AU2021100824A4 - Detachable mobile negative pressure isolation ward - Google Patents

Abstract

The present invention discloses a detachable mobile negative pressure isolation ward, which comprises a cabin and a negative pressure forming module, the cabin is divided into a treatment area and a buffer zone by an isolation wall, and both the treatment area and the buffer zone are provided with inlet ports and exhaust ports, the negative pressure forming module sends filtered fresh air to the treatment area and the buffer zone through the exhaust port, and discharges the air in the treatment area and the buffer zone through the inlet port, the negative pressure forming module maintains the treatment, the exhaust air volume of the area is greater than the air supply volume so as to form a negative pressure environment in the treatment area and the air supply volume of the buffer zone is greater than the exhaust air volume to form a positive pressure environment in the buffer zone to ensure the air flow from the buffer zone to the end of the treatment area outside the cabin. The invention can solve the temporary treatment when the grassroots hospitals and most general hospitals without special negative pressure ward in a sudden infectious disease occurs. 3-1 3-61-2 13 2-1 2-2 - - 2-9 2 Fig.51 \3_ \3 Fig. 2 1/1

Description

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DETACHABLE MOBILE NEGATIVE PRESSURE ISOLATION WARD FIELD OF THE INVENTION

[0001] The present invention relates to the technical field of medical equipment, in

particular to detachable mobile negative pressure isolation ward.

BACKGROUND OF THE INVENTION

[0002] The function of the pressure isolation ward is to isolate and observe the

infected or contaminated persons during the outbreak of the epidemic or the

biochemical war, with the aim of avoiding widespread transmission, protection of

medical staff and prevention of environmental pollution. Studies have found that

isolation prevention measures adopted in the current domestic and foreign during

major infectious disease epidemics or biochemical wars are mainly as follows: the

first, prevention and treatment are carried out through special pressure isolation

wards, however, these pressure isolation wards are only smally equipped in some

hospitals and cannot respond to large-scale outbreaks of the epidemic, in addition,

these pressure wards are chronically vacant or have a low utilization rate, which leads

to waste of resources; the second, the rehabilitation of existing general wards or the

special construction of isolation wards, however, both of which can take a significant

amount of time and money to renovate and build, resulting in a timely and effective

response to the outbreak and a high cost; in addition, during the major infectious

diseases outbreaks or biochemical war, there is no special isolation ward in domestic

to maximize the protection of medical staff from infection and environmental air

pollution when treating the infectious diseases (injured) in isolation .

SUMMARY OF THE INVENTION

[0003] In order to overcome the above shortcomings, the present invention provides the detachable mobile negative pressure isolation ward, the ward is isolated into two areas, one area is used as a ward area (treatment area) for the treatment and isolation of infectious patients; the other is used as a buffer zone for temporary work and rest and isolation of relevant medical staff, which is effective in responding to the epidemic while maximizing the protection of medical staff from infection to the utmost extent and preventing environmental air pollution.

[0004] The present invention is realized through the following technical solutions:

[0005] Detachable mobile negative pressure isolation ward, it comprises a cabin and a negative pressure forming module, the cabin is divided into a treatment area and a

buffer zone by an isolation wall, both the treatment area and the buffer zone are provided with inlet ports and exhaust ports, the negative pressure forming module

sends filtered fresh air to the treatment area and the buffer zone through the inlet port,

and discharges the air in the treatment area and the buffer zone through the exhaust

port, the negative pressure forming module keeps the exhaust air volume of the

treatment area greater than the air volume, thereby the treatment area forms a negative

pressure environment and maintains that the air supply volume of the buffer zone is

greater than the exhaust air volume so as to form a positive pressure environment in

the buffer zone to ensure that the air flows from the buffer zone to the treatment area and finally to the cabin outside.

[0006] The principle of the present invention is that: by setting a negative pressure forming module, the treatment area maintains a negative pressure environment and

the buffer zone maintains a positive pressure environment, to ensure an orderly flow

of air from the buffer zone-the treatment area-outside the cabin, on the one hand, to

prevent the contaminated and toxic bacteria-carrying gas in the treatment area from

flowing back to the buffer zone to infect medical staff; on the other hand, the

contaminated gas can be disinfected and filtered before being discharged into the

atmosphere outside the cabin to prevent environmental pollution.

