CN217631543U - Modular shelter operating room and shelter hospital - Google Patents

Abstract

The utility model discloses a modularization shelter operating room and shelter hospital, include: the first module cabin is provided with a first cabin body with one open side, an air outlet and a first air supply assembly which are communicated with the air exhaust assembly are arranged on a top plate of the first module cabin, and at least one air return assembly and a power supply cabinet are arranged in a cabin wall of the first module cabin; the second module cabin is provided with a second cabin body with one open side, a second air supply assembly is arranged on a top plate of the second module cabin, and at least one air return assembly and an air conditioning unit are arranged in a cabin wall of the second module cabin; the first equipment cabin is arranged at the top of the first module cabin and internally accommodates the exhaust assembly; the second equipment cabin is arranged at the top of the second module cabin and internally accommodates a fresh air component; when the second module cabin is in butt joint with the first module cabin, the first cabin body and the second cabin body are communicated to form an operation area, and the air conditioning unit can be matched with at least one air return assembly, the first air supply assembly, the second air supply assembly and the air exhaust assembly to realize positive and negative pressure conversion of the operation area.

Description

Modular shelter operating room and shelter hospital

Technical Field

The utility model relates to a medical treatment emergency rescue technical field especially relates to a modularization shelter operating room and shelter hospital.

Background

Due to various natural disasters, wartime, epidemic situations like new coronary pneumonia, or various reasons such as the limitation of the space capacity of a local hospital, injured people cannot be timely and effectively treated. Although a large number of shelter hospitals and operating rooms exist at present, a large number of problems still exist, such as the problems of low building efficiency, cleanliness, incapability of meeting the use requirements of waterproof and heat-insulating performances, low equipment integration level, difficulty in transportation and the like, so that a medical facility capable of solving the problems is urgently needed to be provided,

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a modularization shelter operating room and shelter hospital for there is artifical clothes of selecting consuming time hard, automatic level and intelligent level low, the poor difficult problem of user experience degree in solving among the prior art intelligent wardrobe.

The above object of the present invention can be achieved by the following technical solutions:

the utility model provides a modularization shelter operating room, include:

the first module cabin is provided with a first cabin body with one open side, two oppositely arranged cabin walls enclosing the first cabin body are respectively provided with door holes for installing an electric double-opening door and a manual single-opening door, a top plate of the first module cabin is provided with an air outlet, a first lighting lamp strip and a first air supply assembly which are communicated with an air exhaust assembly, at least one air return assembly is embedded in the cabin wall of the first module cabin, and a power cabinet is clamped in the cabin wall of the first module cabin;

the second module cabin is provided with a second cabin body with one open side, a top plate of the second module cabin is provided with a second lighting lamp strip, a shadowless lamp and a second air supply assembly, at least one return air assembly is embedded in the cabin wall of the second module cabin, and an air conditioning unit electrically connected with the power cabinet is clamped in the cabin wall of the second module cabin;

the first equipment cabin is arranged at the top of the first module cabin and internally accommodates the exhaust assembly;

the second equipment cabin is arranged at the top of the second module cabin and internally accommodates a fresh air component communicated with the air conditioning unit;

the second module cabin with under the state of first module cabin butt joint, first cabin body with the second cabin body intercommunication forms the operation region, first lighting lamp area with the second lighting lamp area encloses into can illuminate the illumination zone in operation region, the shadowless lamp sets up in the illumination zone, air conditioning unit can be according to predetermineeing the purpose respectively with at least one return air subassembly first air supply subassembly with second air supply subassembly intercommunication and with the subassembly cooperation of airing exhaust is in order to realize the positive negative pressure conversion in operation region.

