CN111731176A - Fast assembly's portable shelter hospital - Google Patents

Abstract

The invention provides a fast-assembled mobile shelter hospital, which comprises a first cabin body, a second cabin body and a ward area which are sequentially and adjacently arranged, wherein the first cabin body, the second cabin body and the ward area are all in modular design, and when the fast-assembled mobile shelter hospital is used, the fast assembly of the shelter hospital can be realized only by assembling the first cabin body, the second cabin body and the ward area as required, so that a fast and convenient-to-use PCR detection place and a convenient-to-sample-collection ward are provided for emergency situations; the reduction can not effectively go on because of PCR detects the condition under the emergency, and simultaneously, modular structure design can ensure when using that the condition that leaks appears in the very big reduction virus in testing process, provides safe effectively and just builds the portable cabin hospital of putting who uses fast under the emergency.

Description

Fast assembly's portable shelter hospital

Technical Field

The invention relates to the technical field of mobile shelter hospitals, in particular to a fast-assembled mobile shelter hospital.

Background

Due to the time pressure, there is a lack of a hospital that can be quickly set up, thereby achieving the goal of receiving more patients more quickly.

Disclosure of Invention

The invention provides a fast-assembly mobile shelter hospital, which is used for realizing fast construction of the shelter hospital, thereby realizing the purposes of receiving and treating more patients more quickly and developing PCR detection quickly.

The invention provides a fast-assembled mobile shelter hospital which comprises a first cabin body, a second cabin body and a ward area, wherein the first cabin body, the second cabin body and the ward area are sequentially and adjacently arranged, rooms with multiple functions are respectively arranged in the first cabin body and the second cabin body, the first cabin body and the second cabin body are communicated through a transmission window, and the second cabin body and the ward area are communicated through the transmission window.

Preferably, the multifunctional room of the first cabin body comprises a fresh air cabin, a first dressing room, a buffer room, a PCR detection room, a second dressing room and a disinfection room which are sequentially arranged; the fresh air cabin is used for providing fresh air and supplying the fresh air to the first dressing room, the buffer room, the PCR detection room, the second dressing room and the disinfection room through a fresh air pipeline; the first dressing room and the buffering room are communicated through a walking channel; the buffer room is communicated with the PCR detection room through a walking channel, and the PCR detection room is communicated with the second dressing room through a walking channel; the disinfection room is respectively communicated with the PCR detection room and the second dressing room through a transmission window; first changing the clothing room is equipped with personnel's entry end, the disinfection room is equipped with the filth exit end, second changing the clothing room is equipped with personnel's exit end.

Preferably, the multi-functional room of the second enclosure comprises: a fresh air cabin, a third dressing room, a reagent preparation room, a buffer room, a sample processing room, a fourth dressing room and a shower room; the fresh air cabin is used for providing fresh air and supplying the fresh air to the third dressing room, the reagent preparation room, the buffer room, the sample processing room, the fourth dressing room and the shower room through a fresh air pipeline; the third dressing room is communicated with the reagent preparation room and the buffer room through a walking channel respectively; the buffer room is communicated with the sample processing room through the walking channel, the sample processing room is communicated with the fourth dressing room through the walking channel, and the fourth dressing room is communicated with the shower room through the walking channel; the third dressing room is provided with a personnel inlet end, and the shower room is provided with a personnel outlet end.

Preferably, the reagent preparation room is communicated with the sample processing room through a transfer window, and the fourth dressing room is communicated with the disinfection room through a transfer window; the sample processing room and the PCR detection room are communicated through a transmission window.

Preferably, the indoor air pressure of the first changing room and the third changing room is standard atmospheric pressure; the indoor air pressure of the buffer room is-10 Pa, and the indoor air pressure of the reagent preparation room is 10 Pa; the indoor air pressure of the sample processing room is-20 Pa, the indoor air pressure of the PCR detection room is-30 Pa, the indoor air pressure of the second dressing room and the fourth dressing room is-10 Pa, and the indoor air pressure of the sterilizing machine is-15 Pa.

Preferably, a nucleic acid extraction instrument, a water tank and a biological safety cabinet are sequentially arranged in the sample treatment room, and a water tank and a biological safety cabinet are sequentially arranged in the reagent preparation room.

Preferably, an autoclave is arranged in the disinfection room, and a test bed, a water tank and a water tank are sequentially arranged in the PCR detection room.

Preferably, a fresh air fan is arranged in the fresh air cabin, fresh air pipelines are arranged at the inner tops of the first cabin body and the second cabin body, and the fresh air pipelines are respectively communicated with fresh air outlets of the fresh air fans arranged in the first cabin body and the second cabin body; the fresh air pipeline is provided with air outlets, and the air outlets are respectively in one-to-one correspondence with rooms in the first cabin body and the second cabin body.

The invention has the following beneficial effects:

the invention provides a fast-assembled mobile shelter hospital, which comprises a first cabin body, a second cabin body and a ward area which are sequentially and adjacently arranged, wherein the first cabin body, the second cabin body and the ward area are all in modular design, and when the fast-assembled mobile shelter hospital is used, the fast assembly of the shelter hospital can be realized only by assembling the first cabin body, the second cabin body and the ward area as required, so that a fast and convenient-to-use PCR detection place and a convenient-to-sample-collection ward are provided for emergency situations;

the reduction can not effectively go on because of PCR detects the condition under the emergency, and simultaneously, modular structure design can ensure when using that the condition that leaks appears in the very big reduction virus in testing process, provides safe effectively and just builds the portable cabin hospital of putting who uses fast under the emergency.

The cabin body is in a standardized box body format, preferably has the size of 20GP, 40HC/HQ and 45HC/HQ vehicle-mounted containers, and is convenient to transport.

The system also comprises a control system, wherein the control system can directly report the detection result and the experimental environment to a hospital, a health care committee or a corresponding platform through a wireless network; and the information reporting efficiency is improved.