[0007] Further, the negative pressure forming module of the present invention comprises an air intake system and an exhaust system, wherein the air intake system comprises a first air filter, an air conditioner, a first blower and an inlet air pipe; the fresh air passes through the first air filter after filtering, the fresh air enters the air conditioner for temperature and humidity adjustment, and then the first blower sends it to the buffer zone and the treatment area through the inlet port of the inlet air pipe; the exhaust system comprises a second air filter, a disinfection device, and a second blower and the exhaust pipe, the contaminated air in the buffer zone and the treatment area discharged through the exhaust port is discharged into the atmosphere by the second blower after the disinfection and filtration treatment of the gas by the disinfection device and the second air filter. The fresh air and exhaust air of the present invention are respectively passed through the inlet port and exhaust port independently arranged in the buffer zone and the treatment area, and the pressure of each space area is formed by the relative relationship of the air supply and exhaust volume (the buffer zone is positive pressure, and the treatment area is negative pressure), so that the air flows in an orderly manner from the buffer zone to the treatment area, effectively preventing the infection of medical staff from the polluted air entering the buffer zone, and the polluted air is disinfected and filtered before being discharged outside the cabin to prevent pollution surroundings.

[0008] Further, the disinfection device of the present invention adopts, but is not limited to, an ultraviolet or plasma disinfector.

[0009] Further, the negative pressure of the treatment area of the present invention is preferably -5 to -15 Pa.

[0010] Further, the entrance of the cabin of the present invention is an automatic induction door, and thermal insulation, sound insulation and fireproof material for the

inner wall of the cabin liner; the isolation wall is provided with an automatic

induction isolation door, and the isolation wall is also provided with a transfer

window. The present invention is provided with the automatic induction type isolation

door and the transfer window, which can effectively reduce the contact infection of

medical staff and further improve the safety of medical staff.

[0011] Further, the buffer zone of the present invention is provided with a monitoring platform, the treatment area is provided with a monitoring system, the monitoring system comprises a camera, a sensor and a monitor, the camera is used to collect image data of the treatment area and transmit it to a monitoring platform, the sensor is used to monitor the temperature, humidity and pressure data of the treatment area and transmit it to the monitoring platform, and the monitor is used to monitor the patient's

ECG data and respiration data and transmit it to the monitoring platform, the

monitoring platform is connected with the remote monitoring system through a

wireless transmission network. The present invention utilizes the monitoring system

and the monitoring platform, on the one hand, which can convenient for medical staff

to effectively isolate and prevent infectious patients, on the other hand, can

convenient for remote consultation of experts, and protects relevant medical staff

from infection while ensuring that infectious patients can receive effective prevention

and treatment.

[0012] Further, the treatment area of the present invention comprises auxiliary

equipment, and the auxiliary equipment comprises an embedded hospital bed, an

oxygen machine, a negative pressure aspirator, an alarm device, an embedded

medicine cabinet, an instrument cabinet, a mobile treatment vehicle, and a first

washroom, the buffer zone comprises a second washroom, an embedded seat, an

embedded single bed, a folding work table, a cabinet and a fire extinguisher.

[0013] Further, the first washroom and the second washroom of the present invention

both comprise a sprinkler, a mobile hidden toilet and a dirt bucket, the sprinkler is

connected to the water tank through a pipe, and the washrooms are connected to the

sewage through the pipe, the treatment device is connected to the sewage treatment

device through the pipe, and the water used in the washroom is discharged after being

treated by the sewage treatment device.

[0014] Further, the present invention also comprises a power system that supplies

power to the buffer zone and the treatment area through a power interface, and the

power system comprises a high-power battery, on-board direct current or alternating

current.

[0015] Further, the present invention also comprises a connection module for

detachably connecting the external equipment of the sealed cabin. The cabin

extracorporeal equipment of the present invention is set in a detachable mode, so that

when an infectious epidemic situation comes, it can be used as a negative pressure

isolation ward when connected to the external equipment of the cabin, such as air

supply system, exhaust system, water storage tank, etc.; and after the infection

epidemic, by disassembling the equipment outside the cabin is, the ward of the

present invention can also be used as an ordinary ward without being vacant, which

greatly reduces the cost.

