制的紫外线消毒灯、空气消毒机和空调；其中紫外线消毒灯、空气消毒机和空调均设置在室内；本发明有效解决了当前针对室内消毒的措施存在的无法得到有效监测量化,难以满足疫情防控常态化下人们正常工作生活需要的问题。(The invention discloses an ultraviolet disinfection system based on an internet of things and a use method thereof; belongs to the technical field of air disinfection devices; it comprises a plurality of sets of disinfection components; each set of disinfection components is in signal connection with the cloud platform control center through the Internet of things switch; each set of disinfection component comprises a terminal host, an ultraviolet disinfection lamp, an air disinfector and an air conditioner, wherein the ultraviolet disinfection lamp, the air disinfector and the air conditioner are controlled by the terminal host; wherein the ultraviolet disinfection lamp, the air disinfector and the air conditioner are all arranged indoors; the invention effectively solves the problems that the current measures aiming at indoor disinfection can not be effectively monitored and quantified, and the normal working and living needs of people under epidemic situation prevention and control normalization can not be met.)

1. An ultraviolet disinfection system based on an internet of things is characterized in that: it comprises a plurality of sets of disinfection components (1); each set of disinfection component (1) is in signal connection with a cloud platform control center (3) through an internet of things switch (2); each set of disinfection component (1) comprises a terminal host (1A), an ultraviolet disinfection lamp (1B) controlled by the terminal host (1A), an air disinfector (1C) and an air conditioner (1D); wherein the ultraviolet disinfection lamp (1B), the air disinfector (1C) and the air conditioner (1D) are all arranged indoors.

2. The internet of things-based ultraviolet disinfection system of claim 1, wherein: the system also comprises an information issuing system (4); the information release system (4) is in signal connection with the cloud platform control center (3); the information distribution system (4) can receive signal data from the cloud platform control center (3), and the information distribution system (4) can access information stored by the terminal host (1A).

3. The internet of things-based ultraviolet disinfection system of claim 1, wherein: the disinfection component (1) also comprises an infrared detector (1E) and an alarm (1F) which are controlled by the terminal host (1A); the infrared detector (1E) is arranged indoors, and the effective detection range of the infrared detector reaches the entrance position of the sterilized space.

4. The internet of things-based ultraviolet disinfection system of claim 2, wherein: the alarm (1F) comprises a disinfection prompting lamp and a buzzer alarm.

5. The internet of things-based ultraviolet disinfection system of claim 1, wherein: and a timing module is also integrated on the terminal host (1A).

6. The internet of things-based ultraviolet disinfection system of claim 1, wherein: the terminal host (1A) is an integrated circuit board structure manufactured based on an 89C51 series single chip microcomputer, and a control interaction screen is installed on a shell of the terminal host (1A).

7. The method for controlling the ultraviolet disinfection system based on the internet of things as claimed in any one of claims 1 to 6, wherein: the method comprises the following steps:

s1, respectively installing disinfection components (1) in each indoor area as a target disinfection position, arranging the installation positions and the number of ultraviolet disinfection lamps (1B), air disinfectors (1C) and air conditioners (1D) in each disinfection component (1) according to the actual indoor environment condition, and uploading indoor environment parameters to a cloud platform for data modeling;

s2, before indoor equipment needs to be used, the ultraviolet disinfection lamp (1B) needs to be turned on through the control host (1A) to disinfect indoors in an early stage; after a period of time, completing early-stage disinfection and turning off the ultraviolet disinfection lamp (1B); meanwhile, the control host uploads the disinfection condition to a cloud platform control center (3) through the Internet of things switch (2);

s3, after the person enters the room, the indoor place is regarded as being in a normal use state, and at the moment, the air disinfection machine (1C) and the air conditioner (1D) are started to circularly disinfect the indoor air through the control host machine (1A);

s4, closing the air sterilizing machine (1C) and the air conditioner (1D) after the personnel completely leave the room; meanwhile, the host (1A) controls the ultraviolet disinfection lamp (1B) to be turned on again to carry out later disinfection work; the control host machine can also upload the disinfection condition to a cloud platform control center (3) through the Internet of things switch (2);

s5, comparing whether the indoor disinfection measurement and time reach the standard or not by the cloud platform control center (3) according to the pre-stored indoor data models, and if not, intervening the terminal host (1A) by means of remote control; and sending the disinfection status of each indoor area to the information distribution system (4), and prompting a block manager of the information distribution system (4) to process.

