CN112761385A

CN112761385A - Anti-virus diagnosis room and use method thereof

Info

Publication number: CN112761385A
Application number: CN202110190868.2A
Authority: CN
Inventors: 陈杰; 潘志梅
Original assignee: Yantai Yuhuangding Hospital
Current assignee: Yantai Yuhuangding Hospital
Priority date: 2021-02-20
Filing date: 2021-02-20
Publication date: 2021-05-07
Anticipated expiration: 2041-02-20
Also published as: CN112761385B

Abstract

The invention relates to the field of diagnosis rooms, in particular to an anti-virus diagnosis room and a using method thereof, which comprises a healthy walking channel, an infected walking channel, a doctor working room, a negative pressure contact room and a detection area, wherein the anti-virus diagnosis room and the using method thereof are characterized in that patients to be diagnosed respectively enter different patient accommodating rooms to wait for the diagnosis, so that the cross infection of the patients during the waiting period of the diagnosis is avoided, the infected patients walk the infected walking channel through the healthy walking channel, so that the infection between the infected patients and the healthy patients is avoided, and when the patients are diagnosed, the doctors control the patients to be diagnosed through a trolley walking control console, and the microphones switch the wireless communication devices with the patients through a microphone switching control console, so that a transparent glass plate is of a closed structure, the possibility of the doctors infecting viruses is reduced, and when the patients need to be diagnosed, the patient and the doctor enter the negative pressure contact chamber, and the doctor can comprehensively diagnose the patient.

Description

Anti-virus diagnosis room and use method thereof

Technical Field

The invention relates to the field of diagnosis rooms, in particular to an anti-virus diagnosis room and a using method thereof.

Background

The Chinese patent with the publication number of CN202010262721.5 discloses an isolation diagnosis room, wherein independent fresh air fans are arranged in a doctor room and a patient room, and the air supply pressure of a first fresh air fan positioned in the doctor room is larger than that of a second fresh air fan positioned in the patient room; a rotatable transparent disc is embedded in the transparent partition wall, and an airtight sealing material is arranged in an embedding seam; the transparent disc is provided with an inspection hole for a doctor to stretch out of an arm, the inspection hole is formed in the edge of the disc, the doctor can freely control the rotation of the disc, and the operation is convenient. The invention reduces the risk of infection of the doctor by the patient in the outpatient service process, and the arm of the doctor can move up and down, left and right within a certain range.

This solution has the following drawbacks: first, the scheme reduces the risk of infection in the process of diagnosing patients by doctors, but a plurality of patients are often crossed in the waiting process of the patients, so that the infection among the patients is caused. Secondly, after the scheme judges that the patient is infected with the disease, the infected patient is often infected with the disease because the outgoing path is the same as the incoming path in the process of going out. Thirdly, if the patient needs to be diagnosed, the doctor can not diagnose the patient comprehensively because only the handle can extend into the patient. Fourth, there is still an intercommunicating path between the doctor and the patient, and the possibility of the doctor being infected with the virus.

Disclosure of Invention

The invention aims to provide an anti-virus diagnosis room and a using method thereof, which are convenient for doctors to ask a doctor and simultaneously avoid cross infection of patients during waiting for seeing a doctor, avoid infection between infected patients and healthy patients and reduce the possibility of virus infection of doctors.

The invention adopts the following technical scheme:

an anti-virus diagnosis room is characterized by comprising a room which is composed of a healthy walking channel, an infected walking channel, a doctor working room, a negative pressure contact room and a detection area, wherein the healthy walking channel, the infected walking channel, the doctor working room, the negative pressure contact room and the detection area are formed together; the detection area is respectively connected and communicated with the healthy walking channel and the negative pressure contact chamber, the doctor working chamber is connected and communicated with one side of the negative pressure contact chamber, and the affected walking channel is connected and communicated with the other side of the negative pressure contact chamber; a transparent glass plate is arranged between the doctor working room and the detection area; be provided with a plurality of patient in the detection zone and hold the room, the bottom that every patient held the room all is provided with two-way walking dolly, and still is provided with disinfection spraying mechanism in the detection zone, and disinfection spraying mechanism is located the side of healthy walking passageway, and two-way walking dolly is connected with the controller electricity, is provided with a plurality of on the room wall and holds the room with the patient and be connected and communicating room front door.

Further, the patient holds the room and includes the plastics box, two-way walking dolly be located the plastics box lower extreme and be connected with the plastics box, the rotatable one side of installing at the plastics box of the positive door of plastics box, the rotatable opposite side of installing at the plastics box of the anti-door, first wireless communicator fixed mounting is on the outer wall of plastics box, plastics seat fixed mounting is on the inside of plastics box, air inlet gate fixed mounting is on the outer wall of plastics box, square notch has been seted up on the wall of plastics box, the air inlet gate lid is established on square notch, first wireless communicator is connected with the controller electricity, anti-door and positive door all adopt transparent material to make and form. Further, the doctor studio includes the workstation, the second wireless communication ware, dolly walking control platform, microphone switching control platform and doctor seat, through the passageway of going ill, healthy walking passageway, clear glass board and room wall form the special room of doctor, workstation and doctor seat are all placed in the special room of doctor, dolly walking control platform, the equal fixed mounting of microphone switching control platform and second wireless communication ware is on the workstation, and dolly walking control platform, microphone switching control platform and microphone switching control platform all are connected with the controller electricity, and the workstation is located the side of clear glass board.

Further, the air inlet gate includes the flashboard, the connecting plate, the baffle, two guide pillars, conflict spring and positioning circular plate, the flashboard lid closes on square notch, connecting plate fixed mounting is on the flashboard, the one end and the connecting plate fixed connection of two guide pillars, baffle fixed mounting is on the plastics box, the baffle is passed to the other end of two guide pillars, on the other end of two positioning circular plate fixed mounting guide pillars, two conflict springs overlap respectively and establish on two guide pillars, the one end and the connecting plate of every conflict spring are contradicted, the other end and the baffle of every conflict spring are contradicted.

