CN113384734A - Air sterilizer, remote monitering system - Google Patents

Abstract

The invention provides an air sterilizer and a remote monitoring system, which comprise a power panel, an ultraviolet sterilization module connected with the power panel, an Internet of things unit and a sterilization factor intensity detection module; the sterilization factor intensity detection module is used for detecting the illumination intensity information of the ultraviolet sterilization module; the sterilization factor intensity detection module is connected in the Internet of things unit in a wireless communication mode; the system is used for uploading the detected illumination intensity information of the ultraviolet sterilization module in real time through the Internet of things unit; the Internet of things unit and the sterilization factor intensity detection module are respectively connected with the power panel and used for obtaining a working power supply from the power panel. The operation state of the equipment can be controlled by clients and companies in time, and after-sale maintenance, maintenance and timely intervention of the sterilizer disinfection module are facilitated.

Description

Air sterilizer, remote monitering system

Technical Field

The invention relates to the technical field of air disinfector design, in particular to an air disinfector and a remote monitoring system.

Background

The ultraviolet air sterilizer mainly comprises a filter, a fan and an ultraviolet sterilizing lamp, wherein the fan is used for circularly sterilizing air by the ultraviolet sterilizing lamp, a sterilization factor is an ultraviolet lamp, and the radiation illumination of the ultraviolet lamp is a main influence factor of the sterilization effect of equipment.

At present, the ultraviolet air disinfector on the market only has fault feedback, and when the feedback line cannot detect the output of the disinfection module, the control system gives an alarm. Generally, the alarm prompt of an indicator lamp is adopted, and if a user does not find the fault prompt of the sterilizer in time, the condition of incomplete sterilization is easily realized.

Disclosure of Invention

At present, the ultraviolet air disinfector on the market only has fault feedback, and when the feedback line cannot detect the output of the disinfection module, the control system gives an alarm. The invention provides an air sterilizer and a remote monitoring system, wherein the air sterilizer is generally provided with an indicator lamp for alarm prompt, and if a user does not find the fault prompt of the sterilizer in time, the user is easy to have incomplete sterilization.

The technical scheme of the invention is as follows:

on one hand, the technical scheme of the invention provides an air sterilizer, which comprises a power panel, an ultraviolet sterilization module connected with the power panel, an Internet of things unit and a sterilization factor intensity detection module;

the sterilization factor intensity detection module is used for detecting the illumination intensity information of the ultraviolet sterilization module;

the sterilization factor intensity detection module is connected in the Internet of things unit in a wireless communication mode; the system is used for uploading the detected illumination intensity information of the ultraviolet sterilization module in real time through the Internet of things unit;

the Internet of things unit and the sterilization factor intensity detection module are respectively connected with the power panel and used for obtaining a working power supply from the power panel.

The sterilization factor of the ultraviolet air sterilizer is an ultraviolet sterilization lamp, the intensity of the ultraviolet sterilization lamp directly influences the sterilization effect of the air sterilizer, and therefore the sterilization factor intensity detection module is arranged to monitor the sterilization factor intensity in real time and grasp the sterilization performance of the equipment more timely.

Preferably, the air sterilizer further comprises a control panel, and the control panel is connected with the power panel;

the control panel is provided with a signal input interface and a communication interface;

the signal input interface is connected with the sterilization factor intensity detection module and used for receiving the illumination intensity information of the ultraviolet sterilization module detected by the sterilization factor intensity detection module;

the signal input interface is connected with the Internet of things unit through the communication interface and is used for uploading the received illumination intensity information of the ultraviolet sterilization module in real time. Set up a control panel alone and be used for detecting control to disinfection etc. the structure is fairly simple, does not have the influence to the structure of original sterilamp.

Preferably, the internet of things unit comprises an NB-IoT internet of things module and an antenna device; the NB-IoT Internet of things module is connected with the antenna device.

Preferably, the NB-IoT Internet of things module is internally inserted with a SIM card.

Preferably, the sterilization factor intensity detection module comprises an ultraviolet illuminance sensor;

the ultraviolet illuminance sensor is connected with the NB-IoT Internet of things module.

Preferably, the air sterilizer further comprises a display screen, wherein the display screen is connected with the control panel and used for controlling the alarm by the control panel when detecting the output fault of the ultraviolet sterilization module and displaying an alarm signal through the display screen.

