CN210293453U - Ultraviolet disinfection effect uninterrupted monitor - Google Patents

Abstract

The incessant monitor of ultraviolet disinfection effect, utilize the main part to rotate and aim at and wait to monitor ultraviolet lamp, including the laser pen calibration counterpoint, in order to satisfy the demand of incessant monitoring, the product structure is nimble small and exquisite, rotatable calibration, and the technique bias has been overcome, because of hanging the incessant monitor of ultraviolet disinfection effect on the side wall of 1 meter distance, because of no longer locating ultraviolet lamp's perpendicular below 1m department, can not produce ultraviolet irradiation's blind spot, so can carry out the monitoring of ultraviolet lamp's radiant intensity simultaneously in conventional ultraviolet disinfection process, and because do not disturb ultraviolet disinfection's process, so can fix and place, realize incessant monitoring.

Description

Ultraviolet disinfection effect uninterrupted monitor

Technical Field

The utility model relates to a food hygiene monitoring field, especially an incessant monitor of ultraviolet disinfection effect.

Background

In order to ensure the food sanitation and safety of the catering industry, the state sets up relevant standards, wherein the kitchen of the catering industry is definitely required to be disinfected at regular intervals so as to kill infectious and harmful viruses and bacteria more thoroughly, ensure the food safety of consumers and avoid the influence and harm of the infectious viruses on the society.

The most commonly used disinfection means at present is ultraviolet lamp disinfection, and the related management and use regulations require that "the ultraviolet lamp is used as an air disinfection device, the air and an operation table should be disinfected before each meal (or each time) is used in a private room, and the ultraviolet lamp is used for disinfection and is started for more than … … minutes when no person works", so that the ultraviolet lamp disinfection has high use frequency and long time in actual use.

However, the ultraviolet lamp has a service life, and if the service life is calculated according to the actual service time, the record is inconvenient; in addition, the service life of the ultraviolet lamp is influenced by the conditions of environmental temperature, oil stain, stain and air, so that whether the ultraviolet lamp is still in an effective state or not can not be accurately judged by simply recording the service life of the ultraviolet lamp, and people use the ultraviolet irradiance meter to monitor the ultraviolet lamp to judge whether the ultraviolet lamp can still work effectively or not.

An ultraviolet probe of a product of an ultraviolet irradiance meter which is commonly used at present is separated from a main controller (reading unit) and is connected with the main controller through a data line (cable), when the ultraviolet probe is detected, an auxiliary device is needed to hang the probe below an ultraviolet lamp for detection, when the ultraviolet probe is detected, the ultraviolet probe is required to be hung at a position 1m below the ultraviolet lamp vertically, the using specification refers to an evaluation method and a standard of GB15981-1995 disinfection and sterilization effects, the second ultraviolet surface disinfection effect evaluation method and the standard 'ordinary 30W straight tube type ultraviolet lamp, 253.7nm ultraviolet radiation intensity (at a position 1m vertical) is not less than 70 muW/cm 2 and is qualified', therefore, when the ultraviolet radiation meter is detected, a user hangs the ultraviolet probe, then holds the main controller to leave a detection room, closes a door, opens the ultraviolet lamp, and opens the ultraviolet probe through a switch on the main controller for detection.

However, the suspension mode can block ultraviolet light in a certain area, so that a disinfected worktable below the probe cannot be irradiated by the ultraviolet disinfection lamp, and the detection while disinfection cannot be realized, but the state of the ultraviolet lamp needs to be detected by arranging time independently; the high-requirement suspension condition easily influences a working table below the suspension part of the ultraviolet irradiance meter, so that the ultraviolet irradiance meter cannot work well, when the ultraviolet lamp is not used for detection, the ultraviolet irradiance meter needs to be firstly collected, and when the ultraviolet irradiance meter needs to be used, the ultraviolet irradiance meter is suspended and arranged, the use process is very complicated and inconvenient, and the laying needs to be carried out by relatively specialized personnel under general conditions; in addition, because a user uses the ultraviolet irradiance meter according to experience, the user is likely to find that the service life of the ultraviolet lamp is over when the ultraviolet lamp is used for a certain time, and the long time is actually delayed, so that the development of an instrument capable of continuously detecting the state of the ultraviolet lamp is particularly important.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an use nimble real-time incessant monitoring that can realize, need not additionally hang the incessant monitor of the ultraviolet disinfection effect who arranges at every turn.