Further, healthy walking passageway includes first healthy door, healthy baffle of first healthy baffle and second, first healthy baffle, the healthy baffle of second and room wall form square space, and the one end and the room wall fixed connection of first healthy baffle, the one end and the room wall fixed connection of the healthy baffle of second, the other end of the healthy baffle of first healthy baffle and the other end fixed connection of the healthy baffle of second, a healthy door for supplying healthy patient to walk out square space is installed on the room wall, first healthy door rotates with the room wall to be connected, be provided with the healthy door of second that can rotate on the healthy baffle of second.

Further, disinfection spraying mechanism includes pressure sensor, first outlet duct and first jet-propelled mechanism, first jet-propelled mechanism fixed mounting is subaerial, and first jet-propelled mechanism is located the detection zone, pressure sensor fixed mounting is on the healthy baffle of second, offer the bar breach that is used for holding pressure sensor on the healthy baffle of second, first outlet duct fixed mounting is on the gas outlet of first jet-propelled mechanism, first outlet duct passes through stay tube and wall fixed connection, and first outlet duct is connected with the connecting plate transmission.

Further, the infectious diseases walking passageway includes first virus door, first virus baffle and second virus baffle, the one end and the room wall fixed connection of second virus baffle, the other end and the negative pressure contact chamber fixed connection of second virus baffle, the one end and the room wall fixed connection of first virus baffle, the other end and the negative pressure contact chamber fixed connection of first virus baffle, second virus baffle, first virus baffle, negative pressure contact chamber and room wall form square space, first virus door can the pivoted install on the room wall.

Furthermore, the negative pressure contact chamber comprises a control button, a containing chamber, a first inlet door, a second outlet door, a standing plate, an exhaust pipe, an exhaust pump and a medicine spraying mechanism, the containing chamber is fixedly arranged on the ground, the second inlet door, the first inlet door and the second outlet door are rotatably arranged on the containing chamber, the second inlet door is positioned at one side of the containing chamber close to the detection area, the first inlet door is positioned at one side of the containing chamber close to the doctor working chamber, the second outlet door is positioned at one side of the containing chamber close to the infection walking channel, the control button is fixedly arranged on the containing chamber, the control button is positioned at one side of the containing chamber close to the doctor working chamber, the standing plate is fixedly arranged in the containing chamber, the standing plate is positioned below the first inlet door, the exhaust box is positioned below the standing plate, an air guide pipe is arranged at one side of the exhaust box, one end of the exhaust pipe is fixedly connected with the air guide pipe, the other end of exhaust tube and the extraction opening fixed connection of aspiration pump, the aspiration pump is located the side that holds the room, and the gas outlet of aspiration pump is open structure for jet-propelled medicine mechanism that spouts is located the top of standing the board, and spouts medicine mechanism fixed mounting on holding the room.

Further, spout medicine mechanism and include the jet-propelled mechanism of second, the hose, the mounting panel, connecting pipe and a plurality of shower nozzle, mounting panel fixed mounting is at the inboard top that holds the room, the equal fixed mounting of a plurality of shower nozzle is on the mounting panel, and the intake pipe of a plurality of shower nozzle all is connected with the connecting pipe, be provided with the outlet duct of being connected with the shower nozzle on the connecting pipe, the one end and the connecting pipe of hose are connected, be provided with the intake pipe of being connected with the hose on the connecting pipe, the other end of hose and the gas outlet fixed connection of the jet-propelled mechanism of second, aspiration.

The use method of the anti-virus diagnosis room is characterized by comprising the following steps:

the method comprises the following steps: the patient is kept in isolation for waiting;

when a patient goes to a doctor, the patient enters the plastic box body by opening the front door of the room and then opening the front door, and then sits on the plastic seat to wait for the calling of the doctor;

step two: doctor paging;

when a doctor visits a doctor, the doctor designates the corresponding bidirectional walking trolley to move by using the trolley walking control platform, the trolley walking control platform transmits a signal to the controller, and the controller controls the bidirectional walking trolley to move, so that the bidirectional walking trolley drives a patient designated by the doctor to reach the side of the transparent glass plate;

step three: diagnosing by a doctor;

a doctor designates a first wireless communicator corresponding to a patient accommodating chamber to be connected by using a microphone switching console, the microphone switching console transmits a signal to a controller, the controller controls the designated first wireless communicator to work, and when the doctor speaks aiming at a second wireless communicator, the words received by the second wireless communicator are transmitted to the first wireless communicator, so that the patient positioned in the patient accommodating chamber can hear the words spoken by the doctor, otherwise, the words spoken by the patient are transmitted from the second wireless communicator, so that the patient communicates with the doctor, and the condition of the patient is diagnosed;

step four: healthy patient switching;

if the patient is not affected, the doctor uses the trolley walking control console to switch the patient, the controller receives a signal for switching the patient, the controller controls the bidirectional walking trolley to drive the patient accommodating chamber to move to the side of the healthy walking channel, meanwhile, the controller controls the next bidirectional walking trolley to drive the patient accommodating chamber to move to the side of the transparent glass plate, and the moving track of the bidirectional walking trolley is set in advance through programming;

step five: disinfecting the patient accommodating chamber;

in the process that the bidirectional walking trolley drives the patient accommodating chamber to be close to the second health door, the first air outlet pipe is abutted to the connecting plate, the connecting plate pushes the flashboard, the flashboard opens the square notch, after the outer wall of the plastic box body is contacted with the pressure sensor, the first air outlet pipe covers the square notch at the moment, the pressure sensor transmits a signal to the controller, the controller controls the first air injection mechanism to work, the first air injection mechanism discharges sterilized gas, the sterilized gas enters the plastic box body along the first air outlet pipe, and then the inside of the plastic box body is sterilized;

step six: the healthy patient leaves;

in the disinfection process, a healthy patient can open the reverse door at any time, open the second health door, enter the square space, open the first health door and go out of the room from the square space;

step seven: further diagnosis of the affected patient;

if the patient is infected with the virus and needs to be further detected, a doctor uses the workbench to designate the bidirectional walking trolley to drive the patient accommodating chamber to move to the side of the negative pressure contact chamber, the patient opens the reverse door and the second access door to enable the infected patient to enter the standing board, then the doctor uses the control button to transmit a signal to the controller, the controller controls to start the air suction pump to enable the air suction pump to suck air into the air suction box along the air suction pipe, negative pressure is formed inside the accommodating chamber, the virus is pumped into an infected walking channel along the air suction pipe and the air suction pump, then the doctor opens the first access door, and the doctor enters the accommodating chamber to detect the condition of the infected patient;