On the other hand, the technical scheme of the invention also provides an intelligent Internet of things remote monitoring system for the air disinfector, which comprises a monitoring terminal and the air disinfector, wherein the air disinfector is the air disinfector of the first aspect; the number of the air disinfectors is a plurality, and each air disinfector has unique identification information;

the air sterilizer is in communication connection with the monitoring terminal through the Internet of things unit; the system is used for uploading the illumination intensity information of the ultraviolet sterilization module detected by the sterilization factor intensity detection module to the monitoring terminal through the Internet of things unit in real time;

the monitoring terminal is used for identifying the identification information and matching the identification information with the corresponding air sterilizer; and checks the matched detection information of the air sterilizer.

Preferably, the system further comprises an internet of things platform;

the monitoring terminal comprises one or more mobile terminals and a network server;

the network server is in bidirectional communication connection with the Internet of things platform through the NB-IoT wireless network, and the mobile terminal is in bidirectional communication connection with the Internet of things platform. The machine sterilization factor intensity is remotely monitored by means of bidirectional communication connection between the NB-IoT wireless network and the network server and display of the mobile terminal mobile phone APP and the Web end. Data collected by NB-IoT connection can be directly uploaded to the cloud platform, and the dynamic state of the sterilization factor of the equipment can be fed back in time, thereby being beneficial to the after-sale maintenance of the sterilizer.

Preferably, the identification information is an IP address and a MAC address;

the mobile terminal and the network server identify the IP address and the MAC address, match the IP address and the MAC address with the corresponding air disinfector, feed back the running state of each air disinfector in real time, and read the detected intensity of the ultraviolet disinfection factor. The mobile terminal and the network can recognize the IP address and the MAC address and match to the corresponding air sterilizer through the IP address and the MAC address.

According to the technical scheme, the invention has the following advantages: the sterilization factor intensity detection module is arranged to monitor the sterilization factor intensity in real time, so that the sterilization performance of the equipment can be mastered more timely. The intensity of the sterilization factor of the sterilizer can be monitored in real time, and the sterilization factor is displayed at a user terminal and a company background, so that a client and the company can conveniently master the running state of the equipment in time, and the after-sale maintenance, the maintenance and the timely intervention of the sterilization module of the sterilizer are facilitated.

In addition, the invention has reliable design principle, simple structure and very wide application prospect.

Therefore, compared with the prior art, the invention has prominent substantive features and remarkable progress, and the beneficial effects of the implementation are also obvious.

Drawings

In order to more clearly illustrate the embodiments or technical solutions in the prior art of the present invention, the drawings used in the description of the embodiments or prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic connection block diagram of an air sterilizer of one embodiment of the present invention.

FIG. 2 is a schematic block diagram of a system of one embodiment of the present invention.

The system comprises an air sterilizer 1, a control panel 101, a power panel 102, a display screen 103, a sterilization factor intensity detection module 104, an ultraviolet sterilization module 105, an NB-IoT (Internet of things) module 106, an antenna device 107, a monitoring terminal 3 and a 4-IoT platform.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the technical solution in the embodiment of the present invention will be clearly and completely described below with reference to the drawings in the embodiment of the present invention, and it is obvious that the described embodiment is only a part of the embodiment of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, an embodiment of the present invention provides an air sterilizer, including a power board 102, an ultraviolet sterilization module 105 connected to the power board 102, an internet of things unit, and a sterilization factor intensity detection module 104;

a sterilization factor intensity detection module 104 for detecting the illumination intensity information of the ultraviolet sterilization module 105;

the sterilization factor intensity detection module 104 is connected in the internet of things unit in a wireless communication mode; the system is used for uploading the detected illumination intensity information of the ultraviolet sterilization module in real time through the Internet of things unit;

the internet of things unit and the sterilization factor intensity detection module 104 are respectively connected with the power panel 102 and used for obtaining a working power supply from the power panel.

The sterilization factor of the ultraviolet air sterilizer is an ultraviolet sterilization lamp, the intensity of the ultraviolet sterilization lamp directly influences the sterilization effect of the air sterilizer, and therefore the sterilization factor intensity detection module is arranged to monitor the sterilization factor intensity in real time and grasp the sterilization performance of the equipment more timely.

It should be noted that the power panel 102 of the sterilizer is further connected with a ballast power supply module, a capacitance speed regulation panel, a transformer and a negative ion generator. In some sterilizers the power board is also connected to a keypad.

In some examples, the air sterilizer further comprises a control panel 101, wherein the control panel 101 is connected with a power panel 102;

a signal input interface and a communication interface are arranged on the control panel 101;

the signal input interface is connected with the sterilization factor intensity detection module 104 and is used for receiving the illumination intensity information of the ultraviolet sterilization module detected by the sterilization factor intensity detection module;

the signal input interface is connected with the Internet of things unit through the communication interface and is used for uploading the received illumination intensity information of the ultraviolet sterilization module in real time. The control panel 101 is independently arranged for detecting and controlling the disinfection and the like, the structure is simpler, and the structure of the original disinfection lamp is not influenced.

