CN113763658B

CN113763658B - Big data and 5G-based multi-point triggered infectious disease early warning device and method

Info

Publication number: CN113763658B
Application number: CN202111174406.8A
Authority: CN
Inventors: 赵坚; 程晓宏; 张烽; 吉倩倩; 徐驰
Original assignee: Nantong Center For Disease Control And Prevention
Current assignee: Nantong Center For Disease Control And Prevention
Priority date: 2021-10-09
Filing date: 2021-10-09
Publication date: 2023-03-28
Anticipated expiration: 2041-10-09
Also published as: CN113763658A

Abstract

The invention provides big data and 5G-based multi-point infectious disease triggering early warning equipment and a method, and the technical scheme is as follows: the monitoring system comprises a main server, wherein the main server is connected with a base station through a 5G network, the base station is connected with a monitoring structure through the 5G network, n groups of monitoring structures are arranged, the monitoring structure is connected with a Beidou satellite through a satellite positioning signal, and the Beidou satellite is connected with the main server through the satellite positioning signal; the early warning method comprises the following specific steps: the method comprises the following steps: respectively installing monitoring structures at corresponding positions according to monitoring requirements; step two: monitoring structure's monitoring subassembly monitors personnel's sound, temperature and face condition and handles, and the regulation structure control monitoring subassembly of monitoring structure is followed the patient and is done synchronous movement and monitor, and the monitoring structure of multiple spot realizes that the multiple spot triggers the monitoring. The invention has the beneficial effects that: the invention can quickly screen the infectious disease sources of hospitals and communities, has high overall screening efficiency, is easy to find in time and avoids causing large-area infection.

Description

Big data and 5G-based multi-point triggered infectious disease early warning device and method

Technical Field

The invention relates to the technical field of public health, in particular to multi-point triggered infectious disease early warning equipment and method based on big data and 5G.

Background

The uncertainty and the difficult predictability of new major infectious causes cause lead people to be unable to make decisions and take specific prevention and control measures, thus causing high fatality rate and seriously influencing social stability and economic development, and becoming a major public health problem worldwide.

When infectious diseases occur, due to the fact that the flow of people of hospitals and communities is large, the hospitals and communities are prone to mass infection, screening of the infectious diseases of the hospitals and the communities is conducted manually, overall screening efficiency is low, the infectious diseases are not prone to being found in time, and large-area infection is prone to being caused.

Based on the technical problem, the invention provides multi-point trigger infectious disease early warning equipment and method based on big data and 5G, and aims to solve the technical problem.

Disclosure of Invention

In order to solve the problems that the infectious disease screening of hospitals and communities is carried out manually, the overall screening efficiency is low, the infectious disease screening is not easy to find in time, and large-area infectious diseases are easy to cause, the invention provides multi-point triggering infectious disease early warning equipment and a multi-point triggering infectious disease early warning method based on big data and 5G.

The invention provides multi-point triggering infectious disease early warning equipment based on big data and 5G, which comprises a main server, wherein the main server is connected with a base station through a 5G network, the base station is connected with a monitoring structure through the 5G network, the monitoring structure is provided with n groups, the monitoring structure is connected with a Beidou satellite through a satellite positioning signal, and the Beidou satellite is connected with the main server through the satellite positioning signal.

Further, the monitoring structure includes the mounting panel, the mounting panel is connected with automatically controlled structure, automatically controlled structure is connected with adjusts the structure, it has the monitoring subassembly to adjust the structure, the automatically controlled drive end of monitoring subassembly is connected with the control port electricity of automatically controlled structure.

Furthermore, the electronic control structure comprises a first case, a positioning module, a control module, a wireless signal module and a data processing module, wherein the first case is installed on the side wall of the installation plate, the positioning module, the control module, the wireless signal module and the data processing module are installed in the first case, an electronic control driving end of the control module is connected with an external power supply, and the electronic control driving ends of the positioning module, the wireless signal module and the data processing module are electrically connected with a control port of the control module.

Further, the positioning module is connected with a Beidou satellite through satellite positioning signals, and the wireless signal module is connected with the monitoring structure through a 5G network.

