CN114264010B - Intelligent management platform for realizing negative pressure ward unit by integrating Internet of things - Google Patents
Intelligent management platform for realizing negative pressure ward unit by integrating Internet of things Download PDFInfo
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- CN114264010B CN114264010B CN202111532273.7A CN202111532273A CN114264010B CN 114264010 B CN114264010 B CN 114264010B CN 202111532273 A CN202111532273 A CN 202111532273A CN 114264010 B CN114264010 B CN 114264010B
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Abstract
The invention provides an intelligent management platform for realizing a negative pressure ward unit by using a fusion Internet of things, which comprises a kth negative pressure ward unit medical care working area, wherein a kth medical care camera is arranged in the kth negative pressure ward unit medical care working area, an image data output end of the kth medical care camera is connected with an image data input first end of a kth controller, a kth patient camera is arranged in a patient treatment area of the kth negative pressure ward unit, and an image data output end of the kth patient camera is connected with an image data input second end of the kth controller; and uploading the image data of the medical working area shot by the medical camera and/or the image data of the patient treatment area shot by the patient camera to a cloud management platform for storage. The invention can upload the video images shot by all negative pressure ward units to the cloud management platform for storage, thereby facilitating future investigation.
Description
Technical Field
The invention relates to the technical field of negative pressure ward units, in particular to an intelligent management platform for realizing the negative pressure ward units by integrating internet of things.
Background
The movable negative pressure isolation cabin ward is mainly used for the construction of an isolation treatment ward for sudden infectious diseases, a set of standard negative pressure isolation ward system can be quickly assembled in a short time, the installation period is controllable, the investment scale is controllable, the movable negative pressure isolation cabin ward can be flexibly deployed and effectively integrated with resources according to the needs, negative pressure isolation ward supplement and emergency equipment reserve which can be used as sudden and serious public health events and biochemical warfare in various places can be provided, and temporary emergency transport, isolation, observation and treatment space can be provided for sudden and serious public health events and biochemical warfare.
However, at present, the negative pressure ward is very limited in China and even worldwide, and the area where the negative pressure ward meeting the standard specification is not set is less. The movable negative pressure isolation cabin ward can effectively avoid a plurality of problems existing in the temporary newly-built or existing building reconstruction infectious disease ward, and provides a safe emergency place for infectious disease prevention and treatment. The camera that sets up in its negative pressure ward can take notes the image of medical personnel or/and disease in the negative pressure ward, and the scene at the time of can looking over the reduction from the image that the high in the clouds management platform downloaded corresponds, and the camera is the image in the real-time shooting negative pressure ward, how to guarantee that the image storage of negative pressure ward does not cause confusion is very necessary.
Disclosure of Invention
The invention aims at least solving the technical problems in the prior art, and particularly creatively provides an intelligent management platform for realizing a negative pressure ward unit by integrating the internet of things.
In order to achieve the above purpose, the invention provides an intelligent management platform for realizing negative pressure ward units by fusion internet of things, which comprises K negative pressure ward units, wherein K is a positive integer greater than or equal to 1 and is respectively a 1 st negative pressure ward unit, a 2 nd negative pressure ward unit, a 3 rd negative pressure ward unit, a … … th negative pressure ward unit and a K th negative pressure ward unit;
the method comprises the steps that a K-th camera for medical care is arranged in a medical care working area of a K-th negative pressure ward unit, K is a positive integer smaller than or equal to K, an image data output end of the K-th camera for medical care is connected with an image data input first end of a K-th controller, a K-th camera for patient is arranged in a patient treatment area of the K-th negative pressure ward unit, and an image data output end of the K-th camera for patient is connected with an image data input second end of the K-th controller; the method comprises the steps that a 1 st camera for medical care is arranged in a 1 st negative pressure ward unit medical care working area, an image data output end of the 1 st camera for medical care is connected with an image data input first end of a 1 st controller, a 1 st camera for patient is arranged in a 1 st negative pressure ward unit patient treatment area, and an image data output end of the 1 st camera for patient is connected with an image data input second end of the 1 st controller;
The medical care working area of the 2 nd negative pressure ward unit is provided with a 2 nd medical care camera, the image data output end of the 2 nd medical care camera is connected with the image data input first end of the 2 nd controller, the patient treatment area of the 2 nd negative pressure ward unit is provided with a 2 nd patient camera, and the image data output end of the 2 nd patient camera is connected with the image data input second end of the 2 nd controller;
the medical treatment working area of the 3 rd negative pressure ward unit is provided with a 3 rd camera for medical treatment, the image data output end of the 3 rd camera for medical treatment is connected with the image data input first end of the 3 rd controller, the patient treatment area of the 3 rd negative pressure ward unit is provided with a 3 rd camera for patient, and the image data output end of the 3 rd camera for patient is connected with the image data input second end of the 3 rd controller; … …;
the medical treatment work area of the K negative pressure ward unit is provided with a medical care K camera, the image data output end of the medical care K camera is connected with the image data input first end of the K controller, the patient treatment area of the K negative pressure ward unit is provided with a patient K camera, and the image data output end of the patient K camera is connected with the image data input second end of the K controller;
The image data output end of the k-th controller is connected with the image data input k-th end of the master controller, and the wireless data transmission end of the master controller is connected with the data transmission end of the wireless transceiver module; namely, the image data output end of the 1 st controller is connected with the image data input 1 st end of the overall controller, the image data output end of the 2 nd controller is connected with the image data input 2 nd end of the overall controller, the image data output end of the 3 rd controller is connected with the image data input 3 rd end of the overall controller, … …, the image data output end of the K-th controller is connected with the image data input K-th end of the overall controller, and the wireless data transmission end of the overall controller is connected with the data transmission end of the wireless transceiver module;
and uploading the image data of the medical working area shot by the medical camera and/or the image data of the patient treatment area shot by the patient camera to a cloud management platform for storage.