[0016] The present invention has the following advantages and beneficial effects:

[0017] The present invention can solve the temporary treatment when basic hospitals

and most general hospitals without special negative ward in the sudden infection.

[0018] The present invention can be used as emergency material reserves of

governments at all levels to respond to public health events.

[0019] The present invention can deal with field rescue and remote transportation

during war.

BRIEF DESCRIPTION OF THE DRAWINGS

[0020] The drawings described here are used to provide a further understanding of the

embodiments of the present invention, constitute a part of the application, and do not

constitute a limitation to the embodiments of the present utility model. In the attached

picture:

[0021] Figure 1 is a top view of the present invention.

[0022] Figure 2 is a front view of the present invention.

[0023] Description of reference signs in the figure:

[0024] 1-cabin; 1-1-electric induction isolation door; 1-2-transfer window;

2-treatment area; 2-1-sterilizer; 2 2-sensor; 2-3-medical equipment cabinet;

2-4-ventilator; 2-5-foldable hospital bed; 2-6-monitor; 2-7-medicine cabinet;

2-8-camera; 2-9-toilet; 3-buffer; 3- foldable single bed; 3-2-mobile and hidden toilets;

3-3-wardrobe; 3-4-dressing and shower room; 3-5-desk and chair; 3-6-laptop;

3-7-socket; 3-8-toilet; 4-inlet port; 5-exhaust port; 6-first air filter; 7-air conditioner;

8-blower; 9-inlet air pipe; 10-second air filter; 11-disinfection device; 12-exhaust pipe; 13-isolation wall; 14-sewage treatment device; 15-water storage tank;

16-sprinkler; 17-water pipeline. DETAILED DESCRIPTION OF THE INVENTION

[0025] Hereinafter, the terms "comprising" or "may comprise" that can be used in various embodiments of the present invention indicate the existence of functions,

operations, or elements of the present invention, and do not limit one or more

functions, operations, or Increase of components. In addition, as used in various

embodiments of the present invention, the terms "comprising", "having" and their

cognates are only intended to indicate specific features, numbers, steps, operations,

elements, components, or combinations of the foregoing items. , And should not be

understood as first excluding the existence of one or more other features, numbers,

steps, operations, elements, components or combinations of the foregoing items or

adding one or more features, numbers, steps, operations, elements, possibility of

combination of components or the foregoing.

[0026] In various embodiments of the present invention, the expression "or" or "at least one of A or/and B" comprises any combination or all combinations of the words

listed at the same time. For example, the expression "A or B" or "at least one of A

or/and B" may comprise A, may comprise B, or may comprise both A and B.

[0027] The expressions (such as "first", "second", etc.) used in various embodiments of the present invention can modify various constituent elements in the various

embodiments, but may not limit the corresponding constituent elements. For example,

the above expression does not limit the order and/or importance of the elements. The

above expressions are only used for the purpose of distinguishing one element from

other elements. For example, the first user device and the second user device indicate

different user devices, although both are user devices. For example, without departing from the scope of various embodiments of the present invention, the first element may be referred to as the second element, and similarly, the second element may also be referred to as the first element.

[0028] It should be noted that if it is described that one constituent element is

"connected" to another constituent element, the first constituent element can be

directly connected to the second constituent element, and the first constituent element

and the second constituent element can be "connected" "The third component.

Conversely, when one constituent element is "directly connected" to another

constituent element, it can be understood that there is no third constituent element

between the first constituent element and the second constituent element.

[0029] The terms used in the various embodiments of the present invention are only

used for the purpose of describing specific embodiments and are not intended to limit

the various embodiments of the present invention. As used herein, the singular form is

intended to also comprise the plural form, unless the context clearly dictates

otherwise. Unless otherwise defined, all terms (comprising technical and scientific

terms) used herein have the same meaning as commonly understood by those of

ordinary skill in the art to which various embodiments of the present invention

belong. The terms (such as those defined in commonly used dictionaries) will be

interpreted as having the same meaning as the contextual meaning in the related

technical field and will not be interpreted as having idealized or overly formal

meanings, unless it is clearly defined in the various embodiments of the present

invention.

[0030] The present invention will be further described in detail below in conjunction

with embodiments, but the structure of the present invention is not limited to the

following embodiments.

