CN214122982U

CN214122982U - Protective article wearing and taking-off behavior monitoring system based on computer vision technology

Info

Publication number: CN214122982U
Application number: CN202120393482.7U
Authority: CN
Inventors: 陆烨; 李晔; 蔡冉; 胡国庆
Original assignee: Zhejiang Center for Disease Control and Prevention
Current assignee: Zhejiang Center for Disease Control and Prevention
Priority date: 2021-02-22
Filing date: 2021-02-22
Publication date: 2021-09-03
Anticipated expiration: 2031-02-22

Abstract

The utility model discloses a protective article wearing and taking-off behavior monitoring system based on computer vision technology, which comprises a data acquisition module and an integrated protective garment, wherein the output end of the data acquisition module is connected with the input end of a computer, and the output end of the computer is connected with a display screen and an alarm; the data acquisition module comprises an image collector, an RFID reader-writer and a signal receiver which are arranged between the wearing and the taking-off of the protective clothing; the integrated protective clothing comprises a coat, the lower end of the coat is connected with trousers, a zipper is arranged on the back of the coat, a chest card is arranged on one side of the chest of the coat, an electronic tag is arranged on the chest card and connected with a computer through an RFID reader-writer, a waist seal is fixedly connected with the waist of the coat, an acceleration sensor is arranged on the waist seal and connected with the computer through a signal receiver, sticky hair is arranged at one end of the waist seal, and sticky thorns are arranged at the other end of the waist seal. The utility model discloses can monitor medical personnel protective clothing and wear to take off the action accurately, comprehensively.

Description

Protective article wearing and taking-off behavior monitoring system based on computer vision technology

Technical Field

The utility model relates to a medical monitored control system, especially a protective articles wears to take off action monitored control system based on computer vision technique.

Background

Along with the continuous improvement of hospital management system and measures, in the aspect of infection prevention and control, high attention is paid to health administrative departments at all levels, the supervision and enforcement strength is enhanced unprecedentedly, and the infection prevention and control consciousness of medical staff is also enhanced continuously. The medical protective clothing is the most important anti-interference protective article for doctors and patients. The medical protective clothing has good moisture permeability and barrier property, can effectively resist the penetration of alcohol, blood, body fluid, air dust particles and bacteria, is safe and convenient to use, can effectively protect a wearer from being threatened by infection, and has the advantages of comfortable wearing, good hand feeling, strong tensile resistance, air permeability, water resistance, no cross infection and the like. The medical protective clothing can only be put on or taken off in a special protective clothing putting-on or taking-off room, the protective clothing needs to be put on all the time when working in an isolation monitoring ward, the protective clothing needs to be changed every 4 hours, and if the medical protective clothing is not well worn, the medical protective clothing is not put on or taken off normally, great potential safety hazards exist.

The existing protective clothing for medical care personnel is not provided with related supervision measures for putting on and taking off, even if the existing protective clothing for medical care personnel is provided with the related supervision measures, the method only adopts a manual supervision mode, and is time-consuming and labor-consuming in manual supervision management, and the method is inevitable to have omission, incomplete in information monitoring and incapable of realizing lasting real-time monitoring and intervention. Therefore, the existing protective clothing for medical care personnel has no effective and comprehensive supervision.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a protective articles wears to take off action monitored control system based on computer vision technique. The utility model discloses can monitor medical personnel protective clothing and wear to take off the action accurately, comprehensively.

The technical scheme of the utility model: a protective article wearing and taking-off behavior monitoring system based on a computer vision technology comprises a data acquisition module and an integrated protective garment, wherein the output end of the data acquisition module is connected with the input end of a computer, and the output end of the computer is connected with a display screen and an alarm; the data acquisition module comprises an image collector, an RFID reader-writer and a signal receiver which are arranged between the wearing and the taking-off of the protective clothing; the integrated protective clothing comprises a coat, the lower end of the coat is connected with trousers, a zipper is arranged on the back of the coat, a chest card is arranged on one side of the chest of the coat, an electronic tag is arranged on the chest card and connected with a computer through an RFID reader-writer, a waist seal is fixedly connected with the waist of the coat, an acceleration sensor is arranged on the waist seal and connected with the computer through a signal receiver, sticky hair is arranged at one end of the waist seal, and sticky thorns are arranged at the other end of the waist seal.