And the system also comprises a leakage-proof alarm system, once the sewage or the detection part has virus leakage (such as pipeline breakage, detection system failure or untight detection chamber seal), the whole-bin disinfection work is started, and the virus leakage is prevented from generating serious consequences through light disinfection or chemical disinfection.

The first cabin body, the second cabin body and the ward area are all provided with cabin channel type biological safety exhaust, so that the first cabin body, the second cabin body and the ward area can achieve the quasi-biological safety level.

The first cabin body, the second cabin body and the ward area are respectively provided with an uninterruptible power supply, so that 15min of illumination after power failure is guaranteed, 5min of biological safety cabinet is carried out, 5min of air exhaust is carried out, and personnel can be guaranteed to evacuate rapidly after power failure in a laboratory.

Through with the integrated setting of PCR detecting instrument between sample processing and nucleic acid detection, PCR detecting instrument is equipped with shockproof structure, can guarantee that the vehicle still can carry out nucleic acid detection work at the operation in-process.

The first cabin body, the second cabin body and the ward area are at least 2.3m in height, so that the comfort of medical staff is ensured.

Special virus and bacteria filters are arranged in the nucleic acid detection room and the sample treatment room, and an ultraviolet sterilizing lamp is adopted for sterilization and disinfection while high-efficiency filtration is realized. After the experiment is stopped, the virus can be effectively killed, and the virus can not be tainted. During intensive experiments, the sterilizing lamps can be turned on simultaneously, and the exhaust air is guaranteed to reach the safety level.

The lower part of the cabin body is also provided with a self-running wheel and a traction bracket, so that the cabin body can stop at the site at will and carry out nucleic acid detection work. The hydraulic support legs are arranged below the cabin body, can be quickly leveled and fixed on the ground, and are particularly suitable for the condition that the ground is uneven. Strict entrance guard and anti-theft system are matched at the entrance and the exit, and the error entry of irrelevant personnel is avoided. A sterilization water tank is arranged in the sewer to ensure that the medical wastewater reaches the standard and is discharged.

The shower room can be set as a closed shower room or a common shower room, and a full-automatic water outlet or manual water outlet multiple options is arranged in the shower room, and the shower room is provided with an air drying system.

The full-automatic wash basin is arranged in the first cabin and the second cabin, infrared induction is achieved, and medical workers are prevented from touching the handle and being polluted in a cross mode.

The fresh air cabins are respectively arranged on the first cabin body and the second cabin body, so that each cabin body is provided with an independent biological safe air exhaust channel, and the design of strict air supply and exhaust and the negative pressure gradient design ensure that the laboratory reaches a reinforced P2 laboratory. And biological safe air supply is carried out through a fresh air pipeline, all the air supply is delivered to the indoor through a high-efficiency air supply outlet, and the independent room independent air supply closed valve is arranged, so that aerosol is prevented from reversely crossing each room after the experiment chamber stops working;

smart _ WIFI intelligent control, sound-light alarm, foreign voice communication, pass-through window calling, mobile phone two-dimensional code authorization and complete intelligent structure are optionally equipped, so that the running condition of the experiment chamber can be monitored remotely, the intelligent calling is rapid, samples are safely and specially transferred, an intelligent control system which is independently researched and developed is carried, and the detection result and the experiment environment can be directly reported to a hospital, a health care committee or a corresponding platform through the intelligent control system; and the information reporting efficiency is improved. The remote monitoring of the mobile phone can further control the aims of disinfection and purification of the cabin.

Be equipped with buckle mechanism between the first cabin body and the second cabin body, buckle mechanism can be rapidly with two storehouse butt joints, parallelly makes fixed complete two storehouse accounting detection laboratory. The double bins can be combined into a laboratory for use at the same time, and the single bin can also be independently used for independently completing corresponding detection tasks. And the second cabin body can be butted and fixed with the ward area into a whole through a buckle mechanism.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and drawings.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

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

FIG. 2 is a schematic structural view of a first enclosure and a second enclosure according to the present invention;

FIG. 3 is a schematic structural view of a fastening mechanism of the present invention;

FIG. 4 is a schematic view of the closure door of the present invention;

FIG. 5 is a schematic view of a third connecting rod connection structure according to the present invention;

FIG. 6 is a schematic view of the closure apparatus of the present invention;

FIG. 7 is a schematic view of the connection structure of the collar and the second shaft according to the present invention;

FIG. 8 is a schematic view of the cleaning device of the present invention;

fig. 9 is another schematic structural diagram of the cleaning device of the present invention.

Wherein, 1-a first cabin body, 2-a second cabin body, 3-a ward area, 4-a transmission window, 5-a fresh air cabin, 6-a first dressing room, 7-a second dressing room, 8-a third dressing room, 9-a fourth dressing room, 10-a buffer room, 11-a PCR detection room, 12-a disinfection room, 13-a reagent preparation room, 14-a sample processing room and 15-a shower room,

16-a first clamping block, 17-a first clamping groove, 18-a first fixing block, 19-a first connecting rod, 20-a first limiting column, 21-a rotary disc, 22-a reinforcing rod, 23-a first operation notch, 24-a second operation notch, 25-a second limiting column, 26-a first limiting block, 27-a first circular ring, 28-a second limiting block, 29-a C-shaped ring, 30-a first hinging column, 31-a communication port and 32-a first rotating shaft,

33-closing door, 34-first hinge shaft, 35-first connecting block, 36-pulley, 37-glide plate, 38-first extension plate, 39-second extension plate, 40-cylindrical connecting platform, 41-angular protrusion, 42-first handle, 43-first spring, 45-first connecting column, 46-collar, 47-second hinge shaft, 48-second connecting column, 49-second connecting rod, 51-third connecting rod,

52-a second handle, 53-a second connecting block, 54-a movable groove, 55-a second rotating shaft, 56-a first cone, 57-a fourth connecting rod, 58-a second cone, 59-a third connecting block, 60-a third rotating shaft,