Further, adjust the structure and include axis of rotation, cross support plate, second U-shaped seat, driving motor and cylinder, second machine case is installed in first machine case lateral wall, install driving motor in the first machine case, driving motor output coaxial coupling has the drive ring gear, the driven ring gear that uses with the cooperation of drive ring gear is installed to the axis of rotation bottom, cross support plate is installed at the axis of rotation top, cross support plate front end has first U-shaped seat, first U-shaped seat rotates and has first straight piece, cross support plate rear end rotates and has the cylinder, the flexible end of cylinder is fixed with the second U-shaped seat, the second U-shaped seat rotates and has the straight piece of second, the automatically controlled drive end of cylinder and driving motor is connected with control module's control port electricity.

Further, the monitoring subassembly includes infrared temperature-sensing ware, camera, guard box, decibel inductor and rapid disassembly structure, install rapid disassembly structure in the guard box, be equipped with infrared temperature-sensing ware, camera and decibel inductor in the rapid disassembly structure respectively, the automatically controlled drive end of infrared temperature-sensing ware, camera and decibel inductor all is connected with data processing module's control port electricity.

Further, the protection box is installed on the tops of the second straight block and the first straight block.

Further, quick detach structure includes cardboard, diaphragm, lower limiting plate, installation cover, picture peg, spacing groove, recess, first cross slot, wedge, second cross slot, pin rod and spring, infrared temperature sensor, camera and decibel inductor are installed in the installation cover, installation cover middle part department sets up the recess, lower limiting plate installs in the guard box, lower limiting plate lateral wall has the diaphragm, the diaphragm outer wall has the spring, there is the pin rod spring outer end, the pin rod inner end has the wedge, the second cross slot that uses with the wedge cooperation is seted up to the straight downthehole wall of diaphragm, the laminating of lower limiting plate top has last cardboard, it is connected with the picture peg to go up the cardboard both ends, the picture peg is connected with the straight hole laminating sliding connection of diaphragm, the first cross slot that uses with the wedge cooperation is seted up to the picture peg lateral wall, lower limiting plate up end and last cardboard lower terminal surface evenly have the spacing groove that uses with the recess cooperation.

Further, the guard box still is connected with the deashing structure that is used for the camera deashing, the deashing structure is including cleaning sponge, revolution mechanic and mounting bracket, the mounting bracket is installed in the guard box bottom, mounting bracket inner wall connection is in revolution mechanic, revolution mechanic output coaxial coupling has cleans the sponge, clean sponge inner wall and camera laminating contact.

In order to better realize the aim of the invention, the invention also provides an early warning method of the multipoint triggering infectious disease early warning equipment based on big data and 5G, which comprises the following specific steps:

the method comprises the following steps: respectively installing monitoring structures at the installation positions according to monitoring requirements;

step two: the monitoring assembly of the monitoring structure monitors and processes the sound, temperature and face conditions of personnel, the adjusting structure of the monitoring structure controls the monitoring assembly to move along with the patient for monitoring, and the multi-point monitoring structure realizes multi-point triggering monitoring;

step three: the automatically controlled structure of monitoring structure arranges the monitoring data in order, automatically controlled structure gives the main server with data through the basic station transmission again in, the main server gives big data and studies and judges data, the position of the monitoring structure of main server through big dipper satellite drive monitoring risk when studying and judging the result at risk, the monitoring structure of other groups of main server rethread basic station control is to personnel's sound, the temperature and the face condition monitor again and handle, recheck, realize the multiple spot position monitoring, realize the timely early warning of infectious disease.

Compared with the prior art, the invention has the beneficial effects that:

(1) The multi-point monitoring structure realizes multi-point triggering monitoring, and the monitoring structure, the master server, the base station and the Beidou satellite effectively perform multi-point triggering monitoring on the personnel in hospitals and communities, and then the personnel in the hospitals and communities are quickly researched and judged through the cooperation of 5G internet technology and big data, and then rechecked, so that the infectious disease sources of the hospitals and communities can be quickly screened, the whole screening efficiency is high, the timely discovery is easy, and the large-area infection is avoided.