In the protection article putting-on and taking-off behavior monitoring system based on the computer vision technology, the image collectors are arranged in a plurality of numbers, and the image collectors are distributed at different positions.

In the protective article putting-on and taking-off behavior monitoring system based on the computer vision technology, the upper end of the coat is connected with the hat, the hat is provided with the opening corresponding to the face, the fastening ring is arranged at the edge of the opening, the mask is arranged at the opening, the first connecting hole and the second connecting hole are formed in the two sides of the edge of the opening on the hat, and the elastic ear band of the mask penetrates out of the first connecting hole and then penetrates into the second connecting hole.

In the aforementioned protective articles wears to take off action monitored control system based on computer vision technique, the elasticity ear area is connected with the adjusting collar after wearing out first connecting hole, and the second connecting hole is penetrated again to the elasticity ear area after passing the adjusting collar, and the elasticity ear area has the lag along elasticity ear area length direction parcel after penetrating the second connecting hole.

In the above system for monitoring putting-on and taking-off behaviors of protective articles based on computer vision technology, the volume of the adjusting sleeve is larger than the aperture of the first connecting hole.

In the system for monitoring putting on and taking off behaviors of the protective articles based on the computer vision technology, the coat, the trousers, the hat and the mask are of an integrated structure.

Compared with the prior art, the utility model discloses a computer vision technique, in passing into the computer with personage's action image through the image collector who sets up between wearing to take off at the protective clothing promptly, implement the control and judge whether accurate, the standard of medical personnel's protective clothing wearing to take off the action, and the acceleration sensor that sets up on the integral type protective clothing is cooperated, pass through during signal receiver spreads into the computer with the direction of motion information of acceleration sensor response integral type protective clothing, and then more accurate, judge whether wearing to take off of integral type protective clothing comprehensively, the standard, to the real-time early warning of the action of not standardizing.

Furthermore, through the electronic tags on the integrated protective clothing, the related information of the medical personnel wearing the integrated protective clothing can be known, and the identity of the medical personnel can be determined, so that the early warning is more targeted.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic structural view of the unitary body armor;

fig. 3 is an enlarged view of a portion of a structure in fig. 2.

The labels in the figures are: 1. a data acquisition module; 11. an image collector; 12. an RFID reader; 13. a signal receiver; 2. a computer; 31. a display screen; 32. an alarm; 4. an integrated protective garment; 41. a coat; 42. trousers; 43. chest cards; 44. an electronic tag; 45. waist sealing; 46. an acceleration sensor; 47. sticking hair; 48. sticking thorns; 51. a cap; 52. an opening; 53. a fastening ring; 54. a mask; 55. a first connection hole; 56. a second connection hole; 57. an elastic ear band; 58. an adjusting sleeve; 59. a protective sleeve.

Detailed Description

The following description is made with reference to the accompanying drawings and examples, but not to be construed as limiting the invention.

Examples are given.

As shown in fig. 1-3, a protective article putting-on and taking-off behavior monitoring system based on computer vision technology comprises a data acquisition module 1 and an integrated protective garment 4, wherein the output end of the data acquisition module 1 is connected with the input end of a computer 2, and the output end of the computer 2 is connected with a display screen 31 and an alarm 32; the data acquisition module 1 comprises an image collector 11, an RFID reader-writer 12 and a signal receiver 13 which are arranged between the wearing and the taking-off of the protective clothing; the integrated protective suit 4 comprises a coat 41, the lower end of the coat 41 is connected with trousers 42, the back of the coat 41 is provided with a zipper, one side of the chest of the coat 41 is provided with a chest plate 43, the chest plate 43 is provided with an electronic tag 44, the electronic tag 44 is connected with the computer 2 through the RFID reader-writer 12, the waist of the coat 41 is fixedly connected with a waist seal 45, the waist seal 45 is provided with an acceleration sensor 46, the acceleration sensor 46 is connected with the computer 2 through a signal receiver 13, one end of the waist seal 45 is provided with sticky hair 47, and the other end of the waist seal 45 is provided with sticky stabs 48.

