CN216409188U - Technical equipment of respiratory infectious disease outpatient service sensing control system - Google Patents

Technical equipment of respiratory infectious disease outpatient service sensing control system Download PDF

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CN216409188U
CN216409188U CN202121684771.9U CN202121684771U CN216409188U CN 216409188 U CN216409188 U CN 216409188U CN 202121684771 U CN202121684771 U CN 202121684771U CN 216409188 U CN216409188 U CN 216409188U
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filter screen
exhaust
sensor
pressure air
display control
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刘彩莹
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Shenzhen Anci Biotechnology Co ltd
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Shenzhen Anci Biotechnology Co ltd
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Abstract

The utility model relates to a technical device of a respiratory infectious disease outpatient service sensing control system, which comprises a suction device above a diagnosis table, a positive pressure air inlet device, a negative pressure air exhaust device and a display control terminal, wherein the positive pressure air inlet device and the negative pressure air exhaust device are connected with the display control terminal through leads, the display control terminal is arranged above the diagnosis table, the suction device above the diagnosis table comprises the diagnosis table, an exhaust hood, an exhaust fan, an exhaust pipe, an image recognition controller and an exhaust device, the exhaust hood is arranged at one side, close to a patient, above the diagnosis table, the exhaust hood, the exhaust fan and the exhaust device are connected through the exhaust pipe, the image recognition controller, the exhaust hood and the exhaust fan are connected through leads, the transmission is blocked, medical staff and the patient are protected from being infected, and the air in a room is circulated, the purification is comfortable, a good and healthy outpatient environment is created, the applicability is high, and the popularization is worth.