In a preferred embodiment of the present invention, the wireless transceiver module includes one or any combination of a 3G wireless transceiver data unit, a 4G wireless transceiver data unit, a 5G wireless transceiver data unit, and a WiFi wireless transceiver data unit;
when the wireless receiving and transmitting module is a 3G wireless receiving and transmitting data unit, a wireless data transmission 3G end of the master controller is connected with a data transmission end of the 3G wireless receiving and transmitting data unit;
When the wireless receiving and transmitting module is a 4G wireless receiving and transmitting data unit, a wireless data transmission 4G end of the master controller is connected with a data transmission end of the 4G wireless receiving and transmitting data unit;
when the wireless receiving and transmitting module is a 5G wireless receiving and transmitting data unit, a wireless data transmission 5G end of the master controller is connected with a data transmission end of the 5G wireless receiving and transmitting data unit;
when the wireless receiving and transmitting module is a WiFi wireless receiving and transmitting data unit, a wireless data transmission WiFi end of the master controller is connected with a data transmission end of the WiFi wireless receiving and transmitting data unit.
In a preferred embodiment of the invention, the negative pressure ward unit is divided into a left half area and a right half area according to left and right parts, the right half area is a patient treatment area, the left half area is divided into two according to upper and lower parts, the left half area is a medical care working area, the lower half area is divided into two according to left and right parts, the left half area is a medical care toilet, the right half area is a buffer chamber, the patient toilet and a sickbed are arranged in the patient treatment area, a workbench is arranged beside a partition wall of the medical care working area, and part or whole half glass is arranged on the partition wall, so that medical staff can observe the patient state through the half glass in real time at the workbench without disturbing the rest of the patient.
In a preferred embodiment of the invention, the negative pressure ward unit is of a box-type construction, movable by means of a container crane, or is equipped with wheels at the bottom as a trailer driven by means of a traction device.
In a preferred embodiment of the invention, a medical air quality sensor for detecting the air quality condition of a medical working area is arranged in the medical working area, the medical air quality sensor further comprises a medical fresh air system for providing fresh air for the medical working area, and a medical exhaust system is arranged in a medical toilet; and a medical pressure sensor for detecting the air flow pressure of the medical working area is arranged in the medical working area;
when the air quality sensor for medical care detects that the air quality of the medical care working area is smaller than the preset air quality, the fresh air system for medical care introduces fresh air into the medical care working area, so that the air quality sensor for medical care detects that the air quality of the medical care working area is larger than or equal to the preset air quality;
the patient treatment area is provided with a patient air quality sensor for detecting the air quality condition of the patient treatment area, the patient treatment area is also provided with a patient fresh air system for providing fresh air for the patient treatment area, and the patient bathroom is provided with a patient exhaust system; and a patient pressure sensor for detecting the air flow pressure of the patient treatment area is arranged in the patient treatment area;
When the air quality sensor for the patient detects that the air quality of the patient treatment area is smaller than the preset air quality, the fresh air system for the patient introduces fresh air into the patient treatment area, so that the air quality sensor for the patient detects that the air quality of the patient treatment area is larger than or equal to the preset air quality;
the buffer chamber is provided with an air quality sensor for detecting the air quality condition of the buffer chamber, the buffer chamber is also provided with a fresh air system for providing fresh air for the buffer chamber, and the buffer chamber is provided with an exhaust system; the buffer chamber is provided with a pressure sensor for detecting the air flow pressure of the buffer chamber;
the air flow pressure of the buffer chamber is lower than or equal to the atmospheric pressure;
when the medical staff enters the patient treatment area from the medical working area through the buffer chamber, the air flow pressure of the medical working area is higher than that of the buffer chamber, and the air flow pressure of the buffer chamber is higher than that of the patient treatment area.
The invention also discloses a control method for realizing the negative pressure ward unit intelligent management platform by integrating the Internet of things, which comprises the following steps:
s1, numbering all images shot in the negative pressure ward unit;
S2, compressing all numbered image data in the step S1 to obtain an image packet thereof; uploading the obtained image package to a cloud management platform;
and S3, after decompressing the received image package, the cloud management platform stores the image package in a folder consistent with the number according to the number corresponding to each image.
In summary, due to the adoption of the technical scheme, the invention can upload the video images shot by all negative pressure ward units to the cloud management platform for storage, so that the future investigation is convenient.
Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.
Drawings
The foregoing and/or additional aspects and advantages of the invention will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in which:
fig. 1 is a schematic block diagram of the connection of the present invention.
Fig. 2 is a schematic block diagram of a plane of the present invention.
Detailed Description
Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the invention.