The image collector 11 is provided with a plurality of image collectors 11, the plurality of image collectors 11 are distributed at different positions, and the image collectors 11 adopt cameras to collect pictures at different angles.

The upper end of the coat 41 is connected with a hat 51, the hat 51 is provided with an opening 52 corresponding to the face, the edge of the opening 52 is provided with a fastening ring 53, the opening 52 is provided with a mask 54, the two sides of the edge of the opening 52 on the hat 51 are provided with a first connecting hole 55 and a second connecting hole 56, and an elastic ear band 57 of the mask 54 penetrates through the first connecting hole 55 and then penetrates into the second connecting hole 56.

The elastic ear band 57 penetrates through the first connecting hole 55 and then is connected with an adjusting sleeve 58, the elastic ear band 57 penetrates through the adjusting sleeve 58 and then penetrates through the second connecting hole 56, and the elastic ear band 57 penetrates through the second connecting hole 56 and then is wrapped by a protective sleeve 59 along the length direction of the elastic ear band 57.

The volume of the adjustment sleeve 58 is larger than the aperture of the first connection hole 55. The adjusting sleeve is used outside the cap, so that the adjustment is more convenient.

The jacket 41, the trousers 42, the cap 51 and the mask 54 are of an integrated structure. The integral type is worn to take off, avoids omitting.

The trousers 42, the hat 51 and the mask 54 can also be provided with the acceleration sensor 46, so that the sensing accuracy and comprehensiveness are improved.

The connection mode, the information transmission mode and the operation principle among the acceleration sensor 46, the signal receiver 13 and the computer 2 are based on the ZigBee technology, and are all the prior art, and therefore, they are not specifically described here.

The connection mode, information transmission mode and operation principle between the electronic tag 44, the RFID reader/writer 12 and the computer 2 are based on the RFID technology, and are all the prior art, and therefore are not specifically described here.

The computer vision technology is a leading-edge field of artificial intelligence, and refers to a technology for converting a shot target into a data signal for deep learning through a special image shooting device. Computer vision has played an irreplaceable role in image diagnosis radiology, pathological image diagnosis, drug production, inspection systems, quality inspection of surgical instruments, and genomics modeling.

The utility model discloses a 2 visual technologies of computer, through wearing each action image of personage through a plurality of image collector 11 that set up between taking off at the protective clothing promptly, and pass into computer 2 with personage action image, implement real time monitoring and judge whether medical personnel's protective clothing is worn to take off the action accurate, the standard, and cooperate the acceleration sensor 46 that sets up on integral type protective clothing 4, pass through signal receiver 13 and respond to acceleration sensor 46 during the direction of motion information of integral type protective clothing 4 spreads into computer 2, and then more accurate, judge whether wearing and taking off of integral type protective clothing 4 is accurate comprehensively, the standard, pass through alarm 32 early warning to unnormal behavior in real time, guide medical personnel's the normal integral type protective clothing 4 habit of wearing and taking off, thereby reduce the potential safety hazard, reduce the infection risk.

Further, through the electronic tag 44 on the integrated protective clothing 4, the relevant information of the medical personnel wearing the integrated protective clothing 4 can be known, and the identity of the medical personnel can be determined, so that the early warning is more targeted.