Description

Technical equipment of respiratory infectious disease outpatient service sensing control system
Technical Field
The utility model relates to the technical field of technical equipment for a respiratory infectious disease outpatient clinic sensing control system, which is researched, designed and manufactured by technologies and principles of respiratory infectious disease medicine, chemistry, biology, air fluidics, sensing technology, image recognition technology, automatic control technology, motor technology, air purification and disinfection and the like, in particular to the technical equipment for the respiratory infectious disease outpatient clinic sensing control system.
Background
Domestic defeat virus is a variant disease strain infected from abroad, and domestic prevention and control situation is still severe. The causes (pathogens) and transmission routes (pathogen aerosols) of the infectious diseases of the respiratory system have the characteristics of complex types, rapid transmission and extremely strong infectivity, are easy to spread and cause social panic. The hospital outpatient service is an important node for spreading infectious diseases of the respiratory system, and the hospital outpatient service infection prevention and control are enhanced, and medical care personnel are protected.
The infection prevention and control system technology and equipment utilize the technology of the medicine, the chemistry, the biology, the air fluidics, the sensing technology, the image recognition technology, the automatic control technology, the motor technology, the air purification and disinfection and the like of the infectious respiratory disease, so that the outpatient respiratory disease outpatient clinic sensing and control system technology equipment 3/10 has the advantages of enhancing air circulation, timely blocking transmission, killing bacteria and viruses, and keeping indoor and discharged clean air, thereby better protecting medical care personnel and the surrounding environment.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the defects in the prior art, and provides the technical equipment of the respiratory infectious disease outpatient clinic sensing and controlling system, which is shown by an authoritative microorganism detection mechanism and clinical use, can quickly kill bacteria and viruses in toxic gas with the bacteria and the viruses exhaled by respiratory infectious disease patients and bacteria and viruses existing indoors, wherein the bacteria removal rate exceeds 99.9 percent, the disposable bacteria removal rate exceeds 99.9 percent, the PM2.5 removal rate exceeds 99.9 percent, and the disposable purification particulate matter removal rate exceeds 99.9 percent, thereby realizing the blocking of transmission, protecting medical care personnel and patients from infection, ensuring room air circulation, being comfortable in purification and creating a good and healthy outpatient clinic environment.
In order to achieve the purpose, the utility model adopts the following technical scheme:
the design one kind breathes infectious disease outpatient service sense accuse system technical equipment, including consulting platform top suction device, malleation air inlet device, negative pressure air exhaust device and display control terminal, malleation air inlet device and negative pressure air exhaust device all are connected through the wire with display control terminal, and display control terminal sets up the top at consulting platform, consulting platform top suction device is including consulting platform, exhaust hood, exhaust fan, exhaust pipe, image recognition controller and exhaust device, the exhaust hood sets up the one side that is close to the patient in consulting platform top, all be connected through the exhaust pipe between exhaust hood and exhaust fan and the exhaust device, all be connected through the wire between image recognition controller and exhaust hood and the exhaust fan.
Preferably, malleation air inlet device includes tertiary filter screen, air catalyst generator, the motor of airing exhaust, filter screen sensor, disappears and kills sensor, monitoring sensor, tertiary filter screen sets up the air intake at malleation air inlet device, and the inside of tertiary filter screen is provided with filter screen sensor, disappear and kill the sensor setting in the inside of air catalyst generator, monitoring sensor sets up the inside at the motor of airing exhaust.
Preferably, negative pressure air exhaust device includes tertiary filter screen, ultraviolet lamp killing ware, the motor of airing exhaust, filter screen sensor, kills sensor, monitoring sensor, tertiary filter screen sets up the air intake at negative pressure air exhaust device, and the inside of tertiary filter screen is provided with filter screen sensor, the sensor setting that kills is in the inside that the ultraviolet lamp killed the ware, monitoring sensor sets up the inside at the motor of airing exhaust.
Preferably, the third-level filter screen comprises a primary filter screen, a secondary filter screen and a high-efficiency filter screen multi-level filter screen, and the primary filter screen, the secondary filter screen and the high-efficiency filter screen are sequentially arranged inside the third-level filter screen.
Preferably, the filter screen sensor, the killing sensor and the monitoring sensor are all connected with the display control terminal through leads.