In some instances, the internet of things unit includes an NB-IoT internet of things module 106 and an antenna device 107; the NB-IoT internet of things module 106 is connected with an antenna device 107.

In some instances, a SIM card is inserted within the NB-IoT internet of things module.

In some instances, the germicidal factor intensity detection module 104 includes an ultraviolet light intensity sensor;

the ultraviolet illuminance sensor is connected with the NB-IoT internet of things module 106. The intensity of the ultraviolet disinfection module is detected through the ultraviolet illuminance sensor, detected data are uploaded through the NB-IoT internet of things module, and the angle gauge is conveniently monitored in real time from the outside.

In some examples, the air sterilizer 1 further comprises a display screen 103, wherein the display screen 103 is connected to the control panel 101, and is used for controlling the alarm by the control panel 101 and displaying an alarm signal through the display screen 103 when detecting that the output of the ultraviolet sterilization module is failed. The display screen can also display the working state data of the sterilizer, so that the sterilizer is convenient for users or maintainers to visually check.

As shown in fig. 2, the technical solution of the present invention further provides an intelligent internet of things remote monitoring system for an air sterilizer, which includes a monitoring terminal 3 and an air sterilizer 1, where the air sterilizer 1 includes a power board 102, an ultraviolet sterilization module 105 connected to the power board 102, an internet of things unit, and a sterilization factor intensity detection module 104;

a sterilization factor intensity detection module 104 for detecting the illumination intensity information of the ultraviolet sterilization module 105;

the sterilization factor intensity detection module 104 is connected in the internet of things unit in a wireless communication mode; the system is used for uploading the detected illumination intensity information of the ultraviolet sterilization module in real time through the Internet of things unit;

the internet of things unit and the sterilization factor intensity detection module 104 are respectively connected with the power panel 102 and used for obtaining a working power supply from the power panel.

The number of the air disinfectors 1 is a plurality, and each air disinfector 1 has unique identification information;

the air sterilizer 1 is in communication connection with the monitoring terminal 3 through an Internet of things unit; the system is used for uploading the illumination intensity information of the ultraviolet sterilization module detected by the sterilization factor intensity detection module to the monitoring terminal 3 through the Internet of things unit in real time;

the monitoring terminal 3 is used for identifying the identification information and matching the identification information with the corresponding air sterilizer; and checks the matched detection information of the air sterilizer.

In some examples, the air sterilizer further comprises a control panel, wherein the control panel is connected with the power panel;

a signal input interface and a communication interface are arranged on the control panel 101;

the signal input interface is connected with the sterilization factor intensity detection module and is used for receiving the illumination intensity information of the ultraviolet sterilization module 105 detected by the sterilization factor intensity detection module 104;

the signal input interface is connected with the Internet of things unit through the communication interface and is used for uploading the received illumination intensity information of the ultraviolet sterilization module in real time. Set up a control panel alone and be used for detecting control to disinfection etc. the structure is fairly simple, does not have the influence to the structure of original sterilamp.

In some instances, the internet of things unit includes an NB-IoT internet of things module 106 and an antenna device 107; the NB-IoT internet of things module 106 is connected with an antenna device 107.

In some instances, a SIM card is inserted within the NB-IoT internet of things module.

In some instances, the germicidal factor intensity detection module 104 includes an ultraviolet light intensity sensor;

the ultraviolet illuminance sensor is connected with the NB-IoT Internet of things module. The intensity of the ultraviolet disinfection module is detected through the ultraviolet illuminance sensor, detected data are uploaded through the NB-IoT internet of things module, and the angle gauge is conveniently monitored in real time from the outside.

In some examples, the air sterilizer 1 further comprises a display screen 103, and the display screen 103 is connected to the control board 101, and is used for controlling the alarm by the control board when detecting that the output of the ultraviolet sterilization module is failed, and displaying an alarm signal through the display screen. The display screen can also display the working state data of the sterilizer, so that the sterilizer is convenient for users or maintainers to visually check.

In some instances, the system further includes an internet of things platform 4;

the monitoring terminal 3 comprises one or more mobile terminals and a network server;

the network server is in bidirectional communication connection with the Internet of things platform through the NB-IoT wireless network, and the mobile terminal is in bidirectional communication connection with the Internet of things platform. The machine sterilization factor intensity is remotely monitored by means of bidirectional communication connection between the NB-IoT wireless network and the network server and display of the mobile terminal mobile phone APP and the Web end. Data collected by NB-IoT connection can be directly uploaded to the cloud platform, and the dynamic state of the sterilization factor of the equipment can be fed back in time, thereby being beneficial to the after-sale maintenance of the sterilizer.