(2) According to the invention, the driving motor of the adjusting structure drives the driving gear ring to rotate, the driving gear ring drives the driven gear ring to rotate, the driven gear ring drives the rotating shaft to rotate, the rotating shaft drives the monitoring component to rotate in the horizontal direction, meanwhile, the air cylinder drives the second U-shaped seat to move, the second U-shaped seat drives the second straight block to move, the second straight block drives the monitoring component to rotate in the vertical direction along the first U-shaped seat, the monitoring component is conveniently driven to rotate to different angles for monitoring, the monitoring is conveniently carried out along with the movement of a patient, the monitoring structure of a single point can carry out multi-point monitoring, and the monitoring effect of the monitoring structure of the single point is further ensured.

(3) According to the invention, the pin rod of the quick-release structure is pulled to move, the pin rod drives the wedge plate to move outwards, then the plug board is pulled upwards to move, the plug board drives the upper clamping board to separate from the mounting sleeve, then the infrared temperature sensor, the camera or the decibel sensor to be replaced is taken out, the corresponding equipment is mounted in the lower limiting board, then the upper clamping board moves downwards, the upper clamping board drives the plug board to move downwards, the plug board pushes the wedge plate to move into the second transverse groove, the spring restoring force drives the pin rod to move when the plug board drives the first transverse groove to move to the second transverse groove, the pin rod drives the wedge plate to move into the first transverse groove, the wedge plate limits the plug board, the upper clamping board is connected with the mounting sleeve, and the infrared temperature sensor, the camera or the decibel sensor can be conveniently replaced.

(4) According to the invention, the rotating structure of the ash cleaning structure drives the cleaning sponge to rotate horizontally during monitoring of the monitoring component, the rotating structure drives the cleaning sponge to rotate during ash cleaning, and the cleaning sponge cleans the camera, so that the cleanness of the camera is ensured, and the stability of monitoring of the camera is ensured.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

Fig. 1 is a schematic overall structure diagram of an embodiment of the present invention.

Fig. 2 is a first perspective view of the monitoring structure of the present invention.

Fig. 3 is a front view of a monitoring structure of the present invention.

Fig. 4 is a right side view of the monitoring structure of the present invention.

Fig. 5 is a second perspective view of the monitoring structure of the present invention.

Fig. 6 shows a third monitoring structure according to the present invention.

Fig. 7 is a sectional view taken along the left-right symmetrical direction of the camera head according to the present invention.

Fig. 8 is a sectional view of the present invention taken along the front-rear symmetry direction of the upper card.

Fig. 9 is a partially enlarged view of a portion a of fig. 8.

Wherein the reference numerals are:

1. a main server; 2. a base station; 3. monitoring the structure; 31. mounting a plate; 32. a first chassis; 33. an infrared temperature sensor; 34. a camera; 35. a protection box; 36. a decibel sensor; 37. wiping sponge; 38. a rotating structure; 39. a mounting frame; 310. a second chassis; 311. an upper clamping plate; 312. a transverse plate; 313. a lower limiting plate; 314. (ii) a Installing a sleeve; 315. inserting plates; 316. a first straight block; 317. a first U-shaped seat; 318. a rotating shaft; 319. a transverse support plate; 320. a second U-shaped seat; 321. a second straight block; 322. a limiting groove; 323. a groove; 324. a positioning module; 325. a control module; 326. a wireless signal module; 327. a data processing module; 328. a drive motor; 329. a drive gear ring; 330. a driven ring gear; 331. a first transverse slot; 332. a wedge plate; 333. a second transverse groove; 334. a pin rod; 335. a spring; 336. a cylinder; 4. and (4) a Beidou satellite.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the following embodiments are further detailed. Of course, the specific embodiments described herein are merely illustrative of the invention and are not intended to be limiting.

Examples

Referring to fig. 1 to 7, a multiple spot triggers infectious disease early warning equipment based on big data and 5G, including total server 1, total server 1 has basic station 2 through 5G internet access, and basic station 2 has monitoring structure 3 through 5G internet access, and monitoring structure 3 is equipped with n group, and monitoring structure 3 has big dipper satellite 4 through satellite positioning signal connection, and big dipper satellite 4 passes through satellite positioning signal and is connected with total server 1.