61-third fixed block, 62-seventh fixed block, 63-fifth connecting rod, 64-first gear, 65-barrel, 66-first guide groove, 67-fourth fixed block, 68-fourth rotating shaft, 69-second panel, 70-first panel, 71-connecting disc, 73-sixth connecting rod, 74-spray head, 75-vertical plate, 76-fifth fixed block, 77-rotating drum, 78-square frame, 79-second guide groove, 80-second gear, 81-sixth fixed block, 82-fifth rotating shaft, 83-seventh connecting rod, 84-eighth connecting rod, 85-third hinged shaft, 86-third limiting column and 87-seventh rotating shaft.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

According to the drawings of fig. 1-2, the invention provides a fast-assembling mobile shelter hospital, which comprises a first cabin body 1, a second cabin body 2 and a ward area 3 which are sequentially and adjacently arranged, wherein a plurality of functional rooms are respectively arranged in the first cabin body 1 and the second cabin body 2, the first cabin body 1 and the second cabin body 2 are communicated through a transmission window 4, and the second cabin body 2 and the ward area 3 are communicated through the transmission window 4.

The invention provides a fast-assembled mobile shelter hospital, which comprises a first cabin body 1, a second cabin body 2 and a ward area 3 which are sequentially and adjacently arranged, wherein the first cabin body 1, the second cabin body 2 and the ward area 3 are all in modular design, and when the fast-assembled mobile shelter hospital is used, the fast assembly of the shelter hospital can be realized only by assembling the first cabin body 1, the second cabin body 2 and the ward area 3 as required, so that a fast and convenient-to-use PCR detection place and a convenient-to-sample-collect ward are provided for emergency situations;

the reduction can not effectively go on because of PCR detects the condition under the emergency, and simultaneously, modular structure design can ensure when using that the condition that leaks appears in the very big reduction virus in testing process, provides safe effectively and just builds the portable cabin hospital of putting who uses fast under the emergency.

The cabin body is in a standardized box body format, preferably has the size of 20GP, 40HC/HQ and 45HC/HQ vehicle-mounted containers, and is convenient to transport.

During the use, ward 3 warp the sample is sent to the second cabin body 2 through the transmission window 4 that sets up between the second cabin body 2 and the ward 3, is sent to first cabin body 1 through transmission window 4 after being handled the sample by the second cabin body 2 again, finally carries out PCR nucleic acid through first cabin body 1 and detects, has improved the PCR detection efficiency of shelter hospital greatly, reduces the condition of virus diffusion simultaneously.

According to fig. 2, the multifunctional room of the first cabin body 1 comprises a fresh air cabin 5, a first dressing room 6, a buffer room 10, a PCR detection room 11, a second dressing room 7 and a disinfection room 12 which are arranged in sequence; the fresh air cabin 5 is used for providing fresh air and supplying the fresh air to the first dressing room 6, the buffer room 10, the PCR detection room 11, the second dressing room 7 and the disinfection room 12 through a fresh air pipeline; the first dressing room 6 and the buffering room 10 are communicated through a walking channel; the buffer room 10 is communicated with the PCR detection room 11 through a walking channel, and the PCR detection room 11 is communicated with the second dressing room 7 through a walking channel; the disinfection room 12 is respectively communicated with the PCR detection room 11 and the second dressing room 7 through the transmission windows 4; the first dressing room 6 is provided with a personnel inlet end, the disinfection room 12 is provided with a dirt outlet end, and the second dressing room 7 is provided with a personnel outlet end.

According to fig. 2, the multi-functional room of the second cabin 2 comprises: a fresh air compartment 5, a third dressing room 8, a reagent preparation room 13, a buffer room 10, a sample processing room 14, a fourth dressing room 9 and a shower room 15; the fresh air cabin 5 is used for providing fresh air, and supplying the fresh air to the third dressing room 8, the reagent preparation room 13, the buffer room 10, the sample processing room 14, the fourth dressing room 9 and the shower room 15 through a fresh air pipeline; the third dressing room 8 is communicated with the reagent preparation room 13 and the buffer room 10 through walking channels respectively; the buffer room 10 is communicated with a sample processing room 14 through a walking channel, the sample processing room 14 is communicated with a fourth dressing room 9 through a walking channel, and the fourth dressing room 9 is communicated with a shower room 15 through a walking channel; the third changing room 8 is provided with a personnel inlet and the shower room 15 is provided with a personnel outlet.

According to fig. 2, the reagent preparation room 13 and the sample processing room 14 are communicated through the transfer window 4, and the fourth dressing room 9 and the sterilization room 12 are communicated through the transfer window 4; the sample processing room 14 and the PCR detection room 11 are communicated through a transmission window 4.

According to fig. 2, the indoor air pressure of the first changing room 6 and the third changing room 8 is the standard atmospheric pressure; the indoor air pressure of the buffer room 10 is-10 Pa, and the indoor air pressure of the reagent preparation room 13 is 10 Pa; the indoor air pressure of the sample processing room 14 is-20 Pa, the indoor air pressure of the PCR detection room 11 is-30 Pa, the indoor air pressure of the second dressing room 7 and the indoor air pressure of the fourth dressing room 9 are-10 Pa, and the indoor air pressure of the sterilizing machine is-15 Pa.

According to the illustration of fig. 2, a nucleic acid extractor, a water tank and a biological safety cabinet are sequentially arranged in the sample processing room 14, and a water tank and a biological safety cabinet are sequentially arranged in the reagent preparation room 13.

According to the figure 2, an autoclave is arranged in the disinfection room 12, and a test bed, a water tank and a water tank are sequentially arranged in the PCR detection room 11.

According to the illustration in fig. 2, a fresh air blower is arranged in the fresh air cabin 5, fresh air pipelines are arranged at the inner tops of the first cabin body 1 and the second cabin body 2, and the fresh air pipelines are respectively communicated with fresh air outlets of the fresh air blowers arranged in the first cabin body 1 and the second cabin body 2; the fresh air pipeline is provided with air outlets, and the air outlets respectively correspond to rooms in the first cabin body 1 and the second cabin body 2 one by one.