In order to achieve the above object, the solution of the present invention is: a monitor with uninterrupted ultraviolet disinfection effect comprises a main body, a spinning ball structure and a base, wherein the spinning ball structure is formed by combining an upper hemisphere and a lower hemisphere, a circuit board is arranged in the upper hemisphere, a surface cover is arranged on the upper surface of the upper hemisphere, a photocell arranged upwards is arranged on the circuit board, a lens mounting hole is formed in the surface cover of the upper hemisphere, a lens is mounted in the lens mounting hole through a lens fixing seat, the photocell on the circuit board is opposite to and abutted against the lower part of the lens, a threading hole is formed in the bottom of the lower hemisphere, and an electric wire of the circuit board penetrates out through the threading hole; the lower part of the main body is rotatably arranged on the base, a cavity is formed between the lower part of the main body and the base, a beveling opening is formed in the upper part of the main body, the rotary ball structure is rotatably arranged in the cavity and cannot fall out of the cavity through the beveling opening, when the rotary ball structure is accommodated in the cavity, the spherical surface cover on the rotary ball structure is exposed out of the beveling opening, the base is abutted against the rotary ball structure, and the rotary ball structure and the edge of the beveling opening of the main body form a clamping effect on the rotary ball structure.

Further, be equipped with a laser pen subassembly on the face of upper hemisphere is covered, this laser pen subassembly comprises a laser pen support and a laser pen, but the laser pen support is formed by buckling in the combination of the support base that the upper hemisphere was covered and laser pen clamping part, the laser pen clamping part is formed by the combination of four holding pieces, and four holding pieces are two liang opposite ground vertical stand on the support base, and the centre forms one with the same centre gripping space of laser pen size, when the laser pen was put into the centre gripping space vertically upwards, the inside wall of four holding pieces just in time tightly supports and leans on the lateral wall of laser pen, when the support base lock was covered in the face of upper hemisphere, the laser pen perpendicular to face was covered, and the lens that the face was covered is located the laser pen under.

Furthermore, the lens fixing seat is a sleeve type lens fixing seat, and a circle of outward flange and inward flange are arranged above the lens fixing seat; the top of the sleeve-shaped annular sealing element is provided with a plurality of rings of step surfaces, and the inner wall and the outer wall of the sleeve-shaped annular sealing element are provided with a plurality of rings of damping convex strips; the lens fixing base utilizes the outward flange of its top to hang in the lens mounting hole, the lens glues on the inner wall on the inward bulge edge of lens fixing base, and the damping sand grip of cover tube shape annular seal spare through the outer wall realizes closely cooperating with the inner wall of lens fixing base, and the photocell passes through the damping sand grip of cover tube shape annular seal spare inner wall and closely sets up in this cover tube shape annular seal spare, and the photocell receiving surface passes annular seal spare and just to the below of lens.

Furthermore, the circuit board is also provided with a camera, a camera hole is arranged at the position corresponding to the face cover, and the camera just exposes out of the face cover through the camera hole.

Furthermore, the base is a round base, a circle of supporting arc structure is upwards arranged in the base, and when the spin ball structure is accommodated in the cavity, the supporting arc structure is abutted against the spin ball structure and forms a clamping effect on the spin ball structure together with the beveling opening of the main body.

Further, its below inner wall of main part is equipped with an inside bellied link stopper, is equipped with a plurality of gear adjustment grooves of round annular evenly distributed in the base, and when the main part was installed on the base, this bellied link stopper was arranged in certain gear adjustment groove that corresponds, and when the main part rotated on the base, this link stopper slided to next gear adjustment groove along the direction of rotation.

Further, be equipped with light path sensor, amplifier circuit, AD sampling circuit, purple bee module, camera module, honeycomb module on the incessant monitor of ultraviolet disinfection effect, its characterized in that: the Zigbee module is connected with the honeycomb module, the camera module and the AD sampling circuit, the AD sampling circuit is connected with the photoelectric sensor through an amplifying circuit, when the optical path sensor receives an optical signal, the amplifying circuit amplifies the signal, and then the AD value is collected by the AD sampling circuit and transmitted to the Zigbee module; meanwhile, the Zigbee module starts the camera module to shoot, the acquired AD value and the shot picture are processed through the Zigbee module, and then are transmitted outwards through the honeycomb module.