[0031] Embodiment 1:

[0032] This embodiment proposes a detachable mobile negative pressure isolation

ward. The isolation ward of this embodiment uses the size of the existing standard

container to design a completely independent, detachable and mobile negative pressure isolation ward, as shown in Figures 1 and 2, the isolation ward of this embodiment comprises a cabin 1 and a negative pressure forming module, the cabin 1 is divided into a treatment area 2 and a buffer zone 3 by an isolation wall 13, both the treatment area 2 and the buffer zone 3 are provided with an inlet port 4 and an exhaust port 5, and the negative pressure forming module passes through the inlet port 4 sends filtered fresh air to the treatment area 2 and the buffer zone 3 respectively, and discharges the air in the treatment area 2 and the buffer zone 3 through the exhaust port 5, the negative pressure forming module keeps the exhaust air volume of the treatment area 2 greater than the air supply volume thus forms a negative pressure environment in the treatment area 2 and a positive pressure environment in the buffer zone 3 to ensure that the air flows from the buffer zone 3 to the treatment area 2 and finally to the outside of the cabin.

[0033] The isolation ward of this embodiment uses an air supply (fresh air) system

and an exhaust system to suck the treatment area into negative pressure (-5-15 Pa),

and maintain positive pressure in the buffer zone to ensure that the air flow is the

buffer zone-treatment area-outside the cabin, on the one hand, it prevents the

polluted and toxic bacteria-carrying gas from flowing back into the buffer zone

infecting medical staff in the treatment area, on the other hand, the polluted gas after

high-efficiency filtration and disinfection is discharged into the atmosphere outside

the cabin. In the event of a new or severe infectious disease (such as the outbreak of

new coronavirus pneumonia and SARS), or a biochemical war, a set of isolation and

treatment space for infectious patients will be provided temporarily and quickly. Solve

the problem that general hospitals can protect medical staff from infection and prevent

environmental air pollution when they isolate and treat infectious patients (wounded)

during major infectious disease epidemics or biochemical wars, meanwhile in the

central area of the outbreak or during biochemical wars, the prevent invention can

temporarily solve the shortage of isolation wards, provide field treatment, isolation,

and rapid remote transfer for biochemical warfare (by trains, ships, planes, container

trucks or other means of transportation). Compared with the existing wards specially built or modified for this purpose, it has higher effectiveness and cost-effectiveness. It also solves the problem of waste of resources caused by long-term vacancy or low use efficiency of the negative pressure ward built or remodeled in the general hospital after the infection. In addition, in the event of an infectious disease epidemic or local biochemical warfare, the initial confirmed or contaminated person can be transported to no-man's land or remote rural area through the device, concentrated in the wild for isolation, and a strict warning area can be set up (comprising traffic and information network, personnel entry and exit control)to control the epidemic and biochemical pollution in a very small area, to ensure the normal conduct of production, administration, life, learning, and social activities of densely populated areas (such as Wuhan and New York State, etc.) or important political and economic centers (such as the capital), and avoid the long-term sudden stop of economic and social activities caused by the closure of the city. It can also strictly control public opinion, maintain social order and stability, and avoid social unrest.

[0034] In this embodiment, the negative pressure forming module comprises an air intake system and an exhaust system, wherein the air intake system comprises a first

air filter 6, an air conditioner 7, a first blower 8 and an inlet air pipe 9; the fresh air

passes through the first air filter after the filter 6 enters the air conditioner 7 for temperature adjustment, the blower 8 sends it to the buffer zone and the treatment area

sequentially through the inlet port 4 of the inlet air pipe 9; the exhaust system

comprises a second air filter 10, The disinfection device 11, the second blower (not

shown in the figure) and the exhaust pipe 12 cause the air in the buffer zone 3 to flow

into the treatment area 2 through the exhaust port 5 of the exhaust pipe 12 due to the

pressure difference, and the pollution of the treatment area 2 After the air passes

through the disinfection device 11 and the second air filter 10 in turn to disinfect and

filter the gas (reaching the relevant national atmospheric emission standards), it is

exhausted by the second blower and discharged into the atmosphere.

[0035] The disinfection device 11 of this embodiment is preferably but not limited to an ultraviolet or plasma disinfector.