The technical equipment of the respiratory infectious disease outpatient service sensing and controlling system provided by the utility model has the beneficial effects that:
1. the display control terminal can control the system to start and close work, display working conditions and monitor data, can be placed on a diagnosis table or hung on a wall, and improves the use convenience of the equipment;
2. when a patient sits in front of a diagnosis table, the image recognition component starts the exhaust fan to work, the exhaust hood above the diagnosis table can well and efficiently suck the gas exhaled by the doctor and the patient upwards, so that the gas exhaled by the two parties is sucked into the exhaust hood by the exhaust fan before reaching the other party, and clean air is exhausted to the outside through the exhaust device, so that the mutual propagation of bacteria and viruses between the doctor and the patient can be effectively blocked;
3. when the positive pressure air inlet device works, outdoor air is sucked into an outpatient room through a three-stage filter screen, a gas catalyst generator and an exhaust motor, the removal rate of the three-stage filter screen is over 99.9 percent through a primary filter screen, a middle filter screen and a high-efficiency filter screen for multi-stage filtration of harmful pollutants such as viruses, bacteria, PM2.5 and the like, the gas catalyst generator generates chlorine dioxide to kill the bacteria and the viruses, the cyclic sterilization rate is over 99.9 percent, a filter screen sensor transmits forecast filter screen replacement information to a display control terminal, a kill sensor transmits gas catalyst generator raw material replacement information to the display control terminal for replacement, and a monitoring sensor displays air processing data to the display control terminal; when the negative pressure air exhaust device works, indoor air and gas sucked above a diagnosis table are sucked outdoors through a three-stage filter screen, an ultraviolet lamp generator and an exhaust motor to exhaust clean air, the three-stage filter screen filters viruses, bacteria, PM2.5 and other harmful pollutants through a primary filter screen, a medium filter screen and a high-efficiency filter screen in a multistage mode, the removal rate exceeds 99.9%, the ultraviolet lamp generator kills the bacteria and the viruses, the circulating sterilization rate exceeds 99.9%, a filter screen sensor transmits forecast filter screen replacement information to a display control terminal, a killing sensor transmits fault information of the ultraviolet lamp generator to the display control terminal for replacement, the monitoring sensor displays air processing data to the display control terminal, and the positive pressure air inlet device, the negative pressure air exhaust device and the exhaust device are utilized to contain gas (catalyst) capable of filtering the bacteria, the viruses, the PM2.5 filter screen, and killing the bacteria and the viruses, The ultraviolet lamp is used for killing aerosol with bacteria and viruses exhaled by a patient and indoor bacteria and viruses, harmful pollutants such as viruses, bacteria and PM2.5 are filtered by a positive-pressure air inlet device, a negative-pressure air exhaust device, an exhaust device, a primary filter screen, a medium-efficiency filter screen, a high-efficiency filter screen and other multi-stage filter devices, the removal rate exceeds 99.9%, the replacement expiration of the filter screen can be forecasted by using biosensor technology and devices, the removal rate and the sterilization rate of the bacteria, the viruses and the PM2.5 are displayed, the working noise of the positive-pressure air inlet device, the negative-pressure air exhaust device, the exhaust device and the exhaust fan is below 40db, the space of an outpatient room is kept silent, the patient visit is not influenced, and the overall practicability of the equipment is increased;
the utility model has simple structure, reasonable design and convenient operation, and the authoritative microorganism detection mechanism and clinical use show that the technical system and the device scheme can rapidly kill bacteria and virus-carrying toxic gas exhaled by patients with respiratory infectious diseases and indoor bacteria and viruses, the bacteria removal rate exceeds 99.9 percent, the disposable bacteria removal rate exceeds 99.9 percent, the PM2.5 removal rate exceeds 99.9 percent, the disposable purification particulate matter removal rate exceeds 99.9 percent, the transmission is blocked, medical care personnel and patients are protected from infection, and meanwhile, the room air is circulated, the purification is comfortable, a good and healthy clinic environment is created, the applicability is higher, and the popularization is worthy.
Drawings
FIG. 1 is a schematic view of the sensing and controlling principle of the technical apparatus of the sensing and controlling system for outpatient respiratory disease according to the present invention;
FIG. 2 is a schematic view of a positive pressure air intake device of a respiratory infectious disease outpatient sensing control system according to the present invention;
FIG. 3 is a schematic view of a negative pressure air exhaust device of a respiratory infectious disease outpatient service sensing control system technical apparatus according to the present invention;