The system also comprises a control system, wherein the control system can directly report the detection result and the experimental environment to a hospital, a health care committee or a corresponding platform through a wireless network; and the information reporting efficiency is improved.

And the system also comprises a leakage-proof alarm system, once the sewage or the detection part has virus leakage (such as pipeline breakage, detection system failure or untight detection chamber seal), the whole-bin disinfection work is started, and the virus leakage is prevented from generating serious consequences through light disinfection or chemical disinfection.

The first cabin body 1, the second cabin body 2 and the ward area 3 are all configured with cabin channel type biological safety exhaust, so that the first cabin body 1, the second cabin body 2 and the ward area 3 can achieve the quasi-biological safety level three.

The first cabin body 1, the second cabin body 2 and the ward area 3 are respectively provided with an uninterruptible power supply, so that lighting is guaranteed for 15min after power failure, the biological safety cabinet is kept for 5min, air is exhausted for 5min, and personnel are guaranteed to evacuate rapidly after power failure in a laboratory.

Through with the integrated setting of PCR detecting instrument between 14 and nucleic acid detection in sample processing room, the PCR detecting instrument is equipped with shockproof structure, can guarantee that the vehicle still can carry out nucleic acid detection work in the operation process.

The first cabin body 1, the second cabin body 2 and the ward area 3 have a clear height of at least 2.3m, so that the comfort of medical staff is ensured.

The nucleic acid detection room and the sample processing room 14 are both provided with special virus and bacteria filters, and the ultraviolet sterilizing lamp is adopted for sterilization and disinfection while high-efficiency filtration is realized. After the experiment is stopped, the virus can be effectively killed, and the virus can not be tainted. During intensive experiments, the sterilizing lamps can be turned on simultaneously, and the exhaust air is guaranteed to reach the safety level.

The lower part of the cabin body is also provided with a self-running wheel and a traction bracket, so that the cabin body can stop at the site at will and carry out nucleic acid detection work. The hydraulic support legs are arranged below the cabin body, can be quickly leveled and fixed on the ground, and are particularly suitable for the condition that the ground is uneven. Strict entrance guard and anti-theft system are matched at the entrance and the exit, and the error entry of irrelevant personnel is avoided. A sterilization water tank is arranged in the sewer to ensure that the medical wastewater reaches the standard and is discharged.

The shower stall 15 can be a closed shower stall 15 or a common shower stall 15, and a full-automatic water outlet or manual water outlet multiple options is arranged in the shower stall 15, so that the shower stall is provided with an air drying system.

All be provided with full-automatic wash platform in the first cabin body 1 and the second cabin body 2, infrared induction avoids medical personnel to touch the handle, cross contamination.

The fresh air cabins 5 are respectively arranged on the first cabin body 1 and the second cabin body 2, so that each cabin body is provided with an independent biological safety exhaust channel, and the design of strict air supply and exhaust and the negative pressure gradient design ensure that the laboratory reaches the reinforcement P2 laboratory. And biological safe air supply is carried out through a fresh air pipeline, all the air supply is delivered to the indoor through a high-efficiency air supply outlet, and the independent room independent air supply closed valve is arranged, so that aerosol is prevented from reversely crossing each room after the experiment chamber stops working;

smart _ WIFI intelligent control, sound-light alarm, foreign voice communication, transfer window 4 calling, mobile phone two-dimensional code authorization and complete intelligent structure are optionally equipped, so that the running condition of the experiment chamber can be monitored remotely, the intelligent calling is rapid, samples are safely and specially transferred, an intelligent control system which is independently researched and developed is carried, and the detection result and the experiment environment can be directly reported to a hospital, a health care committee or a corresponding platform through the intelligent control system; and the information reporting efficiency is improved. The remote monitoring of the mobile phone can further control the aims of disinfection and purification of the cabin.

In another embodiment, as shown in fig. 3, a fastening mechanism is provided between the first cabin 1 and the second cabin 2, and the fastening mechanism can rapidly connect the two cabins in a butt joint manner and fix the complete double-cabin accounting detection laboratory. The double bins can be combined into a laboratory for use at the same time, and the single bin can also be independently used for independently completing corresponding detection tasks. And the second cabin body 2 and the ward area 3 can be butted and fixed into a whole through a buckle mechanism.

As shown in fig. 3, the fastening mechanism includes a first fastening block 16, a first connecting rod 19 and an adjusting device, the first fastening block 16 is disposed on the first cabin 1, a first fixing block 18 is disposed on the surface of the second cabin 2 close to the first cabin 1, the first connecting rod 19 passes through the first fixing block 18, a first engaging groove 17 is disposed on a surface of the first fastening block 16 facing the first fixing block, one end of the first connecting rod 19 is used for inserting into the first engaging groove, and the other end of the first connecting rod 19 is connected to the adjusting device,

the adjusting device comprises: the rotary table 21 is of a disc structure, the rotary table 21 is provided with C-shaped rings 29 at intervals on the circumferential outer wall of the rotary table 21, first circular rings 27 are arranged at intervals on the circumferential outer wall of the C-shaped rings 29, a second running notch 24 is formed between the first circular rings 27 and the C-shaped rings 29, and a first running notch 23 is formed between the C-shaped rings 29 and the rotary table 21;

a first limiting column 20 is arranged at one end of the first connecting rod 19, which is far away from the first clamping block 16, and the first limiting column 20 alternately moves in the first running notch 23 and the second running notch 24; an inward-protruding angular protrusion 41 is arranged on the annular inner wall of the first circular ring 27, the sharp angle of the angular protrusion 41 faces the open end of the C-shaped ring 29, a first hinge column 30 is arranged on the angular protrusion 41, a second limiting block 28 is rotatably connected to the first hinge column 30, one end, away from the first hinge column 30, of the second limiting block 28 faces one end of the C-shaped ring 29, two communication ports 31 are formed between the angular protrusion 41 and the C-shaped ring 29, and the two communication ports 31 are arranged in an X-shaped structure;