The monitoring structure 3 of multiple spot location realizes that the multiple spot location triggers the monitoring, monitoring structure 3 again with total server 1, basic station 2 and big dipper satellite 4 carry out the multiple spot location to the personnel of hospital and community effectively and trigger the monitoring, carry out fast study through 5G internet technology and big data cooperation again and judge, then recheck, can be fast to the infectious etiology screening of hospital and community, whole screening efficiency is high, easily in time discover, avoid causing the large tracts of land infection.

Referring to fig. 2 to 7, the monitoring structure 3 includes a mounting plate 31, the mounting plate 31 is connected with an electronic control structure, the electronic control structure includes a first case 32, a positioning module 324, a control module 325, a wireless signal module 326 and a data processing module 327, the first case 32 is installed at a side wall of the mounting plate 31, the positioning module 324 is installed in the first case 32, the control module 325, the wireless signal module 326 and the data processing module 327, an electronic control driving end of the control module 325 is connected with an external power supply, the positioning module 324, an electronic control driving end of the wireless signal module 326 and the data processing module 327 are electrically connected with a control port of the control module 325, the positioning module 324 is connected with a Beidou satellite 4 through a satellite positioning signal, the wireless signal module 326 is connected with the monitoring structure 3 through a 5G network, and the Beidou satellite 4 is conveniently connected with a base station 2.

Referring to fig. 2 to 8, the first chassis 32 of the electronic control structure is connected with an adjusting structure, the adjusting structure includes a rotating shaft 318, a transverse support plate 319, a second U-shaped seat 320, a driving motor 328 and a cylinder 336, the second chassis 310 is installed on a side wall of the first chassis 32, the driving motor 328 is installed in the first chassis 32, an output end of the driving motor 328 is coaxially connected with a driving gear ring 329, a driven gear ring 330 used in cooperation with the driving gear ring 329 is installed at the bottom of the rotating shaft 318, the transverse support plate 319 is installed at the top of the rotating shaft 318, a first U-shaped seat 317 is arranged at the front end of the transverse support plate 319, a first straight block 316 is rotated by the first U-shaped seat 317, the cylinder 336 is rotated at the rear end of the transverse support plate 319, a second U-shaped seat 320 is fixed at a telescopic end of the cylinder 336, a second straight block 321 is rotated by the second U-shaped seat 320, and driving ends of the cylinder 336 and the driving motor 328 are electrically connected with a control port of the control module 325.

Drive motor 328 of regulation structure drives drive ring gear 329 and rotates, drive ring gear 329 drives driven ring gear 330 and rotates, driven ring gear 330 drives axis of rotation 318 and rotates, axis of rotation 318 drives the monitoring subassembly and rotates on the horizontal direction, and simultaneously, cylinder 336 drives the removal of second U-shaped seat 320, second U-shaped seat 320 drives the straight piece 321 of second and removes, the straight piece 321 of second drives the monitoring subassembly and rotates in vertical direction along first U-shaped seat 317, conveniently drive the monitoring subassembly and rotate and monitor the processing to different angles, be convenient for follow the patient and remove and monitor, the monitoring structure 3 of single-point can carry out the multiple spot monitoring, the monitoring structure 3 monitoring effect of single-point has further been guaranteed.

Referring to fig. 2 to 8, a second straight block 321 and a first straight block 316 of the adjusting structure are provided with monitoring components, each monitoring component includes an infrared temperature sensor 33, a camera 34, a protection box 35, a decibel sensor 36 and a quick release structure, the quick release structure is installed in the protection box 35, the infrared temperature sensor 33, the camera 34 and the decibel sensor 36 are respectively arranged in the quick release structure, electric control driving ends of the infrared temperature sensor 33, the camera 34 and the decibel sensor 36 are electrically connected with a control port of the data processing module 327, the protection box 35 is installed at the tops of the second straight block 321 and the first straight block 316, and the wiping sponge 37, the rotating structure 38 and the mounting frame 39 are used for monitoring.