FIG. 4 is a schematic view of a suction device above a patient table of a respiratory infectious disease outpatient service sensing and controlling system according to the present invention;
fig. 5 is a schematic view of a display control terminal of a technical device of a respiratory infectious disease outpatient service sensing control system according to the present invention.
In the figure: 1. a suction device above the examination table; 11. a diagnosis table; 12. an exhaust hood; 13. an exhaust fan; 14. an exhaust duct; 15. an image recognition controller; 16. an air exhaust device; 2. a positive pressure air intake device; 21. a third-stage filter screen; 22. a gas catalyst generator; 23. an air exhaust motor; 24. a screen sensor; 25. a killing sensor; 26. monitoring a sensor; 3. a negative pressure air exhaust device; 31. an ultraviolet lamp sterilizer; 4. and displaying the control terminal.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.
Referring to fig. 1-5, a respiratory infectious disease outpatient service sensing control system comprises a suction device 1 above a diagnosis table, a positive pressure air intake device 2, a negative pressure air exhaust device 3 and a display control terminal 4, wherein the positive pressure air intake device 2 and the negative pressure air exhaust device 3 are connected with the display control terminal 4 through wires, the display control terminal 4 is arranged above the diagnosis table 11, the suction device 1 above the diagnosis table comprises a diagnosis table 11, an exhaust hood 12, an exhaust fan 13, an exhaust pipe 14, an image recognition controller 15 and an exhaust device 16, the exhaust hood 12 is arranged at one side of the diagnosis table 11 close to a patient, the exhaust hood 12 and the exhaust fan 13 are connected with the exhaust fan 16 through the exhaust pipe 14, the image recognition controller 15 and the exhaust hood 12 and the exhaust fan 13 are connected with each other through wires, the device adopts a sterilization technology, the sterilization and disinfection of bacteria and viruses are carried out on air discharged from the outside, indoor air, aerosol discharged by doctors and patients and air discharged from the outside, clean air is ensured to be indoors and discharged outdoors, propagation between doctors and patients and safety of outdoor environment are blocked, the sterilization and disinfection technology adopts gas catalysts and ultraviolet lamps for sterilization and disinfection, the circulating sterilization rate is over 99.9 percent, and the practicability of the equipment is improved.
The positive pressure air intake device 2 comprises a three-level filter screen 21, a gas catalyst generator 22, an exhaust motor 23, a filter screen sensor 24, a killing sensor 25 and a monitoring sensor 26, wherein the three-level filter screen 21 is arranged at an air inlet of the positive pressure air intake device 2, the filter screen sensor 24 is arranged inside the three-level filter screen 21, the killing sensor 25 is arranged inside the gas catalyst generator 22, the monitoring sensor 26 is arranged inside the exhaust motor 23, the gas catalyst generator 22 can utilize chlorine dioxide (C1O 2), the standard oxidation state of C1 atom in C1O2 is +4 valence, the high oxidability is achieved, the content of available chlorine reaches 263%, the oxidation potential of chlorine dioxide is 1.84V, is 0.37V higher than that of liquid chlorine, the oxidability is 2.6 times of the liquid chlorine, the strong oxidability is achieved, when the chlorine dioxide and bacteria generate action, the surfaces of the bacteria are negatively charged, the C102 exists in water almost 100% in a monomolecular type without charge, so the C102 is easily adsorbed on the surface of bacteria, when the pH value is 6.8-8.5, the activity of permeable enzyme in cell membranes is higher, the diffusion and active transportation are easily promoted, a disinfectant (such as chlorine gas and bleaching water) with negative charge in aqueous solution can have good inactivation effect, when the pH value is 3-6, the permeability is low, the disinfectant with negative charge loses the effect, the C1O2 is not influenced by the pH value, the disinfectant is simple diffusion, the transport of carrier protein is not needed, after entering cells, the disinfectant processes such as oxidase, cell damage or protein synthesis inhibition and the like can be carried out, so the bacteria have no drug resistance to chlorine dioxide, when the chlorine dioxide acts with the viruses, the C1O2 can adsorb and penetrate capsid protein of the viruses to react with RNA in the viruses, the inactivation effect of C1O2 can be greatly enhanced by destroying the capability of genes for synthesizing RNA and gathering high-concentration C1O2 molecules on the surface of the virus, so that the virus has no resistance to chlorine dioxide, but when the pH is more than 9.0, the C1O2 performs disproportionation reaction under strong alkaline conditions to change the type of C1O 2: the CICh + OH- > C102' + CIO3- + H20 can effectively improve the use effect of the equipment.