The scheme has the following advantages:

1. the product has a flexible and small structure, can be rotationally calibrated, overcomes the technical prejudice, can suspend the monitor with the uninterrupted ultraviolet disinfection effect on the side wall surface with the distance of 1 meter, can not generate blind spots of ultraviolet radiation because the monitor is not arranged at the position 1m below the ultraviolet lamp, can simultaneously monitor the radiation intensity of the ultraviolet lamp in the conventional ultraviolet disinfection process, and can be fixedly placed because the ultraviolet disinfection process is not interfered, thereby realizing the uninterrupted monitoring;

2. because wireless transmission is realized, extra laying is not needed in each monitoring process, theoretically, the angle of the ultraviolet disinfection effect uninterrupted monitor only needs to be set for the first time through the laser pen, the angle does not need to be adjusted every time under the condition that the monitor and the ultraviolet lamp are not moved, and the use is flexible and convenient;

3. the laser pen is utilized to calibrate the monitoring direction, the lens is guaranteed to be over against the ultraviolet lamp to be monitored, ultraviolet rays are made to vertically enter the receiving surface of the photocell, and monitoring accuracy is improved.

Drawings

Fig. 1 is an exploded schematic view of an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a main body of an embodiment of the present invention;

fig. 3 is a schematic view of a base structure according to an embodiment of the present invention;

fig. 4 is a schematic cross-sectional view of the laser pen according to the embodiment of the present invention after being installed;

fig. 5 is an assembly schematic diagram after installation of the laser pen according to the embodiment of the present invention;

fig. 6 is a schematic cross-sectional view of the embodiment of the present invention with the laser pen removed;

fig. 7 is an assembly schematic view 1 of an embodiment of the present invention;

fig. 8 is an assembly schematic view 2 of an embodiment of the present invention;

fig. 9 is a schematic cross-sectional view of an embodiment of the present invention after angle calibration;

fig. 10 is a system schematic of an embodiment of the invention;

fig. 11 is a schematic view of the use of an embodiment of the invention;

fig. 12 is an experimental illustration schematic diagram of an embodiment of the present invention.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Example (b):

as shown in fig. 1-9, the monitor with uninterrupted ultraviolet disinfection effect comprises a main body 1, a spin-ball structure 2, and a base 3, wherein the spin-ball structure 2 is composed of an upper hemisphere 21 and a lower hemisphere 22, wherein the upper hemisphere 21 has a circuit board 4, the upper surface of the upper hemisphere 21 has a face cover 211, the circuit board 4 is disposed in parallel with the face cover 211, an upward photocell 41, a camera 42, and an indicator lamp 43 are disposed at the center of the circuit board 4, the face cover 211 of the upper hemisphere 21 has a lens mounting hole 212, a camera hole 213, an indicator lamp hole 214, a sleeve-shaped lens holder 51, the sleeve-shaped lens holder 51 has an outward flange 511 and an inward flange 512 above the lens holder 51, the lens holder 51 is suspended in the lens mounting hole 212 by the outward flange 511 above the lens holder, a sleeve-shaped annular sealing element 411, the top of the sleeve-shaped annular sealing element 411 has a plurality of ring-shaped step surfaces 412, a plurality of sleeve-shaped annular, The inner and outer walls are provided with a plurality of rings of damping convex strips 413, a lens, here, a sapphire lens 5, is adhered to the inner wall of the inward convex edge 512 of the lens fixing seat, the sleeve-shaped annular sealing element 411 is tightly matched with the inner wall of the lens fixing seat 51 through the damping convex strips 413 of the outer wall, the photocell 41 is tightly arranged in the sleeve-shaped annular sealing element 411 through the damping convex strips 413 of the inner wall of the sleeve-shaped annular sealing element 411, the receiving surface of the photocell 41 passes through the sleeve-shaped annular sealing element 411 and is right under the sapphire lens 5, meanwhile, the camera 42 just exposes out of the face cover 211 through the camera hole 213, and the indicator lamp 43 just exposes out of the face cover 211 through the indicator lamp hole 214.