Referring to fig. 3 and 7 to 9, the quick release structure includes an upper clamping plate 311, a horizontal plate 312, a lower clamping plate 313, an installation sleeve 314, an insertion plate 315, a limiting groove 322, a groove 323, a first horizontal groove 331, a wedge plate 332, a second horizontal groove 333, a pin 334 and a spring 335, the infrared temperature sensor 33, the camera 34 and the decibel sensor 36 are installed in the installation sleeve 314, the middle end of the installation sleeve 314 is provided with the groove 323, the lower clamping plate 313 is installed in the protection box 35, the side wall of the lower clamping plate 313 is provided with the horizontal plate 312, the outer wall of the horizontal plate 312 is provided with the spring 335, the outer end of the spring 335 is provided with the pin 334, the inner end of the pin 334 is provided with the wedge plate 332, the inner wall of a straight hole of the horizontal plate 312 is provided with the second horizontal groove 333 used in cooperation with the wedge plate 332, the top of the lower clamping plate 313 is attached with the upper clamping plate 311, the two ends of the upper clamping plate 311 are connected with the insertion plates 315, the insertion plates 315 are attached to the straight holes of the horizontal plate 312 in sliding connection, the insertion plates 315 are provided with the first horizontal groove 331 used in cooperation with the wedge plate 332, and the upper end surface of the upper clamping plate 313 and the lower clamping plate 323 are uniformly provided with the limiting groove 322 used in cooperation.

Pulling a pin 334 of the quick release structure to move, the pin 334 drives a wedge plate 332 to move outwards, then pulling a plug plate 315 upwards to move, the plug plate 315 drives an upper clamping plate 311 to separate from an installation sleeve 314, then taking out an infrared temperature sensor 33, a camera 34 or a decibel sensor 36 which need to be replaced, then installing corresponding equipment in a lower limiting plate 313, then moving the upper clamping plate 311 downwards, the upper clamping plate 311 drives the plug plate 315 to move downwards, the plug plate 315 pushes the wedge plate 332 to move into a second transverse groove 333, when the plug plate 315 drives a first transverse groove 331 to move to the second transverse groove 333, the restoring force of a spring 335 drives the pin 334 to move, the pin 334 drives the wedge plate 332 to move into the first transverse groove 331, the wedge plate 332 limits the plug plate 315, the upper clamping plate 311 is connected with the installation sleeve 314, and replacement of the infrared temperature sensor 33, the camera 34 or the decibel sensor 36 is facilitated.

Referring to fig. 2 and 4, the protection box 35 is further connected with an ash removal structure for removing ash of the camera 34, the ash removal structure includes a cleaning sponge 37, a rotating structure 38 and a mounting frame 39, the mounting frame 39 is mounted at the bottom inside the protection box 35, the inner wall of the mounting frame 39 is connected to the rotating structure 38, the output end of the rotating structure 38 is coaxially connected with the cleaning sponge 37, and the inner wall of the cleaning sponge 37 is in contact with the camera 34 in a fitting manner.

The revolution mechanic 38 of deashing structure drives when monitoring the subassembly monitoring and cleans sponge 37 and rotates the horizontality, and revolution mechanic 38 drives during the deashing and cleans sponge 37 and rotate, cleans sponge 37 and cleans camera 34 and handle, has guaranteed camera 34's cleanness, has guaranteed that camera 34 monitors stably.

the method comprises the following steps: respectively installing the monitoring structures 3 at installation positions in a hospital or a community according to monitoring requirements;

step two: the decibel sensor 36, the infrared temperature sensor 33, and the camera 34 of the monitoring component of the monitoring structure 3 monitor the sound, temperature, and face conditions of a person, the driving motor 328 of the adjustment structure of the monitoring structure 3 drives the driving gear ring 329 to rotate, the driving gear ring 329 drives the driven gear ring 330 to rotate, the driven gear ring 330 drives the rotating shaft 318 to rotate, the rotating shaft 318 drives the monitoring component to rotate in the horizontal direction, meanwhile, the cylinder 336 drives the second U-shaped seat 320 to move, the second U-shaped seat 320 drives the second straight block 321 to move, the second straight block 321 drives the monitoring component to rotate in the vertical direction along the first U-shaped seat 317, the monitoring component is conveniently driven to rotate to different angles for monitoring, the monitoring component can conveniently follow the movement of the patient for monitoring, the monitoring structure 3 of a single point can perform multi-point monitoring, the monitoring effect of the monitoring structure 3 of a single point is further ensured, the monitoring component is controlled to follow the movement of the patient for monitoring, the monitoring structure 3 of a multi-point triggering, and the monitoring structure 3 of a hospital or a person in a community can effectively perform multi-point triggering monitoring;