the second limiting block 28 is used for enabling the first limiting column 20 to move from the second running notch 24 to the first running notch 23 in a single direction; the angle-shaped protrusion 41 is further provided with a second limiting column 25, and the second limiting column 25 is used for limiting the counterclockwise swinging range of the second limiting block 28;

a first limiting block 26 is rotatably arranged on the first rotating shaft 32, and one end of the first limiting block 26, which is far away from the first rotating shaft 32, is used for the first limiting column 20 to move from the first running notch 23 to the second running notch 24 in a single direction;

the surface of the turntable 21 is further provided with a second limiting column 25, the second limiting column 25 is arranged close to the edge of the turntable 21, and the second limiting column 25 is used for limiting the counterclockwise swinging range of the first limiting block 26;

tension springs are arranged on the first limiting block 26 and the second limiting block 28 and used for enabling the side face of the first limiting block 26 to be attached to the corresponding second limiting column 25 and enabling the side face of the second limiting block 28 to be attached to the corresponding second limiting column 25;

one end of the first rotating shaft 32, which is far away from the rotating disc 21, is connected with a handle, and the handle is used for rotating the first rotating shaft 32;

a plurality of reinforcing rods 22 are uniformly distributed on one surface of the turntable 21, the first circular ring 27 and the C-shaped ring 29, which is close to the second cabin body 2;

one surface of the turntable 21 close to the second cabin 2 is rotatably arranged on the surface of the second cabin 2 through a first rotating shaft 32;

the first limiting column 20 is located in the first operation notch 23 and the second operation notch 24 and alternately moves, and the first connecting rod 19 is clamped into or pulled out of the first clamping groove 17 of the first clamping block 16.

When the first cabin body 1 and the second cabin body 2 are used, the first cabin body 1 and the second cabin body 2 are firstly drawn together, one surface of the first cabin body 1 with the first clamping block 16 and one surface of the second cabin body 2 with the adjusting device are ensured to be the same mounting plane, then the first cabin body 1 and the second cabin body 2 are tightly attached, the handle is rotated, the handle is utilized to drive the rotating disc 21 to rotate, and when the rotating disc 21 rotates, the first limiting column 20 positioned in the first running notch 23 or the second running notch 24 can move in the first running notch 23 or the second running notch 24;

when the first limit post 20 is located in the second operation notch 24, because the diameter of the second operation notch 24 is larger than the diameter of the first operation notch 23, the first connecting rod 19 is pushed towards the first fixture block 16, and the first cabin 1 and the second cabin 2 can be fixed through the first connecting rod 19 and the first fixture block 16 after being butted;

according to fig. 3, when the turntable rotates, the C-shaped ring and the first circular ring both rotate synchronously; when the turntable 21 rotates clockwise, the first limiting column 20 moves counterclockwise relative to the turntable 21; when the first limiting column 20 moves anticlockwise in the second running notch 24, the first limiting column 20 moves in the second running notch 24 to the communication opening 31 formed by the C-shaped ring 29 and the angular protrusion 41, and the second limiting block 28 is pushed open under the action of the rotating force of the rotating disc 21, so that the first limiting column 20 enters the first running notch 23 between the C-shaped ring 29 and the rotating disc 21 through the communication opening 31; when the first limit post 20 moves in the first operation notch 23, because the diameter of the second operation notch 24 is smaller than that of the first operation notch 23, the first connecting rod 19 falls downward through the through hole on the first fixing block 18, and the first connecting rod 19 is separated from the first clamping groove 17 on the first clamping block 16, so that the purpose of separating the first cabin 1 from the second cabin 2 is achieved;

then, when the rotating disc 21 continues to rotate clockwise, the first limiting column 20 corresponds to that the rotating disc 21 moves counterclockwise in the first running notch 23, and when the first limiting column 20 reaches the position of the first limiting block 26, the first limiting column 20 opens the communication port 31 between the C-shaped ring 29 closed by the first limiting block 26 and the rotating disc 21; namely, the communication opening 31 closed by the first stopper 26 on the first running notch 23 is opened, and the first stopper 26 closes the communication opening 31 formed by the other set of the rotary disc 21 and the C-shaped ring 29 on the first running notch 23; therefore, the first limit column 20 enters the second running notch 24 through the communication port 31 between the angular protrusion 41 and the C-shaped ring 29, at this time, the first limit column 20 can be jacked up again, the first connecting rod 19 moves upwards, and the first limit column is inserted into the first clamping groove 17, so that the first cabin 1 and the second cabin 2 are fixed; after the first limiting column 20 is separated from the first limiting block 26 or the second limiting block 28, the first limiting block 26 and the second limiting block 28 can rebound through the tension spring, and the first limiting block 26 and the second limiting block 28 can contact the corresponding second limiting columns 25 again; the extension spring is set to be in the prior art, the setting mode of the extension spring in the ratchet wheel can be referred to, and specific connection structures are not repeated herein. The working principle of the buckling mechanisms arranged on the ward area 3 and the second cabin 2 is consistent, and the description is omitted here. The plurality of fastening mechanisms can be arranged at intervals, so that the connection strength of the first cabin body 1 and the second cabin body 2 or the connection strength of the second cabin body 2 and the ward area 3 is improved.