step eight: the patient is determined to be infected, the patient leaves, and the negative pressure contact chamber is used for internal disinfection;

if the patient is judged to be infected, the patient opens the second exit door and enters the infected walking channel, the doctor opens the first entrance door and returns to the doctor working chamber, the doctor uses the control button to transmit a signal to the controller, the controller controls the start of the medicine spraying mechanism, the medicine spraying mechanism discharges disinfection gas into the accommodating chamber, the disinfection gas disinfects the inside of the accommodating chamber, the disinfection gas in the accommodating chamber is pumped out due to the air pumping action of the air pumping pump and enters the infected walking channel, the disinfection gas disinfects the inside of the infected walking channel, and after the disinfection is finished, the doctor uses the control button to stop the medicine spraying mechanism and the air pumping pump;

step nine: the patient does not have an illness, if the patient judges that the patient does not have an illness, the patient gets back to the patient and holds indoor, and the doctor gets back to in the doctor's studio, and the doctor is through using dolly walking control cabinet for controller control bidirectional walking dolly drives the patient and holds the room and remove the side to healthy walking passageway, and the patient repeats step five and step six that last appeal.

The invention has the beneficial effects that:

firstly, the anti-virus diagnosis room and the use method thereof avoid cross infection of patients during waiting for treatment by the fact that the patients to be treated respectively enter different patient accommodating rooms to wait for treatment. Secondly, the patient with the disease walks through the healthy walking channel and the sick patient walks through the sick walking channel, so that the infection between the sick patient and the healthy patient is avoided. Thirdly, when the patient diagnoses, the doctor switches the patient through the trolley walking console to see a doctor, and switches the wireless communication device with the patient through the microphone switching console, so that the transparent glass plate is of a closed structure, the passage communicated with each other is avoided, and the possibility of virus infection of the doctor is reduced. Fourthly, when the patient needs to be diagnosed, the patient and the doctor enter the negative pressure contact chamber, and the doctor makes contact diagnosis on the patient, so that the doctor can comprehensively diagnose the patient.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a perspective view of a patient holding room;

FIG. 4 is a partial perspective view of a doctor's office;

FIG. 5 is a schematic perspective view of the intake damper;

FIG. 6 is a schematic perspective view of the disinfecting and spraying mechanism;

FIG. 7 is a schematic perspective view of the negative pressure contact chamber;

FIG. 8 is a partial perspective view of the negative pressure contact chamber;

FIG. 9 is a schematic perspective view of the spraying mechanism;

in the figure:

1. a patient receiving chamber; 1a, a first wireless communicator; 1b, a main door; 1c, a reverse gate; 1d, an air inlet gate; 1d1, shutter; 1d2, connecting plate; 1d3, guide posts; 1d4, abutting spring; 1d5, guide plate; 1d6, positioning circular plate; 1e, a plastic seat; 1f, a plastic box body;

2. a healthy walking channel; 2a, a first health gate; 2b, a first healthy partition plate; 2c, a second healthy partition; 2c1, second health gate;

3. a diseased walking channel; 3a, a first virus gate; 3b, a first viral septum; 3c, a second viral septum;

4. a doctor's studio; 4a, a workbench; 4b, a second wireless communicator; 4c, a trolley traveling control platform; 4d, a microphone switching console; 4e, a doctor seat; 4f, doctor door;

5. a disinfecting and spraying mechanism; 5a, a pressure sensor; 5b, a first air outlet pipe; 5c, a first air injection mechanism;

6. a negative pressure contact chamber; 6a, a control button; 6b, a housing chamber; 6c, a first access door; 6d, a second access door; 6e, a second exit; 6f, standing the board; 6h, an exhaust pipe; 6i, an air pump; 6j, a spraying mechanism; 6j1, a second air injection mechanism; 6j2, hose; 6j3, mounting plate; 6j4, spray head; 6j5, connecting pipe; 6k, an air extraction box;

7. a detection zone; 8. a bidirectional traveling trolley; 9. a transparent glass plate; 10. a room wall; 11. the room is being opened.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; to better illustrate the embodiments of the present invention, some components of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product.

Referring to fig. 1 to 9, an anti-virus diagnosis room comprises a healthy walking channel 2, an infected walking channel 3, a doctor working chamber 4, a negative pressure contact chamber 6 and a detection area 7, wherein the healthy walking channel 2, the infected walking channel 3, the doctor working chamber 4, the negative pressure contact chamber 6 and the detection area 7 jointly form a large room, the detection area 7 is connected with the healthy walking channel 2 and the negative pressure contact chamber 6, the doctor working chamber 4 is connected with one side of the negative pressure contact chamber 6, the infected walking channel 3 is connected with the other side of the negative pressure contact chamber 6, a transparent glass plate 9 is arranged between the doctor working chamber 4 and the detection area 7, a plurality of patient accommodating chambers 1 are arranged in the detection area 7, a bidirectional walking trolley 8 is arranged at the bottom of each patient accommodating chamber 1, a disinfection spraying mechanism 5 is further arranged in the detection area 7, the disinfection spraying mechanism 5 is arranged beside the healthy walking channel 2, the bidirectional walking trolley 8 is electrically connected with the controller, and a plurality of room front doors 11 connected with the patient accommodating room 1 are arranged on the room wall 10.

The patient accommodation chamber 1 comprises a plastic box body 1f, a bidirectional walking trolley 8 is located at the lower end of the plastic box body 1f and is connected with the plastic box body 1f, a front door 1b of the plastic box body 1f is rotatably installed on one side of the plastic box body 1f, a back door 1c is rotatably installed on the other side of the plastic box body 1f, a first wireless communicator 1a is fixedly installed on the outer wall of the plastic box body 1f, a plastic seat 1e is fixedly installed on the inside of the plastic box body 1f, an air inlet gate 1d is fixedly installed on the outer wall of the plastic box body 1f, a square notch is formed in the wall of the plastic box body 1f, the air inlet gate 1d covers the square notch, the first wireless communicator 1a is electrically connected with a controller, and the back door 1c and the front door 1b are both made of transparent materials. When a patient goes for a doctor, the patient enters the plastic box body 1f by opening the front door 11 of the room, opening the front door 1b, then sits on the plastic seat 1e and waits for the calling of the doctor, and when the patient leaves the plastic box body 1f, the patient is opened by the back door 1c, and the patient communicates with the doctor through the first wireless communicator 1 a.