step three: monitoring structure 3's automatically controlled structure arranges in order monitoring data, automatically controlled structure gives data through basic station 2 again and transmits for in total server 1, total server 1 gives big data and studies and judges data, total server 1 passes through the position of the monitoring structure 3 of big dipper satellite 4 drive monitoring risk when studying and judging the result at risk, total server 1 rethread basic station 2 controls the monitoring structure 3 of other groups to personnel's sound, the temperature and the face condition carry out the monitoring process again, recheck, realize the monitoring of multiple spot position, realize the timely early warning of infectious disease, can be fast to the infectious disease source screening of hospital and community, whole screening efficiency is high, easily in time discover, avoid causing the large tracts of land infection.

The pin 334 of the quick release structure is pulled to move, the pin 334 drives the wedge plate 332 to move outwards, then the inserting plate 315 is pulled upwards to move, the inserting plate 315 drives the upper clamping plate 311 to separate from the mounting sleeve 314, then the infrared temperature sensor 33, the camera 34 or the decibel sensor 36 which need to be replaced are taken out, corresponding equipment is installed in the lower limiting plate 313, then the upper clamping plate 311 moves downwards, the upper clamping plate 311 drives the inserting plate 315 to move downwards, the inserting plate 315 pushes the wedge plate 332 to move into the second transverse groove 333, when the inserting plate 315 drives the first transverse groove 331 to move to the second transverse groove 333, the restoring force of the spring 335 drives the pin 334 to move, the pin 334 drives the wedge plate 332 to move into the first transverse groove 331, the wedge plate 332 limits the inserting plate 315, the upper clamping plate 311 is connected with the mounting sleeve 314, and replacement of the infrared temperature sensor 33, the camera 34 or the decibel sensor 36 is facilitated.

In addition, the revolution mechanic 38 of deashing structure drives when monitoring the subassembly monitoring and cleans sponge 37 and rotates the horizontality, and revolution mechanic 38 drives during the deashing and cleans sponge 37 and rotate, cleans sponge 37 and cleans camera 34 and handles, has guaranteed camera 34's cleanness, has guaranteed that camera 34 monitors stably.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent replacements, improvements, etc. within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The multi-point triggered infectious disease early warning device based on big data and 5G comprises a main server (1) and is characterized in that the main server (1) is connected with a base station (2) through a 5G network, the base station (2) is connected with a monitoring structure (3) through the 5G network, n groups of monitoring structures (3) are arranged, the monitoring structure (3) is connected with a Beidou satellite (4) through a satellite positioning signal, and the Beidou satellite (4) is connected with the main server (1) through the satellite positioning signal;

the monitoring structure (3) comprises an installation plate (31), an electric control structure is arranged on the installation plate (31), the electric control structure is connected with an adjusting structure, a monitoring assembly is arranged in the adjusting structure, and an electric control driving end of the monitoring assembly is connected with a control port of the electric control structure;

the electric control structure comprises a first case (32), a positioning module (324), a control module (325), a wireless signal module (326) and a data processing module (327), wherein the first case (32) is fixed on the side wall of the mounting plate (31), the positioning module (324), the control module (325), the wireless signal module (326) and the data processing module (327) are respectively arranged in the first case (32), a port of the control module (325) is connected with an external power supply, and an electric control driving end of the positioning module (324), the wireless signal module (326) and the data processing module (327) is connected with a control port of the control module (325);

the positioning module (324) is in wireless connection with a Beidou satellite (4) through satellite positioning signals, and the wireless signal module (326) is in wireless connection with the monitoring structure (3) through a 5G network;