The invention provides an intelligent management platform for realizing negative pressure ward units by integrating internet of things, which is shown in figure 1 and comprises K negative pressure ward units, wherein K is a positive integer greater than or equal to 1 and is respectively a 1 st negative pressure ward unit, a 2 nd negative pressure ward unit, a 3 rd negative pressure ward unit, a … … th negative pressure ward unit and a K th negative pressure ward unit;
the method comprises the steps that a K-th camera for medical care is arranged in a medical care working area of a K-th negative pressure ward unit, K is a positive integer smaller than or equal to K, an image data output end of the K-th camera for medical care is connected with an image data input first end of a K-th controller, a K-th camera for patient is arranged in a patient treatment area of the K-th negative pressure ward unit, and an image data output end of the K-th camera for patient is connected with an image data input second end of the K-th controller; the method comprises the steps that a 1 st camera for medical care is arranged in a 1 st negative pressure ward unit medical care working area, an image data output end of the 1 st camera for medical care is connected with an image data input first end of a 1 st controller, a 1 st camera for patient is arranged in a 1 st negative pressure ward unit patient treatment area, and an image data output end of the 1 st camera for patient is connected with an image data input second end of the 1 st controller;
The medical care working area of the 2 nd negative pressure ward unit is provided with a 2 nd medical care camera, the image data output end of the 2 nd medical care camera is connected with the image data input first end of the 2 nd controller, the patient treatment area of the 2 nd negative pressure ward unit is provided with a 2 nd patient camera, and the image data output end of the 2 nd patient camera is connected with the image data input second end of the 2 nd controller;
the medical treatment working area of the 3 rd negative pressure ward unit is provided with a 3 rd camera for medical treatment, the image data output end of the 3 rd camera for medical treatment is connected with the image data input first end of the 3 rd controller, the patient treatment area of the 3 rd negative pressure ward unit is provided with a 3 rd camera for patient, and the image data output end of the 3 rd camera for patient is connected with the image data input second end of the 3 rd controller; … …;
the medical treatment work area of the K negative pressure ward unit is provided with a medical care K camera, the image data output end of the medical care K camera is connected with the image data input first end of the K controller, the patient treatment area of the K negative pressure ward unit is provided with a patient K camera, and the image data output end of the patient K camera is connected with the image data input second end of the K controller;
The image data output end of the k-th controller is connected with the image data input k-th end of the master controller, and the wireless data transmission end of the master controller is connected with the data transmission end of the wireless transceiver module; namely, the image data output end of the 1 st controller is connected with the image data input 1 st end of the overall controller, the image data output end of the 2 nd controller is connected with the image data input 2 nd end of the overall controller, the image data output end of the 3 rd controller is connected with the image data input 3 rd end of the overall controller, … …, the image data output end of the K-th controller is connected with the image data input K-th end of the overall controller, and the wireless data transmission end of the overall controller is connected with the data transmission end of the wireless transceiver module;
and uploading the image data of the medical working area shot by the medical camera and/or the image data of the patient treatment area shot by the patient camera to a cloud management platform for storage.
In a preferred embodiment of the present invention, the wireless transceiver module includes one or any combination of a 3G wireless transceiver data unit, a 4G wireless transceiver data unit, a 5G wireless transceiver data unit, and a WiFi wireless transceiver data unit;
when the wireless receiving and transmitting module is a 3G wireless receiving and transmitting data unit, a wireless data transmission 3G end of the master controller is connected with a data transmission end of the 3G wireless receiving and transmitting data unit;
When the wireless receiving and transmitting module is a 4G wireless receiving and transmitting data unit, a wireless data transmission 4G end of the master controller is connected with a data transmission end of the 4G wireless receiving and transmitting data unit;
when the wireless receiving and transmitting module is a 5G wireless receiving and transmitting data unit, a wireless data transmission 5G end of the master controller is connected with a data transmission end of the 5G wireless receiving and transmitting data unit;
when the wireless receiving and transmitting module is a WiFi wireless receiving and transmitting data unit, a wireless data transmission WiFi end of the master controller is connected with a data transmission end of the WiFi wireless receiving and transmitting data unit.
In a preferred embodiment of the present invention, as shown in fig. 2, the negative pressure ward unit 3 is divided into two according to left and right half areas, respectively, the right half area is a patient treatment area 6, the left half area is divided into two according to upper and lower half areas, respectively, the upper half area is a medical care work area 1, the lower half area is divided into two according to left and right half sub-areas, respectively, the left half sub-area is a medical care bathroom 12, the right half sub-area is a buffer chamber, a patient bathroom 8 and a sickbed are arranged in the patient treatment area 6, a workbench 4 is arranged beside a partition wall of the medical care work area 1, and a part or whole piece of half-way half glass is arranged on the partition wall, so that medical staff can observe the patient state through the half glass in real time at the workbench 4 without disturbing the rest of the patient.
In a preferred embodiment of the invention, the negative pressure ward unit is of a box-type construction, movable by means of a container crane, or is equipped with wheels at the bottom as a trailer driven by means of a traction device.
In a preferred embodiment of the invention, a medical air quality sensor 2 for detecting the air quality condition of the medical working area 1 is arranged in the medical working area 1, and the medical air quality sensor further comprises a medical fresh air system for providing fresh air for the medical working area 1 in the medical working area 1, and a medical exhaust system is arranged in the medical toilet 12; and a medical pressure sensor 11 for detecting the air flow pressure of the medical working area 1 is arranged in the medical working area 1;
when the air quality sensor 2 for medical care detects that the air quality of the medical care working area 1 is smaller than the preset air quality, the fresh air system for medical care introduces fresh air into the medical care working area 1, so that the air quality sensor 2 for medical care detects that the air quality of the medical care working area 1 is larger than or equal to the preset air quality;
the patient treatment area 6 is provided with a patient air quality sensor 9 for detecting the air quality condition of the patient treatment area 6, the patient treatment area 6 is also provided with a patient fresh air system for providing fresh air for the patient treatment area 6, and the patient toilet 8 is provided with a patient exhaust system; and a patient pressure sensor 5 for detecting the air flow pressure of the patient treatment area 6 is arranged in the patient treatment area 6;
When the air quality sensor 9 for the patient detects that the air quality of the patient treatment area 6 is smaller than the preset air quality, the fresh air system for the patient introduces fresh air into the patient treatment area 6, so that the air quality sensor 9 for the patient detects that the air quality of the patient treatment area 6 is larger than or equal to the preset air quality;
the buffer chamber is provided with an air quality sensor for detecting the air quality condition of the buffer chamber, the buffer chamber is also provided with a fresh air system for providing fresh air for the buffer chamber, and the buffer chamber is provided with an exhaust system; and a pressure sensor 10 for detecting the air flow pressure of the buffer chamber is arranged in the buffer chamber;
the air flow pressure of the buffer chamber is lower than or equal to the atmospheric pressure;
when the medical staff enters the patient treatment area 6 from the medical working area 1 through the buffer chamber, the air flow pressure of the medical working area 1 is made to be larger than that of the buffer chamber, and the air flow pressure of the buffer chamber is made to be larger than that of the patient treatment area 6.