8. The control method of the ultraviolet disinfection system based on the internet of things as claimed in claim 7, wherein: when the ultraviolet disinfection lamp (1C) is turned on to disinfect the room in the steps S2 and S4, an alarm (1F) is used for prompting to avoid people from entering a disinfection area; the terminal host (1A) also controls the infrared detector (1E) to work so as to check whether personnel move indoors or not; if infrared detector (1E) detects that there is personnel to stay indoor, ultraviolet ray disinfection lamp (1C) will be closed immediately to terminal host (1A), opens alarm (1F) simultaneously and reminds personnel to leave indoorly, confirms again after indoor no personnel, turns on ultraviolet ray disinfection lamp again and carries out disinfection processing after terminal host (1A) postpones 5 minutes.

Technical Field

The invention relates to the technical field of air disinfection devices, in particular to an ultraviolet disinfection system based on an internet of things and a using method thereof.

Background

With the importance of people on life health, on the background that some epidemic symptoms cannot be rapidly detected through in vitro measures such as temperature measurement, the normalized prevention and control of viruses and bacteria aiming at the working environment becomes a currently important social topic. This kind of disinfection mode of manual spray antiseptic solution also is difficult to monitor, and the disinfection effect can't obtain the quantization, still probably has certain spraying blind area simultaneously, also can produce amazing to citizen's respiratory track, corrodes damage public facilities scheduling problem, and can be higher to the sterile requirement of indoor public space, based on such a condition, needs a new disinfection system to satisfy the demand.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the ultraviolet disinfection system based on the internet of things is provided to solve the problems that the current measures for indoor disinfection cannot be effectively monitored and quantified, and the normal working and living needs of people under epidemic situation prevention and control normalization cannot be met.

In order to solve the problems, the invention provides the following technical scheme:

an ultraviolet disinfection system based on an internet of things; it comprises a plurality of sets of disinfection components; each set of disinfection components is in signal connection with the cloud platform control center through the Internet of things switch; each set of disinfection component comprises a terminal host, an ultraviolet disinfection lamp, an air disinfector and an air conditioner, wherein the ultraviolet disinfection lamp, the air disinfector and the air conditioner are controlled by the terminal host; wherein the ultraviolet disinfection lamp, the air disinfector and the air conditioner are all arranged indoors.

Preferably, the system also comprises an information distribution system; the information issuing system is in signal connection with the cloud platform control center; the information issuing system can receive signal data from the cloud platform control center, and the information issuing system can access information stored by the terminal host.

Preferably, the disinfection component also comprises an infrared detector and an alarm which are controlled by the terminal host; the infrared detector is arranged indoors, and the effective detection range of the infrared detector reaches the entrance position of the sterilized space.

Further, the warning device comprises a disinfection prompting lamp and a buzzer alarm.

Preferably, a timing module is further integrated on the terminal host.

Preferably, the terminal host is an integrated circuit board structure manufactured based on an 89C51 series single chip microcomputer, and a control interaction screen is installed on a shell of the terminal host.