Through setting up a plurality of patient and holding room 1, the patient enters into independent plastics box 1f in the back, prevents that the patient from bringing the infection risk because of waiting to see a doctor in being in a space.

Doctor's studio 4 includes workstation 4a, second wireless communicator 4b, dolly walking control cabinet 4c, microphone switching control cabinet 4d and doctor's seat 4e, through the passageway 3 of going ill, healthy walking passageway 2, transparent glass board 9 and room wall 10 form the special room of doctor, workstation 4a and doctor's seat 4e all place in the special room of doctor, dolly walking control cabinet 4c, microphone switching control cabinet 4d and the equal fixed mounting of second wireless communicator 4b are on workstation 4a, and dolly walking control cabinet 4c, microphone switching control cabinet 4d and microphone switching control cabinet 4d all are connected with the controller electricity, and workstation 4a is located the side of transparent glass board 9. The doctor appoints the corresponding bidirectional walking trolley 8 to move by using the trolley walking control platform 4c, the trolley walking control platform 4c transmits a signal to the controller, and the controller controls the bidirectional walking trolley 8 to move, so that the bidirectional walking trolley 8 drives a patient appointed by the doctor to reach the side of the transparent glass plate 9.

The doctor is through using microphone switching control cabinet 4d to appointing to correspond first wireless communicator 1a in patient accommodation room 1 and connecting, microphone switching control cabinet 4d will convey the signal to the controller, the controller will control appointed first wireless communicator 1a and work, when making the doctor aim at second wireless communicator 4b and speak, the words that second wireless communicator 4b accepted will be conveyed to first wireless communicator 1a, make the patient that is located patient accommodation room 1 can hear the words that the doctor said, otherwise, the words that the patient said will be spread from second wireless communicator 4b, make patient and doctor communicate, and then diagnose patient's state of an illness.

If the diagnosis patient does not have the infectivity and needs to be further detected, the doctor uses the trolley walking control platform 4c to switch the patient, the controller receives a signal for switching the patient, the controller controls the bidirectional walking trolley 8 to drive the patient accommodating chamber 1 to move to the side of the healthy walking channel 2, meanwhile, the controller controls the next bidirectional walking trolley 8 to drive the patient accommodating chamber 1 to move to the side of the transparent glass plate 9, and the moving track of the bidirectional walking trolley 8 is set in advance through programming.

If the patient is infected with virus and needs to be further detected, the doctor uses the workbench 4a to designate the bidirectional walking trolley 8 to drive the patient accommodating chamber 1 to move to the side of the negative pressure contact chamber 6, and the doctor and the patient both enter the negative pressure contact chamber 6 to communicate.

The air inlet gate 1d comprises a gate plate 1d1, a connecting plate 1d2, a guide plate 1d5, two guide posts 1d3, abutting springs 1d4 and positioning round plates 1d6, wherein the gate plate 1d1 covers a square gap, the connecting plate 1d2 is fixedly installed on the gate plate 1d1, one ends of the two guide posts 1d3 are fixedly connected with the connecting plate 1d2, the guide plate 1d5 is fixedly installed on a plastic box body 1f, the other ends of the two guide posts 1d3 penetrate through the guide plate 1d5, the two positioning round plates 1d6 are fixedly installed on the other ends of the guide posts 1d3, the two abutting springs 1d4 are respectively sleeved on the two guide posts 1d3, one end of each abutting spring 1d4 abuts against the connecting plate 1d2, and the other end of each spring 1d4 abuts against the guide plate 1d 5. After the disinfection spraying mechanism 5 collides with the connecting plate 1d2, the connecting plate 1d2 pushes the guide post 1d3, so that the shutter 1d1 no longer covers the square notch, and further the gas discharged from the disinfection spraying mechanism 5 can pass through the square notch and enter the plastic box 1 f.

The healthy walking channel 2 comprises a first healthy door 2a, a first healthy partition board 2b and a second healthy partition board 2c, the first healthy partition board 2b, the second healthy partition board 2c and a room wall 10 form a square space, one end of the first healthy partition board 2b is fixedly connected with the room wall 10, one end of the second healthy partition board 2c is fixedly connected with the room wall 10, the other end of the first healthy partition board 2b is fixedly connected with the other end of the second healthy partition board 2c, the first healthy door 2a for enabling a healthy patient to walk out of the square space is installed on the room wall 10, the first healthy door 2a is rotatably connected with the room wall 10, and the second healthy partition board 2c is provided with a second healthy door 2c1 capable of rotating. The patient who does not need isolation and treatment opens the reverse door 1c, opens the second health door 2c1 again, enters into the square space, opens the first health door 2a again, and then goes out of the room from the square space.

Through adopting healthy walking passageway 2 and sick walking passageway 3 for healthy patient can walk two kinds of passageways with the sick patient, has avoided the risk of cross infection in the passageway.

Disinfection spraying mechanism 5 includes pressure sensor 5a, first outlet duct 5b and first air injection mechanism 5c, first air injection mechanism 5c fixed mounting is subaerial, and first air injection mechanism 5c is located detection zone 7, pressure sensor 5a fixed mounting is on the healthy baffle 2c of second, offer the bar breach that is used for holding pressure sensor 5a on the healthy baffle 2c of second, first outlet duct 5b fixed mounting is on first air injection mechanism 5 c's gas outlet, first outlet duct 5b passes through stay tube and wall fixed connection, and first outlet duct 5b is connected with connecting plate 1d2 transmission. In the process that two-way walking trolley 8 drives patient accommodation chamber 1 to be close to second healthy door 2c1, first outlet duct 5b will contradict with connecting plate 1d2, make connecting plate 1d2 promote flashboard 1d1, make flashboard 1d1 open square notch, after the outer wall of plastic box 1f contacts with pressure sensor 5a, first outlet duct 5b will cover and establish on square notch this moment, pressure sensor 5a will give the controller signal transmission, the first jet-propelled mechanism 5c of controller will control works, make first jet-propelled mechanism 5c discharge sterile gas, enter into plastic box 1f along first outlet duct 5b again, and then disinfect to the inside of plastic box 1 f.