Preferably, the air exhaust assembly comprises a positive pressure air exhaust assembly communicated with the air exhaust port and a negative pressure air exhaust assembly communicated with the air return pipeline of the air return assembly;

the positive pressure air exhaust assembly comprises a positive pressure air exhaust pipe, a positive pressure fan, a sterilization module and a filter, wherein the positive pressure air exhaust pipe can be communicated with the operating area and the atmosphere; and/or

The negative pressure air exhaust assembly comprises a negative pressure air exhaust pipe, a negative pressure fan, a sterilization module and a filter, wherein the negative pressure air exhaust pipe can be communicated with the air return pipeline and the atmosphere, and the negative pressure fan, the sterilization module and the filter are sequentially connected into the negative pressure air exhaust pipe along the air exhaust direction.

Preferably, the fresh air assembly comprises a fresh air pipe with two ends respectively connected with the atmosphere and the air conditioning unit, and a filter and a heating module are sequentially connected into the fresh air pipe along the flow direction of fresh air.

Preferably, the distance between the bearing surface of the first equipment compartment and the top plate of the first module compartment is not less than 200 mm; and/or the distance between the bearing surface of the second equipment compartment and the ceiling of the second module compartment is not less than 200 mm.

Preferably, the bearing surface of the first equipment compartment and/or the bearing surface of the second equipment compartment are formed by a plurality of bearing cross arms, and the plurality of bearing cross arms are arranged at intervals along the length direction of the bearing surface.

Preferably, the distance between every two adjacent load-bearing cross arms is not more than 600 mm; and/or the enclosure wall of the first equipment chamber and/or the enclosure wall of the second equipment chamber are made of a thick steel plate with the thickness of 1 millimeter.

Preferably, a plurality of target devices are embedded in the bulkhead of the second module and/or the bulkhead of the second module, and the target devices comprise an anesthesia cabinet, an instrument cabinet, a power socket special for an operating room, a film viewing lamp, a medical gas panel, a central control panel and a writing desk.

Preferably, the bulkhead of the first module cabin and/or the bulkhead of the second module cabin are made of rock wool sandwich color steel plates; and/or the ground of the first module and/or the ground of the second module are paved with PVC floor coiled materials.

Preferably, wherein,

the butt joint outer sides of the first module cabin and the second module cabin are fixedly connected through bolts; and/or

The butted inner sides of the first module cabin and the second module cabin are plugged and decorated by a stainless steel plate and sealant; and/or

The thickness of the PVC floor coiled material is 2 mm; and/or

The length of the first module cabin and the second module cabin is 6 meters, the width of the first module cabin and the width of the second module cabin are 3 meters, the height of the first module cabin and the second module cabin are 2.8 meters, and the length of the first equipment cabin and the second equipment cabin are 6 meters, the width of the first equipment cabin and the width of the second equipment cabin are 3 meters, and the height of the first equipment cabin and the second equipment cabin are 1.5 meters.

The utility model also provides a shelter hospital utilizes the aforementioned modularization shelter operating room of a plurality of arbitrary items to build and form.

The utility model discloses modularization shelter operating room has following characteristics and advantage at least:

1. the utility model discloses a prefabricate a plurality of box formula structure modules, can assemble the concatenation with a plurality of module boxes on the level and smooth road surface during the use, through simple and easy fastening seal, can put into use fast, improved the ageing nature of putting into use promptly, can provide enough big space again and satisfy the demand of all kinds of operations, satisfy the requirement of ten thousand grades of clean operating rooms in the aspect of space, facility configuration and cleanliness factor etc. have that the inner space is big, environmental suitability is strong characteristics;

2. the utility model can be suitable for various transportation forms such as road transportation, railway transportation, ship transportation, air transportation and the like, and has the characteristic of quick maneuvering;

3. the utility model discloses possess the switching function of ten thousand grades of operating rooms of malleation and ten thousand grades of operating rooms of negative pressure, can satisfy all kinds of medical guarantee needs, have the wide characteristics of application scope.