In one embodiment, as shown in fig. 4 to 5, the enclosure 15 is provided with a closing door 33, a first connecting block 35 is spaced apart from one side of the closing door 33 close to the inside of the enclosure 15, and a first hinge shaft 34 is provided at one end of the first connecting block 35 far from the closing door 33; the first articulated shaft 34, close to the top of said closing door 33, rotates the connecting pulley 36, the first articulated shaft 34, close to the lower side of said closing door 33, rotates the connecting collar 46;

a sliding plate 37 with an inclined surface is arranged on the inner wall of the shower stall 15, a first extension plate 38 and a second extension plate 39 are respectively arranged at two ends of the sliding plate 37, the height of the first extension plate 38 is higher than that of the second extension plate 39, and the second extension plate 39 is close to the door opening of the shower stall 15; the second extension plate 39 is vertically arranged, and the first extension plate 38 is horizontally arranged;

a second hinge shaft 47 is arranged on one side of the second extension plate 39, which is far away from the inner wall of the shower stall 15, the circumferential outer wall of the second hinge shaft 47 is used for sleeving a lantern ring 46, and the lantern ring 46 on the second hinge shaft 47 and the lantern ring 46 on the first hinge shaft 34 are respectively connected through a second connecting rod 49;

a third connecting rod 51 is further arranged on the circumferential outer wall of the sleeve ring 46 on the second hinge shaft 47, the other end of the third connecting rod 51 is connected with the cylindrical connecting platform 40, a first handle 42 is arranged on the circumferential outer wall of the cylindrical connecting platform 40, and a second connecting column 48 extending outwards is arranged on one surface, away from the inner wall of the shower room 15, of the cylindrical connecting platform 40; the lower position of the inner wall of the shower stall 15 is provided with a first connecting column 45, and the first connecting column 45 is connected with the second connecting column 48 through a first spring 43.

Because each room in the first cabin 1 and the second cabin 2 is designed to move in one direction, the closing door 33 can also be applied to the opening or closing of other two adjacent rooms; this embodiment is illustrated by a shower enclosure 15, when it is desired to use said shower enclosure 15, by pulling said first handle 42, the third link 51 connected to the cylindrical connecting platform 40 is pulled together, thereby effecting the rotation of the collar 46 connected to said third link 51 on the second hinge axis 47 provided on said second extension plate 39; when the collar 46 rotates, the second link 49 is carried to rotate, and the lower end of the closing door 33 is lifted under the lever action after the second link 49 rotates, so that the pulley 36 arranged at the upper end of the closing door 33 slides on the sliding plate 37 in the inclined structure from bottom to top until the pulley 36 slides to the upper surface of the first extending plate 38, the closing door 33 is completely opened, and a worker can walk out of the shower enclosure 15. When the worker goes out, the first handle is under no action of human force, the first spring is gradually pulled, and when the first spring is pulled, the collar 46 rotates anticlockwise around the second hinge shaft 47, so that the second connecting rod rotates anticlockwise, and the purpose of closing the door is achieved; similarly, when the door is opened, the second link moves clockwise on the second hinge shaft 47 via the collar 46.

In one embodiment, when the worker leaves the shower stall 15 or leaves the previous working point and enters the next room for working, the closing door 33 is closed to reduce the mutual air circulation in the rooms, thereby reducing the rapid spread of the virus in the first or second enclosure 1 or 2 due to the careless leakage of the virus; if the first spring fails, the closing door cannot be closed well, thereby causing a risk of cross-infection; according to fig. 6 and 7, a closing device is also included, said closing device comprising: a third shaft 60, a first cone 56 and a second cone 58,

the third rotating shaft 60 is rotatably penetrated on a third connecting block 59, the third connecting block 59 is fixed on the outer side of the shower stall 15, one end of the third rotating shaft 60 is connected with a motor, the other end of the third rotating shaft is connected with a second cone 58, the surface with the large diameter of the second cone 58 is connected with the third rotating shaft 60, the connecting surface of the third rotating shaft 60 and the second cone 58 is obliquely arranged, and the axial center line of the third rotating shaft 60 and the axial center line of the second cone 58 are arranged in an obtuse angle;

two first cones 56 are symmetrically arranged above the second cone 58, and the conical surfaces of the first cones 56 and the conical surface of the second cone 58 are tangentially arranged; the two first cones 56 are connected through a fourth connecting rod 57, and the small-diameter surfaces of the first cones 56 are both arranged towards the fourth connecting rod 57; the fourth connecting rod 57 swings back and forth in the movable groove 54 arranged below the second connecting block 53, a second rotating shaft 55 is further arranged on the fourth connecting rod 57, and the axial center lines of the second rotating shaft 55 and the fourth connecting rod 57 are vertically arranged; the second rotating shaft 55 penetrates through the second connecting block 53, and is used for rotatably arranging the fourth connecting rod 57 in the movable groove 54; one end of the second rotating shaft 55 is provided with a second handle 52, the other end of the second rotating shaft 55 penetrates through the side wall of the shower room and is connected with a lantern ring 46, and the lantern ring 46 is connected with the lantern ring 46 of the third connecting rod 51; the second connecting block 53 is fixed on the outer side wall of the shower stall 15; the second handle 52 is located on the outside of the shower stall 15; the axial centerlines of the second cone 58 and the third shaft 60 are off-axis.

In this embodiment, the shower enclosure 15 is just one example, and the closing device can be used in any two adjacent rooms with one-way walking; namely, the closing device and the closing door 33 can be jointly and commonly applied to any one-way walking or two-way walking rooms in the first cabin 1, the second cabin 2 and the ward area 3, thereby achieving the opening or closing purpose of each room.

In use, the closure door 33 may be closed in a manual mode; when the worker needs to leave the shower stall 15, the first handle 42 is used for starting the opening of the closing door 33, after the worker leaves the shower stall 15, the second handle 52 arranged outside the shower stall 15 is rotated, the second rotating shaft 55 is rotated to drive the collar 46 to rotate, the collar 46 is rotated to drive the second connecting rod 49 connected to the collar 46, the second connecting rod 49 is moved to drive the first connecting block 35 at the lower end of the closing door 33 to move towards the ground of the shower stall 15, and therefore the pulley 36 connected to the first connecting block 35 above the closing door 33 slides from the first extending plate 38 to the sliding plate 37 and finally slides to the position, close to the doorway, of the sliding plate 37, the closing door 33 is changed from the state of being parallel to the ground to the state of being vertical to the ground, so as to achieve the aim of closing the module of the shower enclosure 15 by the closing door 33;