The infection walking channel 3 comprises a first virus door 3a, a first virus partition plate 3b and a second virus partition plate 3c, one end of the second virus partition plate 3c is fixedly connected with a room wall 10, the other end of the second virus partition plate 3c is fixedly connected with a negative pressure contact chamber 6, one end of the first virus partition plate 3b is fixedly connected with the room wall 10, the other end of the first virus partition plate 3b is fixedly connected with the negative pressure contact chamber 6, the second virus partition plate 3c, the first virus partition plate 3b, the negative pressure contact chamber 6 and the room wall 10 form a square space, and the first virus door 3a can be rotatably installed on the room wall 10. Through the patient from the negative pressure contact chamber 6 in, enter the square space, the patient that infects opens first virus door 3a again for the patient that infects walks out from first virus door 3a, and gets into in the isolation region.

The negative pressure contact chamber 6 comprises a control button 6a, a containing chamber 6b, a first entrance door 6c, a second entrance door 6d, a second exit door 6e, a standing plate 6f, an air exhaust tube 6h, an air exhaust pump 6i and a medicine spraying mechanism 6j, the containing chamber 6b is fixedly arranged on the ground, the second entrance door 6d, the first entrance door 6c and the second exit door 6e are rotatably arranged on the containing chamber 6b, the second entrance door 6d is positioned at one side of the containing chamber 6b close to the detection area 7, the first entrance door 6c is positioned at one side of the containing chamber 6b close to the doctor working chamber 4, the second exit door 6e is positioned at one side of the containing chamber 6b close to the infection walking channel 3, the control button 6a is fixedly arranged on the containing chamber 6b, the control button 6a is positioned at one side of the containing chamber 6b close to the doctor working chamber 4, the standing plate 6f is fixedly arranged in the containing chamber 6b, and the standing plate 6f is positioned below the first inlet door 6c, the air pumping box 6k is positioned below the standing plate 6f, an air guide pipe is arranged on one side of the air pumping box 6k, one end of the air pumping pipe 6h is fixedly connected with the air guide pipe, the other end of the air pumping pipe 6h is fixedly connected with an air pumping port of an air pumping pump 6i, the air pumping pump 6i is positioned at the side of the accommodating chamber 6b, an air outlet of the air pumping pump 6i is of an open structure, the medicine spraying mechanism 6j for spraying air is positioned above the standing plate 6f, and the medicine spraying mechanism 6j is fixedly installed on the accommodating chamber 6 b. When close communication between the patient and the doctor is required, the patient opens the second access door 6d, so that the patient enters the standing board 6f, and then the doctor uses the control button 6a, the control button 6a transmits a signal to the controller, the controller controls the air pump 6i to be started, so that the air pump 6i pumps air into the air pumping box 6k along the air pumping pipe 6h, so that a negative pressure is formed inside the accommodation chamber 6b, so that the virus is sucked into the infected walking passage 3 along the suction pipe 6h and the suction pump 6i, and the doctor opens the first access door 6c, and the doctor enters the accommodating chamber 6b, the doctor detects the condition of the patient with the infection, if the patient is judged to be infected, the patient opens the second exit door 6e and enters the infection walking channel 3, and the doctor opens the first entrance door 6c and returns to the doctor working chamber 4;

use control button 6a through the doctor again, control button 6a will give the controller to the signal transmission, the controller will control the start-up and spout medicine mechanism 6j, make it to holding room 6b internal discharge disinfection gas to spout medicine mechanism 6j, disinfection gas is disinfected to holding room 6b inside, and because aspiration pump 6 i's the effect of bleeding, will make the disinfection gas that holds in the room 6b taken out, and enter into the passageway of walking of contracting a disease 3 in, disinfect the disinfection through disinfection gas to the passageway of walking of contracting a disease 3 inside.

The pesticide spraying mechanism 6j comprises a second gas spraying mechanism 6j1, a hose 6j2, a mounting plate 6j3, a connecting pipe 6j5 and a plurality of spray heads 6j4, wherein the mounting plate 6j3 is fixedly mounted at the top of the inner side of the accommodating chamber 6b, the spray heads 6j4 are fixedly mounted on the mounting plate 6j3, air inlet pipes of the spray heads 6j4 are connected with the connecting pipe 6j5, an air outlet pipe connected with the spray heads 6j4 is arranged on the connecting pipe 6j5, one end of the hose 6j2 is connected with the connecting pipe 6j5, an air inlet pipe connected with the hose 6j2 is arranged on the connecting pipe 6j5, the other end of the hose 6j2 is fixedly connected with an air outlet of the second gas spraying mechanism 6j1, and the air suction pump 6i1 is fixedly mounted. The doctor uses the control button 6a, the control button 6a transmits a signal to the controller, the controller controls to start the second air injection mechanism 6j1, the disinfection gas sprayed out of the second air injection mechanism 6j1 enters the connecting pipe 6j5 along the hose 6j2, and then the plurality of spray heads 6j4 are supplied along the connecting pipe 6j5, so that the disinfection gas is sprayed out along the spray heads 6j4, the sprayed disinfection gas is used for sterilizing and disinfecting the inside of the containing chamber 6b, and due to the air pumping action of the air pumping pump 6i, the disinfection gas in the containing chamber 6b is pumped out and enters the infectious disease walking channel 3, and the inside of the infectious disease walking channel 3 is sterilized and disinfected through the disinfection gas.