The utility model discloses shelter hospital has following characteristics and advantage at least:

the utility model discloses connect through concatenation and fastener by the box cabin body, can assemble into the operation medical platform of ten thousand grades of cleanliness factor that can independent operation fast, can carry out the switching of positive negative pressure state to satisfy most surgical operation condition requirement, simultaneously the utility model discloses can expand fast and build and put into use fast. Furthermore, the utility model discloses not only have good sealed heat preservation waterproof performance, but also have the dismantlement of repeatedly installing, characteristics that mobility is strong can adapt to and be used for various transports such as road transport, railway transportation, shipping, air transportation, and the above-mentioned square cabin operating room possesses the ability of the unable anytime and anywhere quick installation use that realizes of conventional hospital operating room.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained without creative efforts.

FIG. 1 is a perspective view of the modular shelter operating room of the present invention;

FIG. 2 is a perspective view of the modular shelter operating room of the present invention;

FIG. 3 is a top view of the modular shelter operating room of the present invention;

fig. 4 is a schematic structural view of a first module and a second module of the present invention;

fig. 5 is a schematic structural view of the first module and the second module of the present invention;

FIG. 6 is a perspective view of the modular shelter operating room of the present invention;

fig. 7 is a schematic structural view of a first module and a second module of the present invention;

fig. 8 is a schematic view of the working principle of the present invention.

Reference numerals and description:

100. a modular shelter operating room; 1. a first module compartment; 11. a first cabin; 12. an electric double door; 13. a single door is opened manually; 14. a door opening; 15. an air outlet; 16. a first lighting strip; 2. a second module; 21. a second cabin; 22. a second lighting strip; 23. a shadowless lamp; 3. a first equipment compartment; 31. a positive pressure exhaust duct; 32. a positive pressure fan; 33. a killing module; 34. a filter; 35. a negative pressure exhaust duct; 36. a negative pressure fan; 4. a second equipment compartment; 42. a heating module; 41. a fresh air duct; 5. an air conditioning unit; 51. an air conditioner outdoor unit; 6. an air supply static pressure box; 7. an air supply duct; 8. a return air duct; 9. bearing cross arm.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the embodiments described below are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Implementation mode one

The utility model provides a modularization shelter operating room 100 please refer to fig. 1 to 8, including first module cabin 1, second module cabin 2, first equipment cabin 3 and second equipment cabin 4.

Specifically, the first module cabin 1 has a first cabin body 11 with an open side, two opposite cabin walls enclosing the first cabin body 11 are respectively provided with a door opening 14 for installing an electric double-opening door 12 and a manual single-opening door 13, a top plate of the first module cabin 1 is provided with an air outlet 15 communicated with an air exhaust component, a first lighting lamp strip 16 and a first air supply component, the cabin wall of the first module cabin 1 is internally embedded with at least one air return component, and a power cabinet is clamped in the cabin wall of the first module cabin 1.

The second module cabin 2 is provided with a second cabin body 21 with one open side, a top plate of the second module cabin 2 is provided with a second lighting lamp strip 22, a shadowless lamp 23 and a second air supply component, at least one air return component is embedded in the cabin wall of the second module cabin 2, and an air conditioning unit 5 electrically connected with the power cabinet is clamped in the cabin wall of the second module cabin 2;

the first equipment cabin 3 is arranged at the top of the first module cabin 1 and internally accommodates an exhaust assembly;

the second equipment cabin 4 is arranged at the top of the second module cabin 2 and internally accommodates a fresh air component communicated with the air conditioning unit 5;

under the state of second module cabin 2 and the butt joint of first module cabin 1, first cabin body 11 and the intercommunication of second cabin body 21 form the operation region, first illumination lamp area 16 and second illumination lamp area 22 enclose into the illumination region that can illuminate the operation region, shadowless lamp 23 sets up in the illumination region, air conditioning unit 5 can communicate with at least one return air subassembly, first air supply subassembly and second air supply subassembly respectively and with the cooperation of the subassembly of airing exhaust in order to realize the positive negative pressure conversion in operation region according to preset purpose.

The utility model discloses a modularization shelter operating room 100 is convenient for transport, quick installation, is applied to natural disasters, open-air environment, public medical emergency rescue in wartime.