A medical care door 13 which enters the medical care working area 1 is arranged on the left wall body of the medical care working area 1. The medical care door 13 is provided with a door handle which is convenient for opening the medical care door 13, and also comprises a reader-writer module fixed mounting seat which is arranged at one side of the medical care door and is used for fixedly mounting a reader-writer module, wherein the reader-writer module is fixedly arranged on the reader-writer module fixed mounting seat, and a protective lock which is used for closing the medical care door;
When the reader-writer module senses the data information in the handheld card, the protective lock opens the medical care door.
In a preferred embodiment of the present invention, the reader module includes a reader, a kth controller, a wireless transceiver unit, and a human body sensing unit;
the human body sensing data output end of the human body sensing unit is connected with the human body sensing data input end of the kth controller, the work control end of the kth controller is connected with the work control end of the reader-writer, the read-write data end of the reader-writer is connected with the read-write data end of the kth controller, and the wireless data transmission end of the kth controller is connected with the data transmission end of the wireless receiving-transmitting unit;
the human body sensing unit is used for detecting whether a medical staff approaches the reader-writer module, and if the medical staff approaches the reader-writer module, the human body sensing unit sends the medical staff to the kth controller to approach the reader-writer module, so that the medical staff is indicated to enter the emergency sampling safety cabin; the k controller sends a working control signal to a working control end of the reader-writer, and the reader-writer starts working after receiving the working control signal sent by the k controller;
the reader-writer is used for acquiring the identity information in a handheld card of medical staff, wherein the handheld card is one of an identity card, a social security card and a bank card; the identity information comprises a name or/and an identity card number; when the reader-writer works, the reader-writer sends the acquired identity information to a kth controller; the kth controller performs checking calculation on the received identity information to obtain an opening code, and if the obtained opening code is consistent with the opening code stored in the kth controller, the kth controller sends an opening control signal to the protection lock, and the protection lock is opened; if the obtained opening code is inconsistent with the opening code stored in the kth controller, the protection lock is not opened;
The wireless receiving and transmitting unit is used for receiving the opening code set sent by the cloud management platform and storing the received opening code in the kth controller.
In a preferred embodiment of the present invention, the protection lock includes a rectangular housing and a cover for covering the housing, a moving block is provided in the housing, a guide bar is provided at the left end of the moving block, a first spring is sleeved on the guide bar, a lock bar is provided at the right end of the moving block, left through holes penetrating the left side of the housing and right through holes penetrating the right side of the housing are provided at the left and right sides of the housing, the guide bar protrudes from the left through holes, and the lock bar protrudes from the right through holes;
a moving groove for driving the moving block to move leftwards by the door handle is formed in the moving block, a limiting groove for limiting the moving block to move is formed in the moving block, and the limiting groove is positioned on the right side of the moving groove;
the moving block is also provided with a strip-shaped slotted hole and a positioning hole which penetrate through the moving block, the strip-shaped slotted hole is communicated with the positioning hole, and the aperture of the strip-shaped slotted hole is smaller than that of the positioning hole;
the locking rod bolt comprises a lower connecting rod, a middle connecting rod and an upper connecting rod, wherein the rod diameter of the middle connecting rod is larger than that of the lower connecting rod, the rod diameter of the upper connecting rod is larger than that of the middle connecting rod, the rod diameter of the upper connecting rod is larger than that of the positioning hole, the rod diameter of the middle connecting rod is smaller than that of the positioning hole, the rod diameter of the middle connecting rod is larger than that of the strip-shaped slotted hole, and the diameter of the strip-shaped slotted hole is larger than that of the lower connecting rod; a second spring is arranged at the top end of the upper connecting rod, and the other end of the second spring is abutted against the shell cover; a shell through hole penetrating through the bottom of the shell is arranged at the bottom of the shell;
The telescopic device is arranged in the shell, and a limiting block which is adaptive to the limiting groove is arranged on a telescopic rod of the telescopic device;
the medical care door is changed from the closed state to the open state:
when the telescopic device is electrified, the telescopic rod of the telescopic device is shortened, and the left and right sliding of the moving block is not limited;
when the door handle rotates, the driving rod on the door handle drives the moving block to move leftwards, wherein the driving rod is arranged in the moving groove, the driving rod on the door handle drives the moving block to move leftwards, and when the lock rod bolt moves to the positioning hole from the strip-shaped groove hole, the middle connecting rod falls into the positioning hole under the action of the second spring on the lock rod bolt because the rod diameter of the middle connecting rod is smaller than the aperture of the positioning hole, and the lock rod position is locked at the moment, so that the medical care door is opened; if the middle connecting rod does not fall into the positioning hole in the process, and the door handle is released without continuously rotating the door handle, the first spring pushes the moving block to move rightwards under the action of the first spring, and the door handle is reset;
the medical care door is changed from an open state to a closed state:
the lock rod bolt impacts the door frame, at the moment, the positioning hole is completely occupied by the lower connecting rod, and under the action of the first spring, the rod diameter of the lower connecting rod is smaller than the hole diameter of the strip-shaped slotted hole, and the first spring pushes the moving block to move rightwards and reset;
When the telescopic device is electrified, the medical door can be opened again by rotating the door handle;
when it reaches the threshold value of the preset door opening time, the telescopic device is powered off, the telescopic rod of the telescopic device is extended, the telescopic device is in the prior art, when the telescopic device is powered on, the telescopic rod of the telescopic device is shortened, the telescopic device is powered off, the telescopic rod of the telescopic device is extended, or the telescopic device is powered on, the telescopic rod of the telescopic device is extended, the telescopic device is powered off, the telescopic rod of the telescopic device is shortened, and the corresponding logic condition is changed. The limiting block stretches into the limiting groove, and the locking rod is locked at the moment.