The invention also discloses a control method of the ultraviolet disinfection system based on the Internet of things, which comprises the following steps:

s1, respectively installing disinfection components in each indoor area serving as a target disinfection position, arranging the installation positions and the number of ultraviolet disinfection lamps, air disinfectors and air conditioners in each disinfection component according to the actual indoor environment condition, and uploading indoor environment parameters to a cloud platform for data modeling;

s2, before indoor equipment needs to be used, the ultraviolet disinfection lamp needs to be turned on through the control host to disinfect indoors in an early stage; completing early-stage disinfection after a period of time and turning off the ultraviolet disinfection lamp; meanwhile, the control host uploads the disinfection condition to a cloud platform control center through an internet of things switch;

s3, after the person enters the room, the indoor place is regarded as being in a normal use state, and at the moment, the air disinfection machine and the air conditioner are required to be started through the control host machine to circularly disinfect the indoor air;

s4, closing the air sterilizing machine and the air conditioner after the personnel completely leave the room; meanwhile, the host controls the ultraviolet disinfection lamp to be turned on again to carry out later disinfection work; the control host can also upload the disinfection condition to a cloud platform control center through the Internet of things switch;

s5, comparing whether the indoor disinfection measurement and time reach the standard or not by the cloud platform control center according to the pre-stored data models in each room, and if not, intervening the terminal host by means of remote control; and sending the disinfection condition of each indoor area to the information issuing system, and prompting a block manager of the information issuing system to process.

Preferably, the ultraviolet disinfection lamp is turned on to disinfect the room in steps S2 and S4, and the alarm gives out audible and visual prompts to prevent people from entering the disinfection area; the end host machine also controls the infrared detector to work so as to check whether personnel move indoors or not; if the infrared detector detects that a person stays indoors, the terminal host will immediately turn off the ultraviolet disinfection lamp, meanwhile, the alarm is turned on to remind the person to leave indoors, and after the fact that no person exists indoors is confirmed again, the terminal host delays for 5 minutes and then turns on the ultraviolet disinfection lamp again for disinfection treatment.

The invention has the beneficial effects that:

the invention designs a disinfection system aiming at the defects of the existing indoor disinfection measures, which takes an ultraviolet disinfection measure as a theme, combines an air conditioner disinfection machine and an air conditioner as a set of disinfection components and is connected to a cloud control center by a switch; the disinfection operation is standardized, automation is realized, and the disinfection process is fully monitored, so that normalized disinfection and epidemic prevention are realized; modeling each indoor place by using a data analysis system, ensuring that the disinfection time and the disinfection measurement reach the standard, and ensuring the safety and reliability of the indoor facility in the using process; the cloud platform can monitor each set of disinfection components in real time, so that rooms with unqualified disinfection can be automatically found and subjected to intervention treatment; the method comprises the following steps that effective communication connection is conducted on an internet-of-things switch, a cloud platform control center and each lower-layer electric control disinfection component by utilizing a network technology, on the basis that local disinfection records and corresponding information are stored and cannot be tampered, direct connection between a disinfection structure and an information issuing system is achieved, other personnel can directly obtain the working condition of a disinfection device under each local internet-of-things grid from the information issuing system, and therefore the corresponding indoor real-time disinfection condition is indirectly obtained; greatly improving the safety of the public using the indoor facilities.

Drawings

FIG. 1 is a schematic diagram of the connection of the apparatus of the present invention;

FIG. 2 is a schematic diagram illustrating the arrangement of the indoor sterilization unit according to the present embodiment;

description of reference numerals: 1. the disinfection subassembly, 1A, terminal host computer, 1B, ultraviolet ray disinfection lamp, 1C, air sterilizing machine, 1D, air conditioner, 1E, infrared detector, 1F, warning ware, 2, thing allies oneself with the switch, 3, cloud platform control center, 4, information issuing system.

Detailed Description

The invention will be further described with reference to the following drawings and specific embodiments:

example (b):

referring to fig. 1, the present embodiment provides an ultraviolet disinfection system based on internet of things; it comprises a plurality of sets of disinfection components 1; each set of disinfection component 1 is in signal connection with a cloud platform control center 3 through an internet of things switch 2; each set of disinfection component 1 comprises a terminal host 1A, an ultraviolet disinfection lamp 1B controlled by the terminal host 1A, an air disinfector 1C and an air conditioner 1D; wherein the ultraviolet ray disinfection lamp 1B, the air disinfector 1C and the air conditioner 1D are all arranged indoors. The terminal host 1A used in this embodiment is an embedded control system host structure with a local storage function.