In some embodiments, referring to fig. 8, the air exhaust assembly includes a positive pressure air exhaust assembly connected to the air outlet 15, and a negative pressure air exhaust assembly connected to the air return line (i.e. the air return duct 8) of the air return assembly;

the positive pressure air exhaust assembly comprises a positive pressure air exhaust pipe 31 which can be communicated with the operation area and the atmosphere, and a positive pressure fan 32, a killing module 33 and a filter 34 which are sequentially connected into the positive pressure air exhaust pipe 31 along the air exhaust direction; and/or

The negative pressure air exhaust assembly comprises a negative pressure air exhaust pipe 35 which can be communicated with the air return pipeline 8 and the atmosphere, and a negative pressure fan 36, a sterilizing module 33 and a filter 34 which are sequentially connected into the negative pressure air exhaust pipe 35 along the air exhaust direction.

In some embodiments, please refer to fig. 6 to 8, the fresh air component includes a fresh air duct 41 having two ends respectively connected to the atmosphere and the air conditioning unit 5, and a filter 34 and a heating module 42 are sequentially connected to the fresh air duct 41 along the flow direction of the fresh air.

In some embodiments, referring to fig. 1, 2 and 7, the distance between the bearing surface of the first equipment module 3 and the ceiling of the first module 1 is not less than 200 mm; further, the distance between the bearing surface of the second equipment compartment 4 and the ceiling of the second module compartment 2 is not less than 200 mm.

In some embodiments, referring to fig. 7, the load bearing surface of the first equipment compartment 3 and/or the load bearing surface of the second equipment compartment 4 is formed by a plurality of load bearing cross-arms 9, and the plurality of load bearing cross-arms 9 are spaced along the length of the load bearing surface.

Furthermore, the distance between every two adjacent bearing cross arms 9 is not more than 600 mm; and/or the enclosure walls of the first equipment room 3 and/or the enclosure walls of the second equipment room 4 are made of 1mm thick steel plates.

Further, referring to fig. 3, a plurality of target devices are embedded in the bulkhead of the second module 2 and/or the bulkhead of the second module 2, and the target devices include an anesthesia cabinet, an equipment cabinet, a power socket dedicated for operating room, a film viewing lamp, a medical gas panel, a central control panel and a writing desk.

In some embodiments, the bulkhead of the first module 1 and/or the bulkhead of the second module 2 are made of rock wool sandwich color steel plates; and/or the floor of the first module 1 and/or the floor of the second module 2 is/are laid with PVC floor coil.

In some preferred embodiments, the abutting outer sides of the first module 1 and the second module 2 are fixedly connected by bolts; the butt joint inner sides of the first module cabin 1 and the second module cabin 2 are plugged and decorated by stainless steel plates and sealant; the thickness of the PVC floor coiled material is 2 mm; the first module bay 1 and the second module bay 2 have a length of 6 meters, a width of 3 meters and a height of 2.8 meters, and the first equipment bay 3 and the second equipment bay 4 have a length of 6 meters, a width of 3 meters and a height of 1.5 meters.

The present invention will be further described and illustrated by an embodiment, please refer to fig. 1 to 8:

in order to meet the requirements of independent operation and quick and repeated installation, the operating room shelter mainly comprises two operating room cabins and two equipment cabins.