The invention also discloses a control method for realizing the negative pressure ward unit intelligent management platform by integrating the Internet of things, which comprises the following steps:
s1, numbering all images shot in the negative pressure ward unit;
s2, compressing all numbered image data in the step S1 to obtain an image packet thereof; uploading the obtained image package to a cloud management platform;
and S3, after decompressing the received image package, the cloud management platform stores the image package in a folder consistent with the number according to the number corresponding to each image.
In a preferred embodiment of the present invention, numbering the images captured in all negative pressure ward units in step S1 includes the steps of:
s11, obtaining the unique ID numbers of the K medical cameras and the unique ID numbers of the K patient cameras, respectively marking the unique ID numbers as { ID } 1 ,ID 2 ,ID 3 ,…,ID K} and {id1 ,id 2 ,id 3 ,…,id K },{ID 1 ,ID 2 ,ID 3 ,…,ID K The unique ID number set of K medical cameras and ID 1 Unique ID number and ID of 1 st camera for medical care 2 Unique ID number and ID indicating 2 nd camera for medical care 3 Unique ID number and ID indicating 3 rd camera for medical care K A unique ID number indicating a K-th camera for medical care; { id 1 ,id 2 ,id 3 ,…,id K The unique ID number set of K cameras for patients, ID 1 Unique ID number, ID, representing 1 st camera for patient 2 Unique ID number, ID, representing patient-purpose 2 nd camera 3 Unique ID number, ID, representing 3 rd camera for patient K A unique ID number representing the patient's K-th camera; order the
S12, for medical careUnique ID number of camera and medical care use +.>Executing the unique operation of the unique ID number of the camera to obtain a unique code number of the camera;
for medical careThe method for calculating the unique ID number of the camera to obtain the unique code number comprises the following steps:
wherein ,indicate medical care use- >A unique code number corresponding to the unique ID number of the camera;
unique Operate Calculation () represents a uniqueness operation algorithm; the unique operation algorithm is not limited to MD5 algorithm in HASH algorithm, but can be SHA-1 algorithm, and can be other types of algorithms for obtaining character strings.
ID ζ Indicate medical care useA unique ID number of the camera;
patient's first useThe method for calculating the unique ID number of the camera to obtain the unique code number comprises the following steps:
wherein ,indicating the patient's use of->A unique code number corresponding to the unique ID number of the camera;
unique Operate Calculation () represents a uniqueness operation algorithm;
id ζ indicating the patient's use of the firstA unique ID number of the camera;
s13, judgingSize relationship with K:
if it isThen the next step is performed;
if it isThen->Returning to the step S12;
s14, will and />Name number of image photographed by each camera, <' > as the name number of the image photographed by each camera>Representing the unique code number set corresponding to the unique ID numbers of the K medical cameras, < ->Representing the unique code number corresponding to the unique ID number of the 1 st camera for medical care, < ->Representing the unique code number corresponding to the unique ID number of the 2 nd camera for medical care, < ->The unique ID number of the 3 rd camera for medical care Unique code number of response,/->A unique code number corresponding to the unique ID number of the K camera for medical care;a unique code number set corresponding to the unique ID numbers of the K cameras for patients, < ->Representing the unique code number corresponding to the unique ID number of the 1 st camera for the patient, ">Representing the unique code number corresponding to the unique ID number of the patient's 2 nd camera, ">The unique code number corresponding to the unique ID number of the 3 rd camera for the patient is indicated,and the unique code number corresponding to the unique ID number of the K camera for the patient is represented. By converting the unique ID number of the camera into the unique coding number (serial number), images shot by the same camera can be finally stored in the same folder according to time sequence, and the images are convenient to view.
In a preferred embodiment of the present invention, compressing all numbered image data in step S2 to obtain an image packet thereof includes the steps of:
s21, compressing all numbered image data in the step S1 to obtain a compressed packet;
s22, decompressing the compressed packet obtained in the step S21 to obtain a decompressed packet;
s23, judging whether the number of files in the decompressed package is consistent with the number of files before the compressed package is obtained:
If the number of the files in the decompressed package is consistent with the number of the files before the compressed package is obtained, the compressed package is an image package;
if the number of the files in the decompression package is inconsistent with the number of the files before the compression package is obtained, the number and names of the files in the decompression package and the different files before the compression package are found out; executing the next step;
s24, opening the decompressed package in the step S21, and screening out files corresponding to the number and the names of the files searched in the step S23 in the decompressed package to obtain an image package. The larger image data is converted into the image package with smaller capacity through compression (not limited to zip and 7Z compression technology), so that the transmission efficiency is improved, files which are generated during compression and do not belong to image files are deleted, and redundant folders are prevented from being established during storage.