In some instances, the identification information is an IP address and a MAC address;

the mobile terminal and the network server identify the IP address and the MAC address, match the IP address and the MAC address with the corresponding air disinfector, feed back the running state of each air disinfector in real time, and read the detected intensity of the ultraviolet disinfection factor. The mobile terminal and the network can recognize the IP address and the MAC address and match to the corresponding air sterilizer through the IP address and the MAC address.

It should be noted that, in the application, an intelligent internet of things remote control system composed of an NB-IoT internet of things module, a SIM card, and an antenna device, a sterilization factor intensity detection system composed of a control panel, a display screen, and an ultraviolet illuminance sensor, an air purification sterilizer is accessed in the intelligent internet of things remote control system in a wireless communication manner, and is connected with a network server in a bidirectional communication manner through an NB-IoT wireless network, and a mobile terminal feeds back control system data in real time. NB-IoT (Narrow Band Internet of Things).

Although the present invention has been described in detail by referring to the drawings in connection with the preferred embodiments, the present invention is not limited thereto. Various equivalent modifications or substitutions can be made on the embodiments of the present invention by those skilled in the art without departing from the spirit and scope of the present invention, and these modifications or substitutions are within the scope of the present invention/any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (9)

1. An air sterilizer comprises a power panel and an ultraviolet sterilization module connected with the power panel, and is characterized by further comprising an Internet of things unit and a sterilization factor intensity detection module;

the sterilization factor intensity detection module is used for detecting the illumination intensity information of the ultraviolet sterilization module;

the sterilization factor intensity detection module is connected in the Internet of things unit in a wireless communication mode; the system is used for uploading the detected illumination intensity information of the ultraviolet sterilization module in real time through the Internet of things unit;

the Internet of things unit and the sterilization factor intensity detection module are respectively connected with the power panel and used for obtaining a working power supply from the power panel.

2. The air sterilizer of claim 1, further comprising a control panel, the control panel being connected to the power panel;

the control panel is provided with a signal input interface and a communication interface;

the signal input interface is connected with the sterilization factor intensity detection module and used for receiving the illumination intensity information of the ultraviolet sterilization module detected by the sterilization factor intensity detection module;

the signal input interface is connected with the Internet of things unit through the communication interface and is used for uploading the received illumination intensity information of the ultraviolet sterilization module in real time.

3. The air sterilizer of claim 1, wherein the internet of things unit comprises an NB-IoT internet of things module and an antenna device; the NB-IoT Internet of things module is connected with the antenna device.

4. The air sterilizer of claim 3 wherein the NB-IoT Internet of things module has a SIM card inserted therein.

5. The air sterilizer of claim 3, wherein the germicidal factor intensity detection module includes an ultraviolet light intensity sensor;

the ultraviolet illuminance sensor is connected with the NB-IoT Internet of things module.

6. The air sterilizer of claim 3, further comprising a display screen connected to the control panel for controlling the alarm and displaying an alarm signal through the display screen when the output failure of the UV sterilization module is detected.

7. An intelligent Internet of things remote monitoring system for an air sterilizer is characterized by comprising a monitoring terminal and the air sterilizer, wherein the air sterilizer is the air sterilizer of any one of claims 1 to 6; the number of the air disinfectors is a plurality, and each air disinfector has unique identification information;

the air sterilizer is in communication connection with the monitoring terminal through the Internet of things unit; the system is used for uploading the illumination intensity information of the ultraviolet sterilization module detected by the sterilization factor intensity detection module to the monitoring terminal through the Internet of things unit in real time;

the monitoring terminal is used for identifying the identification information and matching the identification information with the corresponding air sterilizer; and checks the matched detection information of the air sterilizer.

8. The air sterilizer intelligent internet of things remote monitoring system according to claim 7, further comprising an internet of things platform;

the monitoring terminal comprises one or more mobile terminals and a network server;

the network server is in bidirectional communication connection with the Internet of things platform through the NB-IoT wireless network, and the mobile terminal is in bidirectional communication connection with the Internet of things platform.

9. The air sterilizer intelligent internet of things remote monitoring system according to claim 8, wherein the identification information is an IP address and a MAC address;

the mobile terminal and the network server identify the IP address and the MAC address, match the IP address and the MAC address with the corresponding air disinfector, feed back the running state of each air disinfector in real time, and read the detected intensity of the ultraviolet disinfection factor.

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