[0036] The entrance of the cabin 1 of this embodiment is provided with an electric induction isolation door 1-1, and thermal insulation, sound insulation and fireproof

material for the inner wall of the cabin liner; the isolation wall 13 is equipped with an

induction automatic isolation door and a transfer window 1-2 for pass items.

[0037] The isolation ward of this embodiment also comprises auxiliary facility modules, sewage discharge modules, monitoring and communication modules, power

supply modules, disassembly and connection modules, etc. specifically:

[0038] Auxiliary facilities in the treatment area comprise: one foldable bed 2-5; oxygen interface (ventilator or oxygen inhalation), negative pressure suction interface

(sputum suction or drainage), power socket (ventilator 2-4) installed in the wall, monitors 2-6, blood oxygen and electrolyte meters, blood glucose meters, defibrillators, micro infusion pumps, etc.), wall-mounted split cold and heat air

conditioners, one alarm or intercom, embedded medicine cabinet 2-7 and one medical

equipment cabinet 2-3, one high-definition camera 2-8, two ceiling-mounted UV

sterilizer 2-1, and one mobile treatment cart.

[0039] Buffer zone auxiliary facilities comprise: medical staff changing room (comprising wardrobe 3-3), wash basin, two embedded seats, foldable single bed 3-1

(for medical staff to take turns to rest), one folding desk and chair 3-5 (comprising laptop 3-6 and stationery), medical staff water heater shower (drain pipe connected to

the outside discharge), one cabinet 3-2 (drinking water boiler, microwave oven,

tableware, convenience food, beverage), one fixed fire extinguisher.

[0040] Dirt discharge module: The treatment area and the buffer zone are respectively equipped with slide-rail toilets (2-9 and 3-4), and there are sprinklers 16, mobile and

hidden toilets 3-2, and dirt buckets inside them. The sprinkler 16 is connected to the

water storage tank 15 through a water pipeline 17, the toilet is connected to the

sewage treatment 14 through the pipe, and the water used in the toilet is processed by the sewage treatment 14 before being discharged.

[0041] The toilet and the dirt bucket can be sealed with a special plastic jacket and then removed from the room, and then run outside the cabin for harmless treatment.

[0042] Monitoring and communication module: the treatment area is equipped with a

monitoring system, and the buffer zone is equipped with a monitoring platform

(laptop, etc.). The monitoring system comprises cameras 2-8, sensors 2-2

(temperature, humidity and pressure sensors) and monitors; the camera is used to

collect the image data of the treatment area and transmit it to the monitoring platform,

the sensor is used to monitor the temperature, humidity and pressure data of the

treatment area and transmit to the monitoring platform, which can monitor and

regulate the temperature, humidity and negative pressure in real time, maintain the

pressure gradient between the negative pressure zone and the positive pressure zone,

the monitor is used to monitor the patient's ECG data and transmit it to a monitoring

platform; the monitoring platform is connected to a remote monitoring system

through a wireless transmission network (such as a 5G network) to establish a remote

consultation system. In this embodiment, the communication with the outside world is

maintained through walkie-talkie, mobile phone and network.

[0043] Power supply module: this embodiment uses high-power batteries (short-time

transfer), on-board DC power (connected to vehicle power), and AC power (mains

connection) three modes interchangeable, equipped with a diesel engine (standby,

field work).

[0044] Disassembly and connection module: in this embodiment, the equipment

attached outside the cabin, such as fresh air blower, exhaust filter and disinfection

device, air conditioner, water tank, generator, etc., can be disassembled, and then

installed in a fixed position in the cabin, and can be temporarily fixed; the interface

can be quickly connected and sealed; there are external power interface and drainage

interface outside the cabin. In this embodiment, the external equipment of the cabin is

set in a detachable mode, so that when the infectious disease comes, the external

equipment of the cabin can be used as a negative pressure isolation ward; and after the

epidemic, the external equipment of the cabin is disassembled, and the ward of the

present invention is still can be used as a general ward without being vacant, which

greatly reduces the cost.

[0045] The specific embodiments described above further describe the purpose, technical solutions and beneficial effects of the present invention in further detail. It

should be understood that the above descriptions are only specific embodiments of the

present invention and are not intended to limit the scope of the present invention. The

scope of protection, any modification, equivalent replacement, improvement, etc.,

made within the spirit and principle of the present invention shall be comprised in the

scope of protection of the present invention.