when a patient goes to a clinic, the patient enters the plastic box body 1f by opening the front door 11 of the room and then opening the front door 1b, and then sits on the plastic seat 1e for waiting for the calling of a doctor;

step two: doctor paging;

when a doctor visits a doctor, the doctor designates the corresponding bidirectional walking trolley 8 to move by using the trolley walking control platform 4c, the trolley walking control platform 4c transmits a signal to the controller, and the controller controls the bidirectional walking trolley 8 to move, so that the bidirectional walking trolley 8 drives a patient designated by the doctor to reach the side of the transparent glass plate 9;

step three: diagnosing by a doctor;

a doctor designates a first wireless communicator 1a in a corresponding patient accommodating room 1 to be connected by using a microphone switching console 4d, the microphone switching console 4d transmits signals to a controller, the controller controls the designated first wireless communicator 1a to work, so that when the doctor speaks aiming at a second wireless communicator 4b, the words received by the second wireless communicator 4b are transmitted to the first wireless communicator 1a, the patient in the patient accommodating room 1 can hear the words spoken by the doctor, otherwise, the words spoken by the patient are transmitted from the second wireless communicator 4b, so that the patient communicates with the doctor, and the condition of the patient is diagnosed;

step four: healthy patient switching;

if no obstacle exists, the doctor uses the trolley walking control platform 4c to switch patients, the controller receives a signal for switching the patients, the controller controls the bidirectional walking trolley 8 to drive the patient accommodating chamber 1 to move to the side of the healthy walking channel 2, meanwhile, the controller controls the next bidirectional walking trolley 8 to drive the patient accommodating chamber 1 to move to the side of the transparent glass plate 9, and the moving track of the bidirectional walking trolley 8 is set in advance through programming;

step five: disinfecting the patient accommodating chamber;

in the process that the bidirectional walking trolley 8 drives the patient accommodating chamber 1 to be close to the second health door 2c1, the first air outlet pipe 5b is abutted against the connecting plate 1d2, the connecting plate 1d2 pushes the flashboard 1d1, the flashboard 1d1 opens the square notch, when the outer wall of the plastic box body 1f is contacted with the pressure sensor 5a, the first air outlet pipe 5b is covered on the square notch, the pressure sensor 5a transmits a signal to the controller, and the controller controls the first air injection mechanism 5c to work, so that the first air injection mechanism 5c exhausts the sterilized air, then enters the plastic box body 1f along the first air outlet pipe 5b, and the interior of the plastic box body 1f is sterilized;

step six: the healthy patient leaves;

in the disinfection process, a healthy patient can open the reverse door 1c at any time, open the second health door 2c1 to enter the square space, open the first health door 2a and go out of the room from the square space;

step seven: further diagnosis of the affected patient;

if the patient is infected with virus and needs to be further detected, a doctor uses the workbench 4a to designate the bidirectional walking trolley 8 to drive the patient accommodating chamber 1 to move to the side of the negative pressure contact chamber 6, the patient opens the reverse door 1c and the second access door 6d to enable the infected patient to enter the standing plate 6f, then the doctor uses the control button 6a, the control button 6a transmits a signal to the controller, the controller controls to start the air suction pump 6i, the air suction pump 6i pumps air into the air suction box 6k along the air suction pipe 6h to enable the accommodating chamber 6b to form negative pressure inside, the virus is pumped into the infected walking channel 3 along the air suction pipe 6h and the air suction pump 6i, then the doctor opens the first access door 6c, and the doctor enters the accommodating chamber 6b to detect the condition of the infected patient;

if the patient is judged to be infected with a disease, the patient opens the second exit door 6e and enters the infected walking channel 3, the doctor opens the first entrance door 6c and returns to the doctor working chamber 4, the doctor uses the control button 6a to transmit a signal to the controller, the controller controls the medicine spraying mechanism 6j to be started, the medicine spraying mechanism 6j discharges disinfectant gas into the accommodating chamber 6b, the disinfectant gas disinfects the inside of the accommodating chamber 6b, the disinfectant gas in the accommodating chamber 6b is pumped out due to the pumping action of the air pumping pump 6i and enters the infected walking channel 3, the inside of the infected walking channel 3 is sterilized and disinfected through the disinfectant gas, and after the disinfection is finished, the doctor stops the medicine spraying mechanism and the air pumping pump by using the control button;

step nine: the patient does not have an illness, if the patient judges that the patient does not have an illness, the patient gets back to the patient and holds in room 1, and the doctor gets back to in the doctor studio 4, the doctor is through using dolly walking control cabinet 4c for controller control two-way walking dolly 8 drives patient and holds room 1 and move the side of healthy walking passageway 2, and the patient repeats step five and step six of appealing to the ward.

The working principle is as follows: when a patient goes to a clinic, the patient enters the plastic box body 1f by opening the front door 11 of the room and then opening the front door 1b, and then sits on the plastic seat 1e for waiting for the calling of a doctor;

if the patient judges that the patient is not infected with a disease, the patient returns to the patient accommodating chamber 1, the doctor returns to the doctor working chamber 4, and the doctor uses the trolley walking control console 4c to enable the controller to control the bidirectional walking trolley 8 to drive the patient accommodating chamber 1 to move to the side of the healthy walking channel 2.

Claims

1. An antivirus diagnosis room is characterized by comprising a room which is formed by a healthy walking channel (2), an infection walking channel (3), a doctor working room (4), a negative pressure contact room (6) and a detection area (7), wherein the healthy walking channel (2), the infection walking channel (3), the doctor working room (4), the negative pressure contact room (6) and the detection area (7) are combined together; the detection area (7) is respectively connected and communicated with the healthy walking channel (2) and the negative pressure contact chamber (6), the doctor working chamber (4) is connected and communicated with one side of the negative pressure contact chamber (6), and the infection walking channel (3) is connected and communicated with the other side of the negative pressure contact chamber (6); a transparent glass plate (9) is arranged between the doctor working room (4) and the detection area (7); be provided with a plurality of patient in detection zone (7) and hold room (1), the bottom that every patient held room (1) all is provided with two-way walking dolly (8), and still be provided with disinfection spraying mechanism (5) in detection zone (7), disinfection spraying mechanism (5) are located the side of healthy walking passageway (2), two-way walking dolly (8) are connected with the controller electricity, be provided with on room wall (10) a plurality of and patient and hold room (1) and be connected and communicating room front door (11).