The negative pressure air exhaust device 3 comprises a three-stage filter screen 21, an ultraviolet lamp sterilizer 31, an exhaust motor 23, a filter screen sensor 24, a sterilizer sensor 25 and a monitoring sensor 26, wherein the three-stage filter screen 21 is arranged at an air inlet of the negative pressure air exhaust device 3, the filter screen sensor 24 is arranged inside the three-stage filter screen 21, the sterilizer sensor 25 is arranged inside the ultraviolet lamp sterilizer 31, the monitoring sensor 26 is arranged inside the exhaust motor 23, and the ultraviolet lamp sterilizer 31 is arranged, so that when organic pollutants pass through an ultraviolet irradiation area, ultraviolet rays can penetrate cell membranes and cell nuclei of organisms, the ultraviolet rays are absorbed by base pairs of DNA or RNA to generate photochemical action, genetic materials of the cells, namely the technical equipment 10/10 of the respiratory infectious disease outpatient clinic sensing control system, are changed, and the activity of the cell genetic materials is lost, microorganisms cannot be bred or die soon, microorganisms which are not killed in an ultraviolet irradiation area for the first time can be killed in subsequent circulation, ultraviolet rays can destroy the regeneration capacity of the microorganisms, because one bacterium can breed hundreds of or even millions of bacteria in 24 hours, which means that even the most effective air filter cannot completely remove the microorganisms, the ultraviolet sterilization is a permanent way, the dose required by killing the microorganisms by ultraviolet rays depends on the intensity and the irradiation time of the ultraviolet rays, the same principle is adopted, the non-fatal mutation caused by the irradiation of the microorganisms by using the lower dose of ultraviolet rays can be used as a means for breeding the microorganisms, the ultraviolet rays can change oxygen in the air into ozone, so that the sterilization effect is achieved, and the sterilization effect of equipment can be effectively improved.
Tertiary filter screen 21 is including just imitating filter screen, well effect filter screen, high-efficient filter screen multiple filter screen, and just imitates filter screen, well effect filter screen, high-efficient filter screen and arranges in proper order in tertiary filter screen 21's inside, and tertiary filter screen 21 can utilize multiple filter screen to filter harmful pollutants such as virus, bacterium, PM2.5, dispels the rate and exceeds 99.9%, has improved malleation air inlet device 2 and negative pressure air exhaust device 3's practicality.
The filter screen sensor 24, the killing sensor 25 and the monitoring sensor 26 are all connected with the display control terminal 4 through wires, work can be started and closed, working conditions can be displayed and data can be monitored through the display control terminal 4, data of the equipment can be provided in real time, and the overall practicability of the equipment is improved.
The working principle is as follows: when the equipment is used specifically, the display control terminal 4 can control the system to start and close work, display the working condition and monitor data; when a patient sits in front of a diagnosis table, the image recognition component starts the exhaust fan 13 to work, the exhaust hood 12 above the diagnosis table can well and efficiently suck the gas exhaled by doctors and the patient upwards, so that the gas exhaled by the two parties is sucked into the exhaust hood 12 by the exhaust fan 13 before reaching the other party, and clean air is exhausted to the outside by the exhaust device 16; when the positive pressure air intake device 2 works, outdoor air is sucked into an outpatient room through a three-stage filter screen 21, a gas catalyst generator 22 and an exhaust motor 23, harmful pollutants such as viruses, bacteria, PM2.5 and the like are filtered by a primary filter screen, a medium filter screen and a high-efficiency filter screen in a multi-stage mode, the removal rate exceeds 99.9%, the gas catalyst generator 22 generates chlorine dioxide to kill the bacteria and the viruses, the circulating sterilization rate exceeds 99.9%, a filter screen sensor 24 transmits forecast filter screen replacement information to a display control terminal 4, a sterilization sensor 25 transmits raw material replacement information of the gas catalyst generator 22 to the display control terminal 4 for replacement, and a monitoring sensor 26 displays air processing data on the display control terminal 4; when the negative-pressure air exhaust device 316 works, indoor air and air sucked above a diagnosis table are sucked outdoors through the three-stage filter screen 21, the ultraviolet lamp generator and the exhaust motor 23, clean air is discharged, the three-stage filter screen 21 is composed of an initial filter screen, a middle-effect filter screen, high-efficiency filter screen multi-stage filtration viruses, bacteria, PM2.5 and other harmful pollutants, the removal rate exceeds 99.9%, the ultraviolet lamp generator eliminates and kills the bacteria and the viruses, the circulating sterilization rate exceeds 99.9%, the filter screen sensor 24 transmits forecast filter screen replacement information to the display control terminal 4, the elimination sensor 25 sends ultraviolet lamp generator fault information to the display control terminal 4 so as to be replaced, and the monitoring sensor 26 displays air treatment data on the display control terminal 4.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (5)