The system also comprises an information issuing system 4; the information release system 4 is in signal connection with the cloud platform control center 3; the information distribution system 4 can receive signal data from the cloud platform control center 3, and the information distribution system 4 can access information stored in the terminal host 1A. .

The disinfection component 1 also comprises an infrared detector 1E and an alarm 1F which are controlled by the terminal host 1A; the infrared detector 1E is disposed indoors, and its effective detection range reaches the entrance position of the space to be sterilized.

The alarm 1F comprises a disinfection prompting lamp and a buzzer alarm.

A timing module is also integrated on the terminal host 1A.

The terminal host 1A is an integrated circuit board structure manufactured based on 89C51 series single-chip microcomputer, and a control interaction screen is installed on a shell of the terminal host 1A.

In the present embodiment, the layout structure of the indoor sterilizing component can refer to fig. 2, wherein the ultraviolet sterilizing lamp 1B is arranged at the position of the indoor ceiling; and air sterilizing machine 1C and air conditioner 1D are vertical box structure, and both install by indoor wallboard, and terminal host computer 1A among every set of disinfection subassembly installs in the outdoor one side that is close to the corridor so that receive control signal, and what correspond all sets up a thing at every regional node similar to the corridor and allies oneself with the switch, and this thing allies oneself with the switch and all passes through wire and disinfection subassembly signal connection, and above-mentioned device all supplies power through external power source.

The invention also discloses a control method of the ultraviolet disinfection system based on the Internet of things, which comprises the following steps:

s1, respectively installing the disinfection assemblies 1 in each indoor area serving as a target disinfection position, arranging the installation positions and the number of the ultraviolet disinfection lamps 1B, the air disinfector 1C and the air conditioners 1D in each disinfection assembly 1 according to the actual indoor environment condition, and uploading indoor environment parameters to a cloud platform for data modeling;

s2, before indoor equipment needs to be used, the ultraviolet disinfection lamp 1B needs to be turned on through the control host 1A to disinfect indoors in an early stage; completing early-stage disinfection after a period of time and turning off the ultraviolet disinfection lamp 1B; meanwhile, the control host uploads the disinfection condition to the cloud platform control center 3 through the Internet of things switch 2;

s3, after the person enters the room, the indoor place is regarded as being in a normal use state, and at the moment, the air disinfection machine 1C and the air conditioner 1D need to be opened through the control host machine 1A to circularly disinfect the indoor air;

s4, closing the air disinfector 1C and the air conditioner 1D after the personnel completely leave the room; meanwhile, the host 1A controls the ultraviolet disinfection lamp 1B to be turned on again to carry out later disinfection work; the control host computer can also upload the disinfection condition to the cloud platform control center 3 through the Internet of things switch 2;

s5, the cloud platform control center 3 compares whether the indoor disinfection measurement and time reach the standard according to the pre-stored data models in each room, and if not, the terminal host 1A is intervened through a remote control method; the disinfection status of each indoor area is sent to the information distribution system 4, and the block manager of the information distribution system 4 is prompted to perform processing.

In steps S2 and S4, the ultraviolet disinfection lamp 1C is turned on to disinfect the room, and the alarm 1F gives an audible and visual indication to prevent a person from entering the disinfection area; the terminal host 1A also controls the infrared detector 1E to work so as to check whether personnel move indoors; if infrared detector 1E detects that there is personnel to get into or stay indoor, terminal host 1A will close ultraviolet ray disinfection lamp 1C immediately, opens alarm 1F simultaneously and reminds personnel to leave indoorly, confirms again after indoor no personnel, turns on ultraviolet ray disinfection lamp again and carries out disinfection processing after 5 minutes delay of terminal host 1A and falls.