The bottom of the lower hemisphere 22 is provided with a threading hole 221, and the electric wire (not shown) of the circuit board 4 passes through the threading hole 221; as shown in fig. 2, a circle of step edges 11 is arranged near the inner portion of the lower bottom edge of the main body 1, four sliders 12 protruding outwards are arranged on the step edges 11, a circle of inward flanges 31 are arranged on the upper edge of the base 3, four notches 311 corresponding to the sliders 12 below the main body 1 one by one are arranged on the flanges 31, when the sliders 12 of the main body 1 slide into the notches 311 corresponding to one by one, the main body 1 is rotated, and the sliders 12 are clamped below the flanges 31 of the base 3 along with the rotation process, so as to ensure that the main body 1 and the base 3 do not fall off, so that the main body 1 is rotatably mounted on the base 3, and a cavity 6 is formed between the main body 1 and the base 3;

a bevel opening 13 is formed above the main body 1, the spin-ball structure 2 is rotatably disposed in the cavity 6 and cannot fall out of the cavity 6 through the bevel opening 13, and the surface cover 211 of the upper hemisphere 21 of the spin-ball structure 2 is exposed out of the bevel opening 13 when the spin-ball structure 2 is accommodated in the cavity 6.

A laser pen assembly 7 is arranged on the surface cover 211 of the upper hemisphere 21, the laser pen assembly 7 is composed of a laser pen support 71 and a laser pen 72, the laser pen support 71 is composed of a support base 711 and a laser pen clamping part, the support base 711 and the laser pen clamping part can be buckled on the surface cover 211 of the upper hemisphere 21, the laser pen clamping part is arranged on the outer surface of the support base 711 and is composed of four clamping sheets 713, the four clamping sheets 713 stand on the support base 711 in a pairwise opposite vertical mode, a clamping space 714 with the same size as the laser pen 72 is formed in the middle of the support base, as shown in fig. 1, the laser pen 72 is vertically placed into the clamping space 714 upwards, when the laser pen 72 is placed in the clamping space, the inner side walls 7131 of the four clamping sheets 713 are just tightly abutted to the side walls 721 of the laser pen 72, as shown in fig.; when the bracket base 711 is fastened to the surface cover 211 of the upper hemisphere 21, the laser pen 72 is perpendicular to the surface cover 211, and the sapphire lens 5 on the surface cover 211 is located right below the laser pen 72.

The side wall of the base 3 is provided with a threading groove 34 extending to the outside of the base, and an electric wire (not shown in the figure) of the circuit board 4 passes through the threading hole 221 at the bottom of the lower hemisphere 22 and further passes through the threading groove 34 of the base.

The base 3 is a circular base, a circle of supporting arc structure 32 is upwards arranged in the circular base, the supporting arc structure 32 is formed by three sections of circular arcs, when the rotary ball structure 2 is accommodated in the cavity 6, the supporting arc structure 32 is abutted against the rotary ball structure 2, and the supporting arc structure and the edge of the beveling opening 13 of the main body 1 together clamp the rotary ball structure 2, when the rotary ball structure 2 rotates in the main body 1 in the using process, the rotary ball structure 2 can be stopped at any rotation angle due to the clamping effect of the beveling opening 13 of the supporting arc structure 32 and the main body 1 on the rotary ball structure 2, and the angle can be adjusted.

An inward protruding stopper 14 may be disposed on the inner wall of the lower portion of the main body 1, a plurality of gear adjustment grooves 33 are disposed in the base 3 along the periphery of the supporting arc structure 32, when the main body 1 is mounted on the base 3, the protruding stopper 14 is disposed in a corresponding gear adjustment groove 33, and when the main body 1 rotates on the base 3, the stopper 14 slides into the next gear adjustment groove 33 along the rotation direction, and the arrangement of the position allows a user to more accurately sense the rotation angle between the main body 1 and the base 3, so as to easily obtain more accurate rotation data, as shown in fig. 2 and 3.