1. The technical equipment of the respiratory infectious disease outpatient clinic sensing control system comprises a diagnosis table top suction device (1), a positive pressure air inlet device (2), a negative pressure air exhaust device (3) and a display control terminal (4), and is characterized in that the positive pressure air inlet device (2) and the negative pressure air exhaust device (3) are connected with the display control terminal (4) through leads, the display control terminal (4) is arranged above the diagnosis table (11), the diagnosis table top suction device (1) comprises a diagnosis table (11), an exhaust hood (12), an exhaust fan (13), an exhaust pipe (14), an image recognition controller (15) and an exhaust device (16), the exhaust hood (12) is arranged on one side of the diagnosis table (11) close to a patient, and the exhaust hood (12) is connected with the exhaust fan (13) and the exhaust fan (13) are connected with the exhaust device (16) through the exhaust pipe (14), the image recognition controller (15) is connected with the exhaust hood (12) and the exhaust fan (13) through wires.
2. The system technical equipment of claim 1, wherein the positive pressure air intake device (2) comprises a tertiary filter screen (21), a gas-catalyst generator (22), an exhaust motor (23), a filter screen sensor (24), a killing sensor (25) and a monitoring sensor (26), the tertiary filter screen (21) is arranged at an air inlet of the positive pressure air intake device (2), the filter screen sensor (24) is arranged inside the tertiary filter screen (21), the killing sensor (25) is arranged inside the gas-catalyst generator (22), and the monitoring sensor (26) is arranged inside the exhaust motor (23).
3. The system technical equipment for outpatient department sensing and controlling of infectious respiratory disease according to claim 1, wherein the negative pressure air exhaust device (3) comprises a three-stage filter screen (21), an ultraviolet lamp sterilizer (31), an exhaust motor (23), a filter screen sensor (24), a sterilization sensor (25) and a monitoring sensor (26), the three-stage filter screen (21) is arranged at an air inlet of the negative pressure air exhaust device (3), the filter screen sensor (24) is arranged inside the three-stage filter screen (21), the sterilization sensor (25) is arranged inside the ultraviolet lamp sterilizer (31), and the monitoring sensor (26) is arranged inside the exhaust motor (23).
4. The technical equipment of the system for sensorial examination of respiratory infectious disease according to claim 2, wherein the three-stage filter screen (21) comprises a primary filter screen, a middle filter screen, and a high efficiency multi-stage filter screen, and the primary filter screen, the middle filter screen, and the high efficiency filter screen are arranged inside the three-stage filter screen (21) in sequence.
5. The technical equipment of the system for outpatient department sensing and controlling of infectious respiratory disease according to claim 2, wherein the filter screen sensor (24), the killing sensor (25) and the monitoring sensor (26) are all connected with the display control terminal (4) through wires.
CN202121684771.9U 2021-07-22 2021-07-22 Technical equipment of respiratory infectious disease outpatient service sensing control system Active CN216409188U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202121684771.9U CN216409188U (en) 2021-07-22 2021-07-22 Technical equipment of respiratory infectious disease outpatient service sensing control system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202121684771.9U CN216409188U (en) 2021-07-22 2021-07-22 Technical equipment of respiratory infectious disease outpatient service sensing control system

Publications (1)

Publication Number Publication Date
CN216409188U true CN216409188U (en) 2022-04-29

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Application Number Title Priority Date Filing Date
CN202121684771.9U Active CN216409188U (en) 2021-07-22 2021-07-22 Technical equipment of respiratory infectious disease outpatient service sensing control system

Country Status (1)

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CN (1) CN216409188U (en)

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