Specifically, each operating room cabin body is 3000mm wide, 6000mm long and 2800mm high, one surface is not used as a wall surface, and after the two operating room cabin bodies are butted on a flat ground, a space with 6000mm square and 2800mm high can be formed, so that the operating room becomes a place for performing operation activities. After the cabin body and the cabin body are in butt joint, the outer side of the cabin body is fastened through bolts, and the joint of the cabin body is plugged and decorated by stainless steel plates and foaming sealant on the inner side of the cabin body. The first module cabin 1 is internally provided with 2 air return ports and corresponding air return pipelines 8, 1 custom-made air supply ceiling and corresponding air supply pipelines 7, 1 electric double- door 12, 1 manual single- door 13, 1 set of main power cabinets (arranged in an interlayer), 1 instrument cabinet, 1 anesthesia cabinet, 3 special power sockets for the operating room, 1 film viewing lamp and medical gas panels; second module cabin 2 is built-in including 2 return air inlets and corresponding return air duct 8, 1 order air supply smallpox and corresponding air supply duct 7, 1 set of central control panel and writing platform, 1 medicine cabinet, 1 individual operating room special power socket, 1 set of air conditioning unit internal unit (installation in the intermediate layer), the tower crane (fixed), shadowless lamp 23 (fixed) etc. clean height sets up 2600mm in the operating room, the ground top adopts the silica rock board installation, the intermediate layer is used for installing air supply duct 7, return air duct 8, exhaust pipe (malleation exhaust pipe 31 and negative pressure exhaust pipe 35 promptly) and air supply smallpox static pressure case (send air case 6 promptly) promptly, see fig. 3.

Equipment cabin body height 1500mm, apart from bottom 200mm welding channel-section steel as bearing cross arm 9, channel-section steel interval 600mm distance satisfies installation such as tuber pipe and unit equipment can, equipment cabin surface encloses with the welding of 1mm thick steel sheet and keeps off, reserves corresponding pipeline and wind gap hole, and the equipment of the internal installation of equipment cabin includes: two air conditioner external units 51, one fresh air filter 34, one fresh air preheater and pipeline 1 set, one positive pressure exhaust filter 34, one positive pressure fan 32 and pipeline 1 set, one negative pressure exhaust filter 34, negative pressure fan 36 and pipeline 1 set, as shown in fig. 1, fig. 2 and fig. 7.

An air supply ceiling, an air supply pipeline 7 and an air return pipeline 8 are laid between the operating room cabin body (namely the first module cabin 1 or the second module cabin 2) and the equipment cabin body (namely the first equipment cabin 3 or the second equipment cabin 4), and the specific arrangement is shown in fig. 6. The air pipes between the cabin bodies are in sealed butt joint in a flexible connection mode, and cables between an external power supply and the power distribution cabinet and between the electric equipment and the power distribution cabinet are in butt joint through aviation connectors. An external medical gas source is in butt joint with a reserved gas circuit interface of the box body, and an external water source is in butt joint with a humidifying device in the air conditioning unit 5.

The fresh air pipe 41 and the supporting equipment are connected to the air conditioning unit 5, the positive pressure exhaust pipe 31 is directly connected to the cabin roof of the operating room, as shown in fig. 8, and the negative pressure exhaust pipe 35 is connected to the return air pipe 8, as shown in fig. 6 and 7.

The cabin operating room can realize positive and negative pressure conversion, and the control flow chart is shown in figure 8:

the positive pressure ten thousand level operating room procedure is described as follows:

and starting the air conditioning unit 5 and selecting a positive pressure running state. At the moment, the opening of the electric proportional control air valve DBV1 is 20 percent, and the indoor fresh air demand is met; the electric switch adjusting air valve DV1 is in an open state, the electric switch adjusting air valve DV2 is in a close state, and the exhaust fan P2 (namely the negative pressure fan 36 with the power of 2500 m) ³ H) in the closed state, the exhaust fan P1 (i.e. the positive pressure fan 32, power 400 m) ³ H) starting; fresh air loops through air conditioning unit 5 and air supply static pressure case 6 and gets into in the operating room, and the air in the operating room returns air conditioning unit 5 through check valve V3 and electric switch adjusting air valve DV1 in proper order from return air duct 8 and handles the back and send into the operating room once more to can carry out circulation to the fresh air of sending into in the operating room and handle, the gas in the operating room also can pass through exhaust fan P1 and discharge in order to guarantee that the air in the operating room satisfies the operation requirement.