Claims (10)

1. The detachable mobile negative pressure isolation ward, comprising: a cabin,

and a negative pressure forming module, wherein the cabin is divided into a

treatment zone and a buffer zone by an isolation wall, and both the treatment

zone and the buffer zone are equipped with a inlet port and an exhaust port,

the negative pressure forming module sends filtered fresh air to the treatment

area and the buffer zone through the inlet port, and discharges the air in the

treatment zone and the buffer zone through the exhaust port, the negative

pressure forming module keeps the exhaust air volume of the treatment area

greater than the air supply volume to form a negative pressure environment in

the treatment area and maintains the air supply volume of the buffer zone

greater than the exhaust air volume to form a positive pressure environment in

the buffer zone to ensure the air flow from the buffer zone to the treatment

area and finally to the outside of the cabin.

2. The detachable mobile negative pressure isolation ward according to claim 1,

wherein, the negative pressure forming module comprises an air intake system

and an exhaust system, wherein the air intake system comprises a first air filter,

an air conditioner, a first blower, and an inlet air pipe; after being filtered

through the first air filter, the fresh air enters the air conditioner for the

temperature and humidity regulation, and then the first blower sends it into the

buffer zone and the treatment area through the inlet port; the exhaust system

comprises a second air filter, a disinfection device, a second blower and an

exhaust pipe, the contaminated air from the buffer zone and the treatment area

discharged through the exhaust port is disinfected and filtered by the

disinfection device and the second air filter, and exhausted and discharged into

the atmosphere by the second blower.

3. The detachable mobile negative pressure isolation ward according to claim 2,

wherein, the disinfection device adopts ultraviolet or plasma disinfector.

4. The detachable mobile negative pressure isolation ward according to claim 1,

wherein, the negative pressure in the treatment area is -5 to -15 Pa.

5. The detachable mobile negative pressure isolation ward according to any of

claims 1-4, wherein, the entrance of the cabin is an automatic induction door,

and thermal insulation, sound insulation and fireproof material for the inner

wall of the cabin liner; the isolation wall is provided with an automatic

induction isolation door, and the isolation wall is also provided with a transfer

window.

6. The detachable mobile negative pressure isolation ward according to any of

claims 1-4, wherein, the buffer zone is provided with a monitoring platform,

the treatment area is provided with a monitoring system; the monitoring

system comprises a camera, a sensor and a monitor, the camera is used to

collect image data of the treatment area and transmit it to the monitoring

platform, the sensor is used to monitor the temperature, humidity and pressure

data of the treatment area and transmit it to the monitoring platform, and the

monitor is used to monitor the ECG data and respiration data of the patient and

transmit it to the monitoring platform, the monitoring platform is connected

with a remote monitoring system through a wireless transmission network.

7. The detachable mobile negative pressure isolation ward according to any of

claims 1-4, wherein, the treatment area comprises auxiliary equipment, and

the auxiliary equipment comprises an embedded hospital bed, an oxygen

machine, a negative pressure aspirator, an alarm device, an embedded

medicine cabinet, an instrument cabinet, a mobile treatment vehicle, and a first

washroom; the buffer zone comprises a second washroom, an embedded seat,

an embedded single bed, a folding work table, a cabinet and a fire

extinguisher.

8. The detachable mobile negative pressure isolation ward according to claim 7,

wherein, the first washroom and the second washroom both comprise a

sprinkler, a mobile hidden toilet and a dirt bucket; wherein the sprinkler is connected to the water tank through a pipe, and the washrooms are connected to the sewage through pipes, the treatment device is connected to the sewage treatment device through the pipe, and the water used in the washroom is discharged after being treated by the sewage treatment device.

9. The detachable mobile negative pressure isolation ward according to any of

claims 1-4, wherein, further comprises a power system, which supplies power

to the buffer zone and the treatment area through a power interface, and the

power system comprises a high-power battery, an on-board direct current or an

alternating current.

10. The detachable mobile negative pressure isolation ward according to any of

claims 1-4, characterized in that, also comprises a connection module, which

is used for detachably connecting the external equipment of the sealed cabin.