In a preferred embodiment of the present invention, the following steps are included in step S3:
s31, after the cloud management platform decompresses the received image package, a decompressed image package is obtained; let χ = 1;
s32, judging whether the number corresponding to the χ image in the decompressed image package is a search code E χ or not, and judging whether the E χ exists in the image storage database or not by taking the E χ as a folder name:
if E chi exists in the image storage database and takes the E chi as a folder name, copying an image file corresponding to the E chi into the image storage database and taking the E chi as the folder name;
If E chi does not exist in the image storage database and takes E chi as a folder name, establishing a folder by taking E chi as the folder name, and copying an image file corresponding to E chi into the image storage database and taking E chi as the folder name;
s33, judging χ andsize relationship between:
if it isIndicating the total number of image files in the decompressed image package, < >>Then the image file in the decompressed image package is stored, and the decompressed image package and the received image package are screened out;
if it isThen χ=χ+1, and the process returns to step S32.
In a preferred embodiment of the present invention, the method further includes step S4, when the image captured by the ith camera for medical care needs to be checked, i=one of 1, 2, 3, … …, K; the method comprises the following steps:
s41, acquiring a unique ID number of the medical care ith camera corresponding to the medical care ith camera;
s42, executing a unique operation on the unique ID number of the ith camera for medical care, and obtaining the unique code number of the ith camera for medical care by the calculation method:
wherein ,a unique code number corresponding to the unique ID number of the ith camera for medical care;
unique Operate Calculation () represents a uniqueness operation algorithm;
ID i a unique ID number indicating an ith camera for medical care;
S43, using the unique ID number of the i-th camera for medical careSearching for unique ID number of ith camera for medical care on cloud management platform as search code>Folder name of (2);
s44, after searching, the images under the file names are sequenced according to time sequence, so that a viewer can conveniently select video images in a corresponding time period.
Similarly, when the patient needs to view the image taken by the j-th camera, j=one of 1, 2, 3, … … and K; the method comprises the following steps:
s4-1, acquiring a unique ID number of a patient jth camera corresponding to the patient jth camera;
s4-2, executing a unique operation on the unique ID number of the j-th camera for the patient, and obtaining the calculation method of the unique code number of the j-th camera for the patient, wherein the calculation method comprises the following steps:
wherein ,a unique code number corresponding to the unique ID number of the j-th camera for the patient;
unique Operate Calculation () represents a uniqueness operation algorithm;
id j a unique ID number indicating the j-th camera for the patient;
s4-3, using the unique ID number of the j-th camera for patientsSearching for unique ID number of j-th camera for patients on cloud management platform for searching code>Folder name of (2);
s4-4, after searching, sequencing the images under the file names according to time sequence, so that a viewer can conveniently select video images in a corresponding time period.
In order to ensure that the images and videos in the same negative pressure ward unit (a medical care working area and a patient treatment area) can be checked at the same time, the unique ID number of the lambda-th camera for medical care is bound with the unique ID number of the lambda-th camera for patients, and lambda=1, 2, 3, … … and K; that is, the unique ID number of the 1 st camera for medical care is bound with the unique ID number of the 1 st camera for patients, the unique ID number of the 2 nd camera for medical care is bound with the unique ID number of the 2 nd camera for patients, the unique ID number of the 3 rd camera for medical care is bound with the unique ID number of the 3 rd camera for patients, … …, the unique ID number of the K camera for medical care is bound with the unique ID number of the K camera for patients, and when the video image shot by the lambda camera for medical care is played, the video images shot by the lambda camera for medical care and the lambda camera for patients are synchronously displayed on a screen in a split mode on a playing display screen. The monitoring video images of the medical care working area and the patient treatment area are checked at the same time in the same negative pressure ward unit.
While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the invention, the scope of which is defined by the claims and their equivalents.