The negative pressure ten thousand-level surgical procedure is described as follows:

when the negative pressure operating room is needed, the negative pressure operating state is selected. At this moment, the exhaust fan P2 is started, the electric switch adjusting air valve DV2 is opened and is in an open state, the electric switch adjusting air valve DV1 is closed, the opening of the electric proportional adjusting air valve DBV1 is automatically adjusted to 100% state, so that the operating room is in a fresh air supply state, and air supplied into the operating room enters the negative pressure exhaust duct 35 from the air return duct 8 and is all exhausted outdoors through the electric switch adjusting air valve DV2 and the exhaust fan P2 in sequence. The operating room is now in a negative pressure operating state.

The utility model discloses characteristics and advantage below having at least:

1. the utility model discloses a prefabricate a plurality of box formula structure modules, can assemble the concatenation with a plurality of module boxes on the level and smooth road surface during the use, through simple and easy fastening seal, can put into use fast, improved the ageing nature of putting into use promptly, can provide enough big space again and satisfy the demand of all kinds of operations, satisfy the requirement of ten thousand grades of clean operating rooms in the aspect of space, facility configuration and cleanliness factor etc. have that the inner space is big, environmental suitability is strong characteristics;

2. the utility model can be suitable for various transportation forms such as road transportation, railway transportation, ship transportation, air transportation and the like, and has the characteristic of quick maneuvering;

3. the utility model discloses possess the switching function of ten thousand grades of operating rooms of malleation and ten thousand grades of operating rooms of negative pressure, can satisfy all kinds of medical guarantee needs, have the wide characteristics of application scope.

Second embodiment

The utility model also provides a shelter hospital utilizes the modularization shelter operating room 100 in a plurality of embodiment one to build and form. The utility model discloses connect through concatenation and fastener by the box cabin body, can assemble into the operation medical platform of ten thousand grades of cleanliness factors that can independent operation fast, can carry out the switching of positive negative pressure state to satisfy most surgical operation condition requirement, simultaneously the utility model discloses can launch fast and build and put into use fast. Furthermore, the utility model discloses not only have good sealed heat preservation waterproof performance, but also have the dismantlement of repeatedly installing, characteristics that mobility is strong can adapt to and be used for various transports such as road transport, railway transportation, shipping, air transportation, and the above-mentioned square cabin operating room possesses the ability of the unable anytime and anywhere quick installation use that realizes of conventional hospital operating room.

It will be appreciated by those skilled in the art that the modular shelter operating room 100 of this embodiment has the same benefits as the embodiments and will not be described in detail herein.

Above, it is only the preferred embodiment of the present invention, and it is not limited to the present invention in any form, and although the present invention has been disclosed with the preferred embodiment, it is not limited to the present invention, and any skilled person familiar with the art can make some changes or modifications to equivalent embodiments with equivalent changes within the technical scope of the present invention, but all the technical matters of the present invention do not depart from the technical scope of the present invention.

Claims (10)

1. A modular shelter operating room, comprising:

the first module cabin is provided with a first cabin body with one open side, two oppositely arranged cabin walls enclosing the first cabin body are respectively provided with door holes for installing an electric double-opening door and a manual single-opening door, a top plate of the first module cabin is provided with an air outlet, a first lighting lamp strip and a first air supply assembly which are communicated with an air exhaust assembly, at least one air return assembly is embedded in the cabin wall of the first module cabin, and a power cabinet is clamped in the cabin wall of the first module cabin;

the second module cabin is provided with a second cabin body with one open side, a top plate of the second module cabin is provided with a second lighting lamp strip, a shadowless lamp and a second air supply assembly, at least one return air assembly is embedded in the cabin wall of the second module cabin, and an air conditioning unit electrically connected with the power cabinet is clamped in the cabin wall of the second module cabin;

the first equipment cabin is arranged at the top of the first module cabin and internally accommodates the exhaust assembly;

the second equipment cabin is arranged at the top of the second module cabin and internally accommodates a fresh air component communicated with the air conditioning unit;

the second module cabin with under the state of first module cabin butt joint, first cabin body with the second cabin body intercommunication forms the operation region, first lighting lamp area with the second lighting lamp area encloses into can illuminate the illumination zone in operation region, the shadowless lamp sets up in the illumination zone, air conditioning unit can be according to predetermineeing the purpose respectively with at least one return air subassembly first air supply subassembly with second air supply subassembly intercommunication and with the subassembly cooperation of airing exhaust is in order to realize the positive negative pressure conversion in operation region.

