CN111188514A - Sudden infectious disease fast assembly negative pressure isolation ward - Google Patents

Abstract

The invention relates to a rapid assembling negative pressure isolation ward for sudden infectious diseases, which comprises a supporting frame system and an air bag wall body, wherein the supporting frame system is a polyhedron, system components adopt a rapid splicing structure, and the air bag wall body is arranged on the periphery and the top of the system components. The air bag wall body serving as the wall body can reduce the overall weight, and the frame system is designed in a split mode, so that the air bag wall body is compact in structure, small in occupied size, light in weight and convenient to store as emergency materials.

Description

Sudden infectious disease fast assembly negative pressure isolation ward

Technical Field

The invention relates to the field of emergency storage medical supplies, in particular to a rapidly assembled negative pressure isolation ward for sudden infectious diseases.

Background

In the outbreak of social group sudden infectious diseases, the traditional social medical facilities are not enough to deal with the suddenly increased diseases, and a large number of isolation wards need to be established. In response to sudden infectious diseases, the key point in prevention and control is to finish the construction of a negative pressure isolation ward in a short time, and the conventional construction of the negative pressure isolation ward consumes time and labor during assembly.

Disclosure of Invention

The invention aims to solve the technical problem of the prior art and provides a rapid assembled negative pressure isolation ward for sudden infectious diseases so as to solve at least one of the technical problems.

On one hand, the technical scheme for solving the technical problems is as follows: the utility model provides a ward is kept apart to proruption infectious disease fast assembly negative pressure, includes braced frame system and air pocket wall body, braced frame system is the polyhedron, and installs on its week side and top the air pocket wall body.

Further, the support frame system is a hexahedron formed by connecting cross beams and upright posts through connecting pieces.

Further, mounting grooves are formed in the cross beam, the connecting piece and the stand column corresponding to the air bag wall body, and the side edges of the air bag wall body are inserted into the corresponding mounting grooves respectively.

Furthermore, the section of the mounting groove is arc-shaped and is matched with the shape of the inflated side edge of the air bag wall body.

Further, the ground closed membrane is installed to braced frame system's bottom, the week side of ground closed membrane is equipped with the joint arch, and the crossbeam that is located the bottom is to inboard fixed mounting have the joint recess, the joint arch with joint recess adaptation joint.

The air bag is characterized by further comprising a double-layer door, wherein the air bag wall body is vertically arranged and is provided with a door hole, and the double-layer door is connected and communicated with the door hole.

Further, the air bag air-conditioning system comprises an air purification system and a fresh air-conditioning system which are communicated, wherein an air inlet and an air outlet are vertically arranged on the air bag wall body, the air inlet is connected with the fresh air-conditioning system, and the air outlet is connected with the air purification system.

Further, still include the inflatable sick bed, the inflatable sick bed is placed inside the support frame system.

Further, the system also comprises a comprehensive monitoring cabinet.

The invention has the beneficial effects that: the parts of the invention can be quickly inserted and modularized, can be quickly assembled by using social public buildings or idle buildings and other buildings, and can finish the construction of an isolation ward in a short time, thus being reconstructed into a temporary hospital to treat patients. The air bag wall body serving as the wall body can reduce the whole weight, the support frame system is designed in a split mode, the structure is compact, the occupied size is small, the weight is light, the air bag wall body can be conveniently used as emergency material storage, an air purification and fresh air conditioning system is arranged, a negative pressure system in a ward can be isolated through the air purification system, virus unorganized emission is prevented, virus centralized disinfection treatment operation is effectively achieved, the air bag wall body is completely suitable for personnel treatment in natural disaster events, the ward can be built after the field is flat, and the problem of personnel treatment is solved on the spot. The invention can be quickly assembled and built, has low requirement on the limiting condition of the site, can be used for all social public facilities such as exhibition halls, conference centers, gymnasiums and even open factory buildings, can be used for expropriating the social public facilities when an emergency happens, and can build a negative pressure isolation ward for receiving and treating patients by slightly modifying the social public facilities.

On the other hand, the invention provides a rapid assembly negative pressure isolation ward for sudden infectious diseases, which comprises a plurality of air bag walls and a floor part, wherein the air bag walls are connected in a surrounding manner to form a polyhedral structure with an opening at the bottom, and the air bag walls are communicated; the opening is connected with the floor part in a sealing way.

The invention has the beneficial effects that: a plurality of air pocket wall bodies and the floor part form an integral ward room body structure, the sealing performance is improved, the air pocket wall bodies are convenient to store, store and transport, the cost is saved, the building is quick, and the operation is easy.

Drawings

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

FIG. 2 is a cross-sectional view taken along line C-C of FIG. 1;

FIG. 3 is a top view of FIG. 1;

FIG. 4 is a cross-sectional view taken along line B-B of FIG. 3;

FIG. 5 is an enlarged view of a portion of FIG. 4 at F;

FIG. 6 is an enlarged view of a portion E of FIG. 4;

FIG. 7 is a schematic view of an air bag wall according to the present invention;

FIG. 8 is a schematic view of the beam at the bottom of the present invention;

FIG. 9 is a front view of FIG. 8;

fig. 10 is a schematic view of embodiment 2 of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. the air bag type air bag comprises a support frame system, 11, beams, 12, upright posts, 13, connecting pieces, 14, mounting grooves, 15, clamping grooves, 2, an air bag wall body, 21, an air bag unit, 22, an inflating nozzle, 30, a ground sealing film, 32, a cushion layer, 4, a double-layer door, 5, an air purifying system, 51, an exhaust port, 6, a fresh air conditioning system, 61, an air inlet, 7, an inflating sickbed, 8, a comprehensive monitoring cabinet, 9, a hanging bracket, 10, a shading curtain, 100 and the ground.

Detailed Description

The principles and features of this invention are described below in conjunction with the following drawings, which are set forth by way of illustration only and are not intended to limit the scope of the invention.

Example 1

As shown in fig. 1-9, a rapid assembling negative pressure isolation ward for sudden infectious diseases comprises a support frame system 1 and an air bag wall body 2, wherein the support frame system 1 is a polyhedron, and the air bag wall body 2 is installed on the periphery and the top of the support frame system 1.

Specifically, the air bag wall body is made of recyclable high polymer materials such as sanitary transparent PVC or PE.

Preferably, the negative pressure isolation ward is quickly assembled for sudden infectious diseases, and the supporting frame system 1 is a hexahedron formed by connecting a cross beam 11 and a vertical column 12 through a connecting piece 13.

In particular, the connecting element 13 is located at the 8 corners of the hexahedron.

As shown in fig. 1 to 9, in the negative pressure isolation ward for rapidly assembling sudden infectious diseases, mounting grooves 14 are formed in the beam 11, the connecting member 13 and the column 12 corresponding to the air bag wall 2, and the side edges of the air bag wall 2 are respectively inserted into the corresponding mounting grooves 14. After the air bag wall body is inflated, the supporting frame system and the air bag wall body are interacted to form a stable integral structure, corners on the periphery of the air bag wall body are