Claims (5)
1. The intelligent management platform for realizing the negative pressure ward units by the fusion Internet of things is characterized by comprising K negative pressure ward units, wherein K is a positive integer greater than or equal to 1 and is respectively a 1 st negative pressure ward unit, a 2 nd negative pressure ward unit, a 3 rd negative pressure ward unit, a … … th negative pressure ward unit and a K th negative pressure ward unit;
the method comprises the steps that a K-th camera for medical care is arranged in a medical care working area of a K-th negative pressure ward unit, K is a positive integer smaller than or equal to K, an image data output end of the K-th camera for medical care is connected with an image data input first end of a K-th controller, a K-th camera for patient is arranged in a patient treatment area of the K-th negative pressure ward unit, and an image data output end of the K-th camera for patient is connected with an image data input second end of the K-th controller; the method comprises the steps that a 1 st camera for medical care is arranged in a 1 st negative pressure ward unit medical care working area, an image data output end of the 1 st camera for medical care is connected with an image data input first end of a 1 st controller, a 1 st camera for patient is arranged in a 1 st negative pressure ward unit patient treatment area, and an image data output end of the 1 st camera for patient is connected with an image data input second end of the 1 st controller;
The medical care working area of the 2 nd negative pressure ward unit is provided with a 2 nd medical care camera, the image data output end of the 2 nd medical care camera is connected with the image data input first end of the 2 nd controller, the patient treatment area of the 2 nd negative pressure ward unit is provided with a 2 nd patient camera, and the image data output end of the 2 nd patient camera is connected with the image data input second end of the 2 nd controller;
the medical treatment working area of the 3 rd negative pressure ward unit is provided with a 3 rd camera for medical treatment, the image data output end of the 3 rd camera for medical treatment is connected with the image data input first end of the 3 rd controller, the patient treatment area of the 3 rd negative pressure ward unit is provided with a 3 rd camera for patient, and the image data output end of the 3 rd camera for patient is connected with the image data input second end of the 3 rd controller; … …;
the medical treatment work area of the K negative pressure ward unit is provided with a medical care K camera, the image data output end of the medical care K camera is connected with the image data input first end of the K controller, the patient treatment area of the K negative pressure ward unit is provided with a patient K camera, and the image data output end of the patient K camera is connected with the image data input second end of the K controller;
The image data output end of the k-th controller is connected with the image data input k-th end of the master controller, and the wireless data transmission end of the master controller is connected with the data transmission end of the wireless transceiver module; namely, the image data output end of the 1 st controller is connected with the image data input 1 st end of the overall controller, the image data output end of the 2 nd controller is connected with the image data input 2 nd end of the overall controller, the image data output end of the 3 rd controller is connected with the image data input 3 rd end of the overall controller, … …, the image data output end of the K-th controller is connected with the image data input K-th end of the overall controller, and the wireless data transmission end of the overall controller is connected with the data transmission end of the wireless transceiver module;
uploading image data of a medical working area shot by a medical camera and/or image data of a patient treatment area shot by a patient camera to a cloud management platform for storage; the control method for realizing the negative pressure ward unit intelligent management platform by the fusion Internet of things comprises the following steps:
s1, numbering all images shot in the negative pressure ward units, wherein the method for numbering all the images shot in the negative pressure ward units comprises the following steps:
S11, obtaining the unique ID numbers of the K medical cameras and the unique ID numbers of the K patient cameras, respectively marking the unique ID numbers as { ID } 1 ,ID 2 ,ID 3 ,…,ID K} and {id1 ,id 2 ,id 3 ,…,id K },{ID 1 ,ID 2 ,ID 3 ,…,ID K The unique ID number set of K medical cameras and ID 1 Unique ID number and ID of 1 st camera for medical care 2 Unique ID number and ID indicating 2 nd camera for medical care 3 Unique ID number and ID indicating 3 rd camera for medical care K A unique ID number indicating a K-th camera for medical care; { id 1 ,id 2 ,id 3 ,…,id K The unique ID number set of K cameras for patients, ID 1 Unique ID number, ID, representing 1 st camera for patient 2 Unique ID number, ID, representing patient-purpose 2 nd camera 3 Unique ID number, ID, representing 3 rd camera for patient K A unique ID number representing the patient's K-th camera; order the
S12, for medical careUnique ID number of camera and medical care use +.>Executing the unique operation of the unique ID number of the camera to obtain a unique code number of the camera;
for medical careThe method for calculating the unique ID number of the camera to obtain the unique code number comprises the following steps:
wherein ,indicate medical care use->A unique code number corresponding to the unique ID number of the camera;
unique Operate Calculation () represents a uniqueness operation algorithm;
indicate medical care use- >A unique ID number of the camera;
patient's first useThe method for calculating the unique ID number of the camera to obtain the unique code number comprises the following steps:
wherein ,representing patient useFirst->A unique code number corresponding to the unique ID number of the camera;
unique Operate Calculation () represents a uniqueness operation algorithm;
indicating the patient's use of->A unique ID number of the camera;
s13, judgingSize relationship with K:
if it isThen the next step is performed;
if it isThen->Returning to the step S12;
s14, will and />Name number of image photographed by each camera, <' > as the name number of the image photographed by each camera>Representing the sole of K medical camerasUnique code number set corresponding to ID number, < ->Representing the unique code number corresponding to the unique ID number of the 1 st camera for medical care, < ->Representing the unique code number corresponding to the unique ID number of the 2 nd camera for medical care, < ->Representing the unique code number corresponding to the unique ID number of the 3 rd camera for medical care, < ->A unique code number corresponding to the unique ID number of the K camera for medical care;a unique code number set corresponding to the unique ID numbers of the K cameras for patients, < ->Representing the unique code number corresponding to the unique ID number of the 1 st camera for the patient, " >Representing the unique code number corresponding to the unique ID number of the patient's 2 nd camera, ">The unique code number corresponding to the unique ID number of the 3 rd camera for the patient is indicated,representing the unique ID number of the K-th camera for patientsA code number is normalized;
s2, compressing all numbered image data in the step S1 to obtain an image packet thereof; uploading the obtained image package to a cloud management platform; compressing all numbered image data to obtain an image packet thereof, comprising the following steps:
s21, compressing all numbered image data in the step S1 to obtain a compressed packet;
s22, decompressing the compressed packet obtained in the step S21 to obtain a decompressed packet;
s23, judging whether the number of files in the decompressed package is consistent with the number of files before the compressed package is obtained:
if the number of the files in the decompressed package is consistent with the number of the files before the compressed package is obtained, the compressed package is an image package;
if the number of the files in the decompression package is inconsistent with the number of the files before the compression package is obtained, the number and names of the files in the decompression package and the different files before the compression package are found out; executing the next step;
s24, opening the decompressed package in the step S21, and screening out files corresponding to the number and the names of the files searched in the step S23 in the decompressed package to obtain an image package;
S3, after the cloud management platform decompresses the received image packets, storing the image packets in folders consistent with the numbers according to the numbers corresponding to each image; after decompressing the received image package, the cloud management platform stores the image package in a folder consistent with the serial number according to the serial number corresponding to each image, and the method comprises the following steps:
s31, after the cloud management platform decompresses the received image package, a decompressed image package is obtained; let χ = 1;
s32, judging whether the number corresponding to the χ image in the decompressed image package is a search code E χ or not, and judging whether the E χ exists in the image storage database or not by taking the E χ as a folder name:
if E chi exists in the image storage database and takes the E chi as a folder name, copying an image file corresponding to the E chi into the image storage database and taking the E chi as the folder name;
if E chi does not exist in the image storage database and takes E chi as a folder name, establishing a folder by taking E chi as the folder name, and copying an image file corresponding to E chi into the image storage database and taking E chi as the folder name;
s33, judging χ andsize relationship between:
if it is Indicating the total number of image files in the decompressed image package, < >>Then the image file in the decompressed image package is stored, and the decompressed image package and the received image package are screened out;
If it isThen χ=χ+1, and the process returns to step S32.