When the medical staff wears the integrated protective suit 4, the waist seal 45 is worn at last, and when the integrated protective suit 4 is taken off, the waist seal 45 is detached at first. The waist seal 45 is connected with the adhesive thorns 48 through the adhesive hairs 47, so that the integrated protective suit 4 can be well worn by different medical workers in a fit manner, and the interference caused by overlarge size is avoided; the elastic ear band 57 of the mask 54 penetrates through the first connecting hole 55 and then penetrates through the second connecting hole 56, so that the elastic ear band 57 is connected to the integrated protective suit 4 to prevent the mask 54 from being missed, and the cap 51 is tightened by the elastic ear band 57 to be more attached to the face of a human body and to be more tightly protected while the mask 54 is worn. The adjusting sleeve 58 is arranged on the elastic ear band 57, so that the length of the elastic ear band 57 can be adjusted, and the wearing is convenient; the protective sleeve 59 arranged on the elastic ear band 57 effectively improves the comfort level when the doctor wears the elastic ear band 57, and reduces the discomfort caused by the medical care personnel wearing the mask 54 for a long time.

The part of the utility model not detailed is prior art.

Claims

1. The utility model provides a protective articles wears to take off action monitored control system based on computer vision technique which characterized in that: the protective clothing comprises a data acquisition module (1) and an integrated protective clothing (4), wherein the output end of the data acquisition module (1) is connected with the input end of a computer (2), and the output end of the computer (2) is connected with a display screen (31) and an alarm (32); the data acquisition module (1) comprises an image collector (11), an RFID reader-writer (12) and a signal receiver (13), wherein the image collector is arranged between the wearing and taking-off of the protective clothing; integral type protective clothing (4) include jacket (41), the lower extreme of jacket (41) is connected with trousers (42), the back of jacket (41) is equipped with the zip fastener, chest card (43) are equipped with to the chest one side of jacket (41), be equipped with electronic tags (44) on chest card (43), electronic tags (44) are connected with computer (2) through RFID read write line (12), the waist fixedly connected with waist of jacket (41) seals (45), be equipped with acceleration sensor (46) on waist seals (45), acceleration sensor (46) pass through signal receiver (13) and are connected with computer (2), the one end of waist seals (45) is equipped with glues hair (47), the other end of waist seals (45) is equipped with glues thorn (48).

2. The system for monitoring the putting-on and putting-off behaviors of protective articles based on the computer vision technology as claimed in claim 1, wherein: the image collectors (11) are arranged in a plurality of numbers, and the image collectors (11) are distributed at different positions.

3. The system for monitoring the putting-on and putting-off behaviors of protective articles based on the computer vision technology as claimed in claim 1, wherein: the upper end of the coat (41) is connected with a hat (51), the hat (51) is provided with an opening (52) corresponding to the face, the edge of the opening (52) is provided with a fastening ring (53), the opening (52) is provided with a mask (54), the two sides of the edge of the opening (52) on the hat (51) are provided with a first connecting hole (55) and a second connecting hole (56), and an elastic ear band (57) of the mask (54) penetrates out of the first connecting hole (55) and then penetrates into the second connecting hole (56).

4. The system for monitoring the putting-on and putting-off behaviors of protective articles based on the computer vision technology as claimed in claim 3, wherein: the elastic ear belt (57) penetrates out of the first connecting hole (55) and then is connected with the adjusting sleeve (58), the elastic ear belt (57) penetrates through the adjusting sleeve (58) and then penetrates into the second connecting hole (56), and the elastic ear belt (57) penetrates into the second connecting hole (56) and then wraps the protecting sleeve (59) along the length direction of the elastic ear belt (57).

5. The system for monitoring the putting-on and putting-off behaviors of protective articles based on the computer vision technology as claimed in claim 4, wherein: the volume of the adjusting sleeve (58) is larger than the aperture of the first connecting hole (55).

6. The system for monitoring the putting-on and putting-off behaviors of protective articles based on the computer vision technology as claimed in claim 3, wherein: the coat (41), the trousers (42), the hat (51) and the mask (54) are of an integrated structure.