2. The modular shelter operating room of claim 1, wherein said venting assembly comprises a positive pressure venting assembly in communication with said vent and a negative pressure venting assembly in communication with a return line of said return air assembly;

the positive pressure air exhaust assembly comprises a positive pressure air exhaust pipe, a positive pressure fan, a sterilization module and a filter, wherein the positive pressure air exhaust pipe can be communicated with the operation area and the atmosphere, and the positive pressure fan, the sterilization module and the filter are sequentially connected into the positive pressure air exhaust pipe along the air exhaust direction; and/or

The negative pressure air exhaust assembly comprises a negative pressure air exhaust pipe, a negative pressure fan, a sterilization module and a filter, wherein the negative pressure air exhaust pipe can be communicated with the air return pipeline and the atmosphere, and the negative pressure fan, the sterilization module and the filter are sequentially connected into the negative pressure air exhaust pipe along the air exhaust direction.

3. The modular shelter operating room of claim 2, wherein the fresh air component comprises a fresh air duct having two ends respectively connected to the atmosphere and the air conditioning unit, and a filter and a heating module are sequentially connected to the fresh air duct along the flow direction of fresh air.

4. The modular shelter operating room of claim 3,

the distance between the bearing surface of the first equipment cabin and the top plate of the first module cabin is not less than 200 mm;

and/or

The distance between the bearing surface of the second equipment cabin and the top plate of the second module cabin is not less than 200 mm.

5. The modular shelter operating room of claim 4, wherein the load bearing surface of the first equipment bay and/or the load bearing surface of the second equipment bay is formed from a plurality of load bearing cross-arms spaced apart along the length of the load bearing surface.

6. The modular shelter operating room of claim 5,

the distance between every two adjacent load-bearing cross arms is not more than 600 mm; and/or

And the surrounding wall of the first equipment compartment and/or the surrounding wall of the second equipment compartment are made of thick steel plates with the thickness of 1 millimeter.

7. The modular shelter operating room of any one of claims 1 to 6, wherein a plurality of target devices are embedded in the bulkhead of the second module and/or the bulkhead of the second module, the plurality of target devices comprising an anesthesia cabinet, an equipment cabinet, an operating room-specific power outlet, a viewing light, a medical gas panel, a central control panel, and a writing desk.

8. The modular shelter operating room of claim 7,

the bulkhead of the first module cabin and/or the bulkhead of the second module cabin are/is made of rock wool sandwich color steel plates; and/or

PVC floor coiled materials are paved on the ground of the first module cabin and/or the ground of the second module cabin.

9. The modular shelter operating room of claim 8,

the butted outer sides of the first module cabin and the second module cabin are fixedly connected through bolts; and/or

The butted inner sides of the first module cabin and the second module cabin are plugged and decorated by a stainless steel plate and sealant; and/or

The thickness of the PVC floor coiled material is 2 mm; and/or

The length of the first module cabin and the second module cabin is 6 meters, the width of the first module cabin and the width of the second module cabin are 3 meters, the height of the first module cabin and the second module cabin are 2.8 meters, and the length of the first equipment cabin and the second equipment cabin are 6 meters, the width of the first equipment cabin and the width of the second equipment cabin are 3 meters, and the height of the first equipment cabin and the second equipment cabin are 1.5 meters.

10. A shelter hospital built using a plurality of modular shelter operating rooms as claimed in any one of claims 1 to 9.

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