2. The intelligent management platform for realizing the negative pressure ward unit by the fusion internet of things according to claim 1, wherein the wireless transceiver module comprises one or any combination of a 3G wireless transceiver data unit, a 4G wireless transceiver data unit, a 5G wireless transceiver data unit and a WiFi wireless transceiver data unit;
when the wireless receiving and transmitting module is a 3G wireless receiving and transmitting data unit, a wireless data transmission 3G end of the master controller is connected with a data transmission end of the 3G wireless receiving and transmitting data unit;
when the wireless receiving and transmitting module is a 4G wireless receiving and transmitting data unit, a wireless data transmission 4G end of the master controller is connected with a data transmission end of the 4G wireless receiving and transmitting data unit;
when the wireless receiving and transmitting module is a 5G wireless receiving and transmitting data unit, a wireless data transmission 5G end of the master controller is connected with a data transmission end of the 5G wireless receiving and transmitting data unit;
when the wireless receiving and transmitting module is a WiFi wireless receiving and transmitting data unit, a wireless data transmission WiFi end of the master controller is connected with a data transmission end of the WiFi wireless receiving and transmitting data unit.
3. The fusion internet of things based negative pressure ward unit intelligent management platform according to claim 1, wherein the negative pressure ward unit (3) is divided into two parts according to left and right, namely a left half area and a right half area, the right half area is a patient treatment area (6), the left half area is divided into two parts according to upper and lower half areas, namely a medical care work area (1), the lower half area is divided into two parts according to left and right, namely a left half sub-area and a right half sub-area, the left half sub-area is a medical care bathroom (12), the right half sub-area is a buffer chamber, a patient bathroom (8) and a sickbed are arranged in the patient treatment area (6), a workbench (4) is arranged beside a partition wall of the medical care work area (1), and a part or a one-way perspective glass is arranged on the partition wall, so that medical care staff can observe a patient state through the one-way perspective glass in real time without disturbing a patient rest at the workbench (4).
4. The intelligent management platform for the negative pressure ward unit realized by the fusion internet of things according to claim 3, wherein the negative pressure ward unit is of a box type structure and can be moved by a container crane, or the bottom is provided with wheels as a trailer and driven by a traction device.
5. The intelligent management platform for realizing negative pressure ward units by fusion internet of things according to claim 3, wherein a medical air quality sensor (2) for detecting the air quality condition of the medical working area (1) is arranged in the medical working area (1), the intelligent management platform further comprises a medical fresh air system for providing fresh air for the medical working area (1) arranged in the medical working area (1), and a medical exhaust system arranged in a medical toilet (12); and a medical pressure sensor (11) for detecting the air flow pressure of the medical working area (1) is arranged in the medical working area (1);
when the air quality sensor (2) for medical care detects that the air quality of the medical care working area (1) is smaller than the preset air quality, the fresh air system for medical care introduces fresh air into the medical care working area (1), so that the air quality sensor (2) for medical care detects that the air quality of the medical care working area (1) is larger than or equal to the preset air quality;
The patient treatment area (6) is provided with a patient air quality sensor (9) for detecting the air quality condition of the patient treatment area (6), the patient treatment area (6) is also provided with a patient fresh air system for providing fresh air for the patient treatment area (6), and the patient bathroom (8) is provided with a patient exhaust system; and a patient pressure sensor (5) for detecting the air flow pressure of the patient treatment area (6) is arranged in the patient treatment area (6);
when the air quality of the patient treatment area (6) is detected to be smaller than the preset air quality by the air quality sensor (9) for the patient, the fresh air system for the patient introduces fresh air into the patient treatment area (6), so that the air quality of the patient treatment area (6) is detected to be larger than or equal to the preset air quality by the air quality sensor (9) for the patient;
the buffer chamber is provided with an air quality sensor for detecting the air quality condition of the buffer chamber, the buffer chamber is also provided with a fresh air system for providing fresh air for the buffer chamber, and the buffer chamber is provided with an exhaust system; and a pressure sensor (10) for detecting the air flow pressure of the buffer chamber is arranged in the buffer chamber;
the air flow pressure of the buffer chamber is lower than or equal to the atmospheric pressure;
When medical staff enters the patient treatment area (6) from the medical working area (1) through the buffer chamber, the air flow pressure of the medical working area (1) is made to be larger than that of the buffer chamber, and the air flow pressure of the buffer chamber is made to be larger than that of the patient treatment area (6).
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