2. The anti-virus diagnostic room of claim 1, wherein: patient accommodation chamber (1) includes plastics box (1 f), two-way walking dolly (8) be located plastics box (1 f) lower extreme and be connected with plastics box (1 f), the rotatable one side of installing in plastics box (1 f) of positive door (1 b) of plastics box (1 f), the rotatable opposite side of installing in plastics box (1 f) of contrary door (1 c), first wireless communication ware (1 a) fixed mounting is on the outer wall of plastics box (1 f), plastics seat (1 e) fixed mounting is on the inside of plastics box (1 f), admit air gate (1 d) fixed mounting is on the outer wall of plastics box (1 f), square notch has been seted up on the wall of plastics box (1 f), admit air gate (1 d) lid is established on square notch, first wireless communication ware (1 a) is connected with the controller electricity, the contrary door (1 c) and positive door (1 b) all adopt transparent material to make and form.

3. The room of claim 2 wherein the doctor's office (4) comprises a table (4 a), a second wireless communicator (4 b), a trolley travel console (4 c), a microphone switching console (4 d) and a doctor's seat (4 e); the doctor working room (4) is enclosed by the infection walking channel (3), the health walking channel (2), the transparent glass plate (9) and the room wall (10) and is isolated into a doctor special room; workstation (4 a) and doctor seat (4 e) all place in doctor's special room, dolly walking control platform (4 c), microphone switching control platform (4 d) and the equal fixed mounting of second wireless communication ware (4 b) are on workstation (4 a), and dolly walking control platform (4 c), microphone switching control platform (4 d) and microphone switching control platform (4 d) all are connected with the controller electricity, and workstation (4 a) are located the side of transparent glass board (9).

4. The anti-virus diagnostic room of claim 3, wherein: the air inlet gate (1 d) comprises a gate plate (1 d 1), a connecting plate (1 d 2), a guide plate (1 d 5), two guide columns (1 d 3), an abutting spring (1 d 4) and a positioning circular plate (1 d 6); the gate plate (1 d 1) is covered on the square gap, the connecting plate (1 d 2) is fixedly arranged on the gate plate (1 d 1), and one end of each of the two guide columns (1 d 3) is fixedly connected with the connecting plate (1 d 2); guide plate (1 d 5) fixed mounting is on plastics box (1 f), guide plate (1 d 5) is passed to the other end of two guide pillars (1 d 3), on the other end of two positioning circular plate (1 d 6) fixed mounting guide pillar (1 d 3), two conflict springs (1 d 4) are established respectively on two guide pillars (1 d 3), the one end of each conflict spring (1 d 4) is contradicted with connecting plate (1 d 2), the other end of each conflict spring (1 d 4) is contradicted with guide plate (1 d 5).

5. The antivirus diagnostic house according to claim 4, wherein the healthy walking passage (2) comprises a first healthy door (2 a), a first healthy partition (2 b), and a second healthy partition (2 c), the first healthy partition (2 b), the second healthy partition (2 c), and the room wall (10) form a square space, one end of the first health clapboard (2 b) is fixedly connected with the wall (10) of the room, one end of the second health clapboard (2 c) is fixedly connected with the wall (10) of the room, the other end of the first health clapboard (2 b) is fixedly connected with the other end of the second health clapboard (2 c), a first healthy door (2 a) for healthy patient to walk out square space is installed on room wall (10), first healthy door (2 a) and room wall (10) rotate and are connected, are provided with second healthy door (2 c 1) that can rotate on second healthy baffle (2 c).

6. The room of claim 5 wherein the disinfecting spray means (5) comprises a pressure sensor (5 a), a first air outlet pipe (5 b) and a first air injection means (5 c); first jet-propelled mechanism (5 c) fixed mounting is subaerial, and first jet-propelled mechanism (5 c) are located detection zone (7), pressure sensor (5 a) fixed mounting is on the healthy baffle of second (2 c), offer the bar breach that is used for holding pressure sensor (5 a) on the healthy baffle of second (2 c), first outlet duct (5 b) fixed mounting is on the gas outlet of first jet-propelled mechanism (5 c), first outlet duct (5 b) are through stay tube and wall fixed connection, and first outlet duct (5 b) are connected with connecting plate (1 d 2) transmission.

7. The room of claim 6 wherein the infection walking path (3) comprises a first virus gate (3 a), a first virus partition (3 b) and a second virus partition (3 c); one end and room wall (10) fixed connection of second virus baffle (3 c), the other end and negative pressure contact chamber (6) fixed connection, the one end and room wall (10) fixed connection of first virus baffle (3 b), the other end and negative pressure contact chamber (6) fixed connection, second virus baffle (3 c), first virus baffle (3 b), negative pressure contact chamber (6) and room wall (10) form square space, first virus door (3 a) can the pivoted install on room wall (10).

8. The antivirus diagnostic house according to claim 7, wherein the negative pressure contact room (6) comprises a control button (6 a), a housing room (6 b), a first entrance door (6 c), a second entrance door (6 d), a second exit door (6 e), a standing board (6 f), an air suction pipe (6 h), an air suction pump (6 i), and a medicine spraying mechanism (6 j); the containing chamber (6 b) is fixedly arranged on the ground, the second entrance door (6 d), the first entrance door (6 c) and the second exit door (6 e) are rotatably arranged on the containing chamber (6 b), the second entrance door (6 d) is positioned on one side of the containing chamber (6 b) close to the detection area (7), the first entrance door (6 c) is positioned on one side of the containing chamber (6 b) close to the doctor working chamber (4), the second exit door (6 e) is positioned on one side of the containing chamber (6 b) close to the infection walking channel (3), the control button (6 a) is fixedly arranged on the containing chamber (6 b), the control button (6 a) is positioned on one side of the containing chamber (6 b) close to the doctor working chamber (4), the standing plate (6 f) is fixedly arranged in the containing chamber (6 b), the standing plate (6 f) is positioned below the first entrance door (6 c), and the air pumping box (6 k) is positioned below the standing plate (6 f), and be provided with the air duct on one side of bleed box (6 k), the one end and the air duct fixed connection of exhaust tube (6 h), the other end of exhaust tube (6 h) and the extraction opening fixed connection of aspiration pump (6 i), aspiration pump (6 i) are located the side that holds room (6 b), and the gas outlet of exhaust pump (6 i) is uncovered structure, it is located the top of standing board (6 f) to be used for air-jet medicine mechanism (6 j) that spouts, and spout medicine mechanism (6 j) fixed mounting on holding room (6 b).