to reduce cross-contamination, the closing of the closure door 33 can also be performed in an electric mode; when the shower enclosure is used, the third rotating shaft 60 is connected with a motor, the motor is provided with a switch, the switch is positioned on a lower wall or ground outside the shower enclosure 15, the switch is turned on by stepping or kicking, after the switch is turned on, the motor is started, the third rotating shaft 60 is rotated after the motor is started, the third rotating shaft 60 is rotated to drive the second cone 58 on the third rotating shaft 60 to rotate, the axial center lines of the second cone 58 and the third rotating shaft 60 are arranged in an off-axis mode and have obtuse angles, so that the second cone 58 has a deflection angle, when the second cone 58 rotates, the deflection angle can drive one surface of the second cone 58, which is far away from the third rotating shaft 60, to deflect and rotate, and therefore, the first cone 56 is driven to alternately swing, and after the first cone 56 alternately swings, the fourth connecting rod 57 drives the second rotating shaft 55 to alternately swing anticlockwise and clockwise, the lantern ring 46 connected with the second rotating shaft 55 further swings, and when the second rotating shaft 55 swings, the purpose of closing or opening the closing door 33 is achieved; therefore, the condition that the staff touches the hands when opening or closing the closed door 33 is reduced, the risk of cross infection is reduced, and the condition that viruses are spread in a cross mode due to leakage is further reduced.

In one embodiment, the shower enclosure 15 is the last room of the first cabin 1 or the second cabin 2, and the staff can complete self-disinfection after leaving the shower enclosure 15, in order to reduce the spreading of the shower enclosure 15 caused by virus carried in the shower enclosure during multiple uses, as shown in fig. 8 and 9, the shower enclosure further comprises a cleaning device, and the cleaning device comprises: the shower bath cabinet comprises a barrel 65, a square frame 78 and a spray head 74, wherein the square frame 78 is arranged at the top of the shower bath 15, a fourth fixing block 67 and a fifth fixing block 76 are arranged on a lower cross beam of the square frame 78 at intervals, and a third fixing block 61 and a sixth fixing block 81 are arranged on an upper cross beam of the square frame 78 at intervals;

a fifth rotating shaft 82 is rotatably arranged on the sixth fixed block 81, a second gear 80 is arranged inside the frame body of the square frame 78, and the second gear 80 is arranged at one end, close to the sixth fixed block 81, of the fifth rotating shaft 82; a rotating drum 77 is sleeved at one end of the fifth rotating shaft 82, which is far away from the sixth fixed block 81, and a second guide groove 79 is formed in the circumferential outer wall of one end, which is close to the fifth rotating shaft 82, of the rotating drum 77;

the other end of the rotating drum 77 penetrates through the fifth fixed block 76 and is rotatably arranged in a through hole of the fifth fixed block 76, a connecting disc 71 is arranged at one end of the rotating drum 77 away from the second guide groove 79, a sixth connecting rod 73 extending outwards is arranged on the circumferential outer wall of the connecting disc 71, an outwards extending vertical plate 75 is arranged at one end of the sixth connecting rod 73 away from the connecting disc 71, and a spray head 74 is arranged on the vertical plate 75;

a seventh rotating shaft 87 is rotatably connected between the third fixed block 61 and the fourth fixed block 67, one end of the seventh rotating shaft 87, which is close to the third fixed block 61, penetrates through the third fixed block 61 and is used for connecting a motor, a barrel 65 is fixed on the seventh rotating shaft 87, and the seventh rotating shaft 87 and the barrel 65 are coaxially arranged;

a first gear 64 is arranged on one surface of the barrel 65 close to the third fixed block 61, and the first gear 64 and the second gear 80 are meshed;

the circumferential outer wall of the barrel 65 is provided with a first guide groove 66 of a closed loop structure; a water inlet is formed in one surface, close to the first gear 64, of the barrel 65; a water outlet is formed in one surface, close to the fourth fixing block 67, of the barrel 65, and is connected with a water outlet pipeline, and the other end of the water outlet pipeline is connected with a water inlet end of the spray head 74; the first guide groove 66 is formed in the circumferential outer wall of the tub 65.

The first guide groove 66 and the second guide groove 79 are connected through a limiting mechanism, and the limiting mechanism comprises: a first panel 70, a seventh fixing block 62 and an eighth link 84,

the first panel 70 extends from the side of the fifth fixed block 76 to the outside of the square frame 78, the second panel 69 extends from the side of the first panel 70 close to the tub 65, the fifth connecting rod 63 is arranged on the upper surface of the second panel 69, one end of the fifth connecting rod 63 away from the second panel 69 is connected to the seventh fixed block 62, a third hinge shaft 85 extends from the side of the seventh fixed block 62 close to the tub 65 and the side close to the drum 77, and an eighth connecting rod 84 is rotatably arranged on the third hinge shaft 85; one end of the eighth link 84 away from the hinge shaft is connected into a whole through a seventh link 83, and the seventh link 83 and the two eighth links 84 form a U-shaped structure;

third limiting columns 86 are symmetrically arranged on two sides of one end, far away from the third hinge shaft 85, of the U-shaped structure;

the third position-limiting column 86 near the barrel 65 is engaged with the first guide groove 66, and the third position-limiting column 86 near the drum 77 is engaged with the second guide groove 79.