As shown in fig. 10, the monitor with uninterrupted ultraviolet disinfection effect is provided with an optical path sensor 91, an amplifying circuit 92, an AD sampling circuit 93, a zigbee module 94, a camera module 95, and a honeycomb module 96, wherein the zigbee module 94 is connected with the honeycomb module 96, the camera module 95, and the AD sampling circuit 93, the AD sampling circuit 93 is connected with a photoelectric sensor 91 through an amplifying circuit 92, when the optical path sensor 91 receives an optical signal, the amplifying circuit 92 amplifies the signal, and then the AD sampling circuit 93 collects an AD value and transmits the AD value to the zigbee module 94; meanwhile, the zigbee module 94 starts the camera module 95 to take a picture, and the acquired AD value and the taken picture are processed by the zigbee module 94 and then transmitted to the outside through the honeycomb module 96.

As shown in fig. 11, the monitor with uninterrupted ultraviolet disinfection effect is hung at point a on the side wall surface B, where point a is the point a where the light of the ultraviolet lamp to be monitored can be directly irradiated and is 1 meter away from point D on the central transverse vertical section C of the ultraviolet lamp;

turning on a laser pen power supply, rotating the main body 1 and rotating the rotary sphere structure 2 to enable laser of the laser pen to be aligned with an ultraviolet lamp to be monitored, taking down the whole laser pen assembly 7 after alignment, and forming a clamping effect on the rotary sphere structure 2 together with the edge of the beveled opening 13 of the main body 1 due to the fact that the supporting arc structure 32 abuts against the rotary sphere structure 2, so that the rotary sphere structure 2 can be fixed in the angle state by the clamping effect, as shown in fig. 9, the step of calibrating a monitoring point in the first step is completed at the moment, the whole laser pen assembly is taken down, ultraviolet light is vertically incident on a photocell receiving surface through a sapphire lens, an ultraviolet disinfection effect uninterrupted monitor is started, when an optical path sensor 91 receives an optical signal, an amplifying circuit 92 amplifies the signal, and an AD value is collected by an AD sampling circuit 93 and transmitted to a Zigbee module 94; meanwhile, the zigbee module 94 starts the camera module 95 to take a picture, the acquired AD value and the taken picture are processed by the zigbee module 94, and then are transmitted to the user terminal (or cloud) through the cellular module 96, and the user terminal can judge whether the currently used ultraviolet lamp is still in an effective state or not through preset standard data and needs to be replaced.

Referring to GB15981-1995 evaluation method and standard of disinfection and sterilization effect, the second evaluation method and standard of ultraviolet surface disinfection effect: the ultraviolet radiation intensity (vertical 1 m) of 253.7nm of a common 30W straight tube type ultraviolet lamp is equal to or more than 70 mu W/cm2, and the inventor has doubtful and demonstrated about the regulation of the standard.

The inventors of the present invention have made multi-angle attempts with the intention of solving the technical disadvantages according to the national regulations, and have found that when ultraviolet light is directly irradiated without being shielded, the ultraviolet radiation intensity is substantially the same at different points 1m from the center D point of the ultraviolet lamp on the central transverse vertical section C of the ultraviolet lamp, as shown in fig. 12, when the angle β appearing on the central transverse vertical section C of the ultraviolet lamp at a position different from the downward vertical line of the center of the ultraviolet lamp is different in angle value, the radiation intensity data at different points 1m from the ultraviolet lamp are shown in table one:

watch 1

As can be seen from the above table, under the condition that the ultraviolet light is directly irradiated, the ultraviolet radiation intensity is basically the same value at different points 1m away from the center point of the ultraviolet lamp on the central transverse vertical section of the ultraviolet lamp, therefore, the technical requirement that the central vertical 1m below the ultraviolet lamp is required when the monitor for continuously monitoring the ultraviolet disinfection effect is laid, as long as the points 1m away from the center of the ultraviolet lamp on the central transverse vertical section C of the ultraviolet lamp, the detection values can be used as the basis for judging the radiation intensity of the ultraviolet lamp, thereby overcoming the industrial prejudice, greatly increasing the application range and improving the convenience of use.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

The above description is only an embodiment of the present invention, and is not a limitation on the design of the present application, and all equivalent changes made according to the design key of the present application fall within the protection scope of the present application.