the adjusting structure comprises a rotating shaft (318), a transverse supporting plate (319), a second U-shaped seat (320), a driving motor (328) and a cylinder (336), the second case (310) is installed on the side wall of the first case (32), the driving motor (328) is installed in the first case (32), a driving gear ring (329) is arranged on a transmission shaft of the driving motor (328), a driven gear ring (330) meshed with the driving gear ring (329) is installed at the bottom of the rotating shaft (318), the transverse supporting plate (319) is arranged at the top of the rotating shaft (318), a first U-shaped seat (317) is arranged at the front end of the transverse supporting plate (319), the first U-shaped seat (317) is rotatably connected to a first straight block (316), the rear end of the transverse supporting plate (319) is rotatably connected with the cylinder (336), the telescopic end of the cylinder (336) is fixed on the second U-shaped seat (320), the second U-shaped seat (320) is rotatably connected with a second straight block (321), and the electric control driving ends of the electric control module (325) and the electric control ends of the cylinder (336);

the monitoring assembly comprises an infrared temperature sensor (33), a camera (34), a protection box (35), a decibel sensor (36) and a quick-release structure, the quick-release structure is arranged in the protection box (35), the infrared temperature sensor (33), the camera (34) and the decibel sensor (36) are arranged in the quick-release structure respectively, and the output ends of the infrared temperature sensor (33), the camera (34) and the decibel sensor (36) are connected with a port of a data processing module (327);

the protection box (35) is further connected with an ash removal structure for removing ash of the camera (34), the ash removal structure comprises a cleaning sponge (37), a rotating structure (38) and a mounting frame (39), the mounting frame (39) is arranged at the inner bottom of the protection box (35), the inner wall of the mounting frame (39) is connected to the rotating structure (38), the output shaft of the rotating structure (38) is connected with the cleaning sponge (37), and the inner wall of the cleaning sponge (37) is attached to the camera (34);

the quick-release structure comprises an upper clamping plate (311), a transverse plate (312), a lower limiting plate (313), an installation sleeve (314), an inserting plate (315), a limiting groove (322), a groove (323), a first transverse groove (331), a wedge plate (332), a second transverse groove (333), a pin rod (334) and a spring (335), wherein an infrared temperature sensor (33), a camera (34) and a decibel sensor (36) are located in the installation sleeve (314), the groove (323) is formed in the middle section of the installation sleeve (314), the lower limiting plate (313) is located in a protection box (35), the transverse plate (313) is arranged on the side wall of the lower limiting plate (313), the spring (335) is arranged on the outer wall of the transverse plate (312), the pin rod (334) is arranged on the outer end of the spring (335), the wedge plate (332) is arranged on the inner end of the pin rod (334), the second transverse groove (333) matched with the wedge plate (332) is formed in the inner wall of a straight hole of the transverse plate (312), the upper clamping plate (311) is attached to the top of the lower limiting plate (313), the inserting plate (315), the transverse groove (315) is connected with the first transverse groove (332), and the first transverse groove (332) in a sliding fit manner, the upper end surface of the lower limiting plate (313) and the lower end surface of the upper clamping plate (311) are uniformly provided with limiting grooves (322) matched with the grooves (323);

the early warning method of the multipoint triggering infectious disease early warning device based on big data and 5G comprises the following steps:

the method comprises the following steps: mounting the monitoring structure (3) at the mounting location according to the monitoring requirements;

step two: the monitoring assembly of the monitoring structure (3) monitors the sound, temperature and face conditions of personnel, the adjusting structure of the monitoring structure (3) controls the monitoring assembly to move synchronously with the patient for monitoring, and the multipoint monitoring structure (3) realizes multipoint triggering monitoring;

step three: the automatically controlled structure of monitoring structure (3) is put in order the monitoring data, automatically controlled structure transmits data for in total server (1) through basic station (2) again, total server (1) transmission big data is judged data, the judged result is when risky, total server (1) is through monitoring structure (3) position of big dipper satellite (4) drive monitoring risk, total server (1) rethread basic station (2) control other group monitoring structure (3) to personnel's sound, the temperature is monitored once more with the face condition, recheck, realize the multiple spot position monitoring, realize the timely early warning of infectious disease.

2. The big data and 5G based multi-point triggered infectious disease early warning device according to claim 1, wherein the protective box (35) is installed on top of the second straight block (321) and the first straight block (316).