The shower stall 15 is also internally provided with infrared induction sensors and a plurality of controllers, the controllers are electrically connected with the infrared induction sensors, and the infrared induction sensors are respectively used for acquiring the door closing state of the closed door 33 and whether people exist in the shower stall 15; the controller is also connected with a motor of the cleaning device, the barrel 65 is also provided with a pump, the pump is connected with the controller, and the pump is used for pumping the liquid in the barrel 65 into the spray head 74;

the information collected by the controller is that the closing door 33 of the shower stall 15 is closed, and under the condition that the shower stall 15 is unoccupied, the controller starts the motor of the cleaning device to work, after the motor of the cleaning device works, the seventh rotating shaft 87 rotates to enable the first gear 64 to rotate, and the first gear 64 rotates to be meshed with the second gear 80 to rotate; meanwhile, the barrel 65 connected with the seventh rotating shaft 87 rotates together, the barrel 65 is filled with water and a certain proportion of disinfectant, and the barrel 65 can be beneficial to dissolving the water and the disinfectant in the barrel 65 when rotating; the controller also simultaneously starts a pump connected to the barrel 65, and the pump can guide the disinfectant in the barrel 65 to the spray head 74, so that the spray head 74 can spray and disinfect the shower room 15;

further, since the outer wall of the barrel 65 is provided with the first guide groove 66, the first guide groove 66 is connected to the second guide groove 79 through the limiting mechanism, and the eighth connecting rod 84 on the limiting mechanism is rotatably connected to the seventh fixing block 62, when the first guide groove 66 of the arc-shaped structure on the outer wall of the barrel 65 changes along with the rotation of the barrel 65, the first guide groove 66 drives the second guide groove 79 to move up and down together, so that the drum 77 moves up and down on the fifth rotating shaft 82, and when the drum 77 moves up and down, the connecting disc 71 and the sixth connecting rod 73 are driven to move up and down, so that the spray head 74 on the vertical plate 75 can be driven to move up and down, and further, the spray head 74 can move up and down to spray disinfectant; one end of the first guide groove 66 is higher than the other end thereof in the sectional structure of the first guide groove, that is, the highest position of the first guide groove is close to the first gear; the lowest position of the first guide groove is close to the fourth fixing block 67.

Further, the drum 77 and the fifth rotating shaft 82 are connected by splines, so that the drum 77 can move up and down along the axial center line of the fifth rotating shaft 82 on the periphery of the fifth rotating shaft 82, and can also rotate circumferentially along with the rotation of the fifth rotating shaft 82, the rotation of the fifth rotating shaft 82 is realized by engaging the first gear 64 with the second gear 80, and the second gear 80 drives the fifth rotating shaft 82 to rotate; therefore, the rotating drum 77 rotates around the axial center line of the fifth rotating shaft 82, so that the spray head 74 can also rotate circumferentially, and therefore, the spray head 74 can spray disinfectant up and down and also spray in a rotating manner, the disinfection efficiency of the shower stall 15 is greatly improved, and the possibility of virus diffusion caused by virus leakage or cross infection is effectively inhibited.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (8)

1. A fast-assembled mobile shelter hospital is characterized by comprising a first cabin body, a second cabin body and a ward area which are sequentially and adjacently arranged, wherein a plurality of functional rooms are respectively arranged in the first cabin body and the second cabin body,

the first cabin body and the second cabin body are communicated through a transmission window, and the second cabin body and the ward area are communicated through a transmission window.

2. The rapidly assembled mobile shelter hospital as claimed in claim 1, wherein said multifunctional room of said first shelter comprises a fresh air cabin, a first dressing room, a buffer room, a PCR detection room, a second dressing room and a sterilization room, which are arranged in sequence;

the fresh air cabin is used for providing fresh air and supplying the fresh air to the first dressing room, the buffer room, the PCR detection room, the second dressing room and the disinfection room through a fresh air pipeline;

the first dressing room and the buffering room are communicated through a walking channel; the buffer room is communicated with the PCR detection room through a walking channel, and the PCR detection room is communicated with the second dressing room through a walking channel; the disinfection room is respectively communicated with the PCR detection room and the second dressing room through a transmission window;

first changing the clothing room is equipped with personnel's entry end, the disinfection room is equipped with the filth exit end, second changing the clothing room is equipped with personnel's exit end.

3. A quickly assembled mobile shelter hospital as claimed in claim 2 in which said second shelter multi-purpose room comprises: a fresh air cabin, a third dressing room, a reagent preparation room, a buffer room, a sample processing room, a fourth dressing room and a shower room;

the fresh air cabin is used for providing fresh air and supplying the fresh air to the third dressing room, the reagent preparation room, the buffer room, the sample processing room, the fourth dressing room and the shower room through a fresh air pipeline;

the third dressing room is communicated with the reagent preparation room and the buffer room through a walking channel respectively; the buffer room is communicated with the sample processing room through the walking channel, the sample processing room is communicated with the fourth dressing room through the walking channel, and the fourth dressing room is communicated with the shower room through the walking channel;

the third dressing room is provided with a personnel inlet end, and the shower room is provided with a personnel outlet end.

4. A fast-assembling mobile shelter hospital as claimed in claim 3, wherein said reagent preparation room and said sample processing room are in communication through a transfer window, and said fourth dressing room and said sterilization room are in communication through a transfer window;

the sample processing room and the PCR detection room are communicated through a transmission window.

5. The rapidly assembled mobile shelter hospital according to claim 4, wherein the indoor air pressure of said first and third change rooms is standard atmospheric pressure; the indoor air pressure of the buffer room is-10 Pa, and the indoor air pressure of the reagent preparation room is 10 Pa; the indoor air pressure of the sample processing room is-20 Pa, the indoor air pressure of the PCR detection room is-30 Pa, the indoor air pressure of the second dressing room and the fourth dressing room is-10 Pa, and the indoor air pressure of the sterilizing machine is-15 Pa.

6. The mobile shelter hospital for rapid assembly as claimed in claim 4, wherein said sample processing room is sequentially provided with a nucleic acid extractor, a water tank and a biosafety cabinet, and said reagent preparation room is sequentially provided with a water tank and a biosafety cabinet.

7. The rapidly assembled portable shelter hospital as claimed in claim 4 in which an autoclave is provided in said sterilization booth and a test bed, a water tank and a water tank are provided in sequence in said PCR detection booth.

8. The rapidly assembled mobile shelter hospital as claimed in claim 3, wherein said fresh air cabin is provided with a fresh air blower, and the inner top of said first and second cabins are provided with fresh air ducts respectively communicating with fresh air outlets of fresh air blowers provided in said first and second cabins;

the fresh air pipeline is provided with air outlets, and the air outlets are respectively in one-to-one correspondence with rooms in the first cabin body and the second cabin body.

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