Claims (7)

1. The utility model provides an incessant monitor of ultraviolet disinfection effect comprises main part, ball structure soon and base, its characterized in that: the rotary sphere structure is formed by combining an upper hemisphere and a lower hemisphere, wherein the upper hemisphere is internally provided with a circuit board, the upper surface of the upper hemisphere is provided with a surface cover, the circuit board is provided with a photocell which is arranged upwards, the surface cover of the upper hemisphere is provided with a lens mounting hole, a lens is mounted in the lens mounting hole through a lens fixing seat, the photocell on the circuit board is opposite to and abutted against the lower part of the lens, the bottom of the lower hemisphere is provided with a threading hole, and an electric wire of the circuit board penetrates out through the threading hole; the lower part of the main body is rotatably arranged on the base, a cavity is formed between the lower part of the main body and the base, a beveling opening is formed in the upper part of the main body, the rotary ball structure is rotatably arranged in the cavity and cannot fall out of the cavity through the beveling opening, when the rotary ball structure is accommodated in the cavity, the spherical surface cover on the rotary ball structure is exposed out of the beveling opening, the base is abutted against the rotary ball structure, and the rotary ball structure and the edge of the beveling opening of the main body form a clamping effect on the rotary ball structure.

2. The non-interruptive ultraviolet disinfection monitor of claim 1 wherein: be equipped with a laser pen subassembly on the face of upper hemisphere is covered, this laser pen subassembly comprises a laser pen support and a laser pen, and the laser pen support is formed by support base and the combination of laser pen clamping part that but lock on the upper hemisphere face is covered, the laser pen clamping part is formed by the combination of four holding pieces, and these four holding pieces are two liang opposite ground vertical stand on the support base, and the centre forms one with the same centre gripping space of laser pen size, when the laser pen is vertical when putting into the centre gripping space up, the inside wall of four holding pieces just in time tightly supports and leans on the lateral wall of laser pen, when support base lock is covered in the face of upper hemisphere, the laser pen perpendicular to face lid, and the lens that the face was covered is located the laser pen under.

3. The uninterrupted ultraviolet disinfection effect monitor as set forth in claim 1, wherein: the lens fixing seat is a sleeve type lens fixing seat, and a circle of outward flange and inward convex edge are arranged above the lens fixing seat; the top of the sleeve-shaped annular sealing element is provided with a plurality of rings of step surfaces, and the inner wall and the outer wall of the sleeve-shaped annular sealing element are provided with a plurality of rings of damping convex strips; the lens fixing base utilizes the outward flange of its top to hang in the lens mounting hole, the lens glues on the inner wall on the inward bulge edge of lens fixing base, and the damping sand grip of cover tube shape annular seal spare through the outer wall realizes closely cooperating with the inner wall of lens fixing base, and the photocell passes through the damping sand grip of cover tube shape annular seal spare inner wall and closely sets up in this cover tube shape annular seal spare, and the photocell receiving surface passes annular seal spare and just to the below of lens.

4. The non-interruptive ultraviolet disinfection monitor of claim 1 wherein: the circuit board on still be equipped with a camera, the position that the face lid corresponds simultaneously is equipped with a camera hole, the camera just in time exposes outside the face lid via this camera hole.

5. The non-interruptive ultraviolet disinfection monitor of claim 1 wherein: the base is a round base, a circle of supporting arc structure is upwards arranged in the base, when the rotary ball structure is accommodated in the cavity, the supporting arc structure is abutted against the rotary ball structure, and the supporting arc structure and the beveling opening of the main body form a clamping effect on the rotary ball structure.

6. The non-interruptive ultraviolet disinfection monitor of claim 1 wherein: the inner wall of the lower portion of the main body is provided with an inward protruding stop block, a plurality of gear adjusting grooves which are uniformly distributed in a ring shape are formed in the base, when the main body is installed on the base, the protruding stop block is arranged in a corresponding gear adjusting groove, and when the main body rotates on the base, the stop block slides into the next gear adjusting groove along the rotating direction.

7. An uninterrupted monitor of the effects of ultraviolet disinfection according to any of claims 1 to 6, wherein: the ultraviolet disinfection effect uninterrupted monitor is provided with a light path sensor, an amplifying circuit, an AD sampling circuit, a Zigbee module, a camera module and a honeycomb module, wherein the Zigbee module is connected with the honeycomb module, the camera module and the AD sampling circuit; meanwhile, the Zigbee module starts the camera module to shoot, the acquired AD value and the shot picture are processed through the Zigbee module, and then are transmitted outwards through the honeycomb module.

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