9. The antivirus diagnosis room according to claim 8, characterized in that the spraying mechanism (6 j) comprises a second spraying mechanism (6 j 1), a hose (6 j 2), a mounting plate (6 j 3), a connecting pipe (6 j 5) and a plurality of spraying heads (6 j 4), the mounting plate (6 j 3) is fixedly installed on the top of the inner side of the containing chamber (6 b), the plurality of spraying heads (6 j 4) are all fixedly installed on the mounting plate (6 j 3), and the air inlet pipes of the plurality of spray heads (6 j 4) are all connected with a connecting pipe (6 j 5), the connecting pipe (6 j 5) is provided with an air outlet pipe connected with the spray heads (6 j 4), one end of the hose (6 j 2) is connected with the connecting pipe (6 j 5), the connecting pipe (6 j 5) is provided with an air inlet pipe connected with the hose (6 j 2), the other end of the hose (6 j 2) is fixedly connected with the air outlet of the second air injection mechanism (6 j 1), and the air extraction pump (6 i) 1 is fixedly installed on the ground.

10. The use method of the anti-virus diagnosis room is characterized by comprising the following steps:

when a patient goes to a clinic, the front door (11) of the room is opened, then the front door (1 b) is opened to enter the plastic box body (1 f), and then the patient sits on the plastic seat (1 e) to wait for the calling of a doctor;

step two: doctor paging;

when a doctor visits a doctor, the doctor designates the corresponding bidirectional walking trolley (8) to move by using the trolley walking control platform (4 c), the trolley walking control platform (4 c) transmits a signal to the controller, and the controller controls the bidirectional walking trolley (8) to move, so that the bidirectional walking trolley (8) drives a patient designated by the doctor to reach the side of the transparent glass plate (9);

step three: diagnosing by a doctor;

a doctor designates a first wireless communicator (1 a) in a corresponding patient accommodating room (1) to be connected by using a microphone switching console (4 d), the microphone switching console (4 d) transmits a signal to a controller, and the controller controls the designated first wireless communicator (1 a) to work, so that when the doctor speaks aiming at a second wireless communicator (4 b), the utterance received by the second wireless communicator (4 b) is transmitted to the first wireless communicator (1 a), the patient in the patient accommodating room (1) can hear the utterance spoken by the doctor, otherwise, the utterance spoken by the patient is transmitted from the second wireless communicator (4 b), so that the patient communicates with the doctor, and the condition of the patient is diagnosed;

step four: healthy patient switching;

if the patient is not in trouble, the doctor uses the trolley walking control console (4 c) to switch the patient, the controller receives a signal for switching the patient, the controller controls the bidirectional walking trolley (8) to drive the patient accommodating chamber (1) to move to the side of the healthy walking channel (2), meanwhile, the controller controls the next bidirectional walking trolley (8) to drive the patient accommodating chamber (1) to move to the side of the transparent glass plate (9), and the moving track of the bidirectional walking trolley (8) is set in advance through programming;

step five: disinfecting the patient accommodating chamber;

in the process that the bidirectional walking trolley (8) drives the patient accommodating chamber (1) to be close to the second health door (2 c 1), the first air outlet pipe (5 b) is abutted to the connecting plate (1 d 2), the connecting plate (1 d 2) pushes the flashboard (1 d 1), the flashboard (1 d 1) opens the square notch, after the outer wall of the plastic box body (1 f) is contacted with the pressure sensor (5 a), the first air outlet pipe (5 b) covers the square notch, the pressure sensor (5 a) transmits a signal to the controller, the controller controls the first air injection mechanism (5 c) to work, the first air injection mechanism (5 c) discharges sterilized gas, the sterilized gas enters the plastic box body (1 f) along the first air outlet pipe (5 b), and the interior of the plastic box body (1 f) is sterilized;

step six: the healthy patient leaves;

in the disinfection process, a healthy patient can open the reverse door (1 c) at any time, open the second health door (2 c 1) to enter the square space, open the first health door (2 a) and go out of the room from the square space;

step seven: further diagnosis of the affected patient;

if the patient is infected with virus and needs to be further detected, a doctor uses the workbench (4 a) to designate the bidirectional walking trolley (8) to drive the patient accommodating chamber (1) to move to the side of the negative pressure contact chamber (6), the patient opens the reverse door (1 c) and the second access door (6 d) to enable the infected patient to enter the standing plate (6 f), the doctor uses the control button (6 a), the control button (6 a) transmits a signal to the controller, the controller controls to start the air suction pump (6 i) to enable the air suction pump (6 i) to suck air into the air suction box (6 k) along the air suction pipe (6 h) to enable negative pressure to be formed inside the accommodating chamber (6 b), the virus is sucked into the infected walking channel (3) along the air suction pipe (6 h) and the air suction pump (6 i), and the doctor opens the first access door (6 c), and the doctor enters the containing chamber (6 b) and detects the condition of the patient infected with the disease;

if the patient is judged to be infected with a disease, the patient opens the second exit door (6 e) and enters the infected walking channel (3), the doctor opens the first entrance door (6 c) and returns to the doctor working chamber (4), then the doctor uses the control button (6 a), the control button (6 a) transmits a signal to the controller, the controller controls the start of the medicine spraying mechanism (6 j), so that the pesticide spraying mechanism (6 j) discharges disinfectant gas into the containing chamber (6 b), the disinfectant gas disinfects the inside of the containing chamber (6 b), and the sterilizing gas in the containing chamber (6 b) is pumped out due to the pumping action of the air pump (6 i), and enters the infected walking channel (3) to sterilize and disinfect the interior of the infected walking channel (3) through the disinfection gas, after the disinfection is finished, the doctor stops the operation of the medicine spraying mechanism and the air suction pump by using the control button;

step nine: the patient does not have an infection, if the patient judges that the patient does not have an infection, the patient returns to the patient accommodating room (1), the doctor returns to the doctor working room (4), and the doctor drives the patient accommodating room (1) to move to the side of the healthy walking channel (2) by using the trolley walking control console (4 c) under the control of the controller to control the bidirectional walking trolley (8), and the patient repeats the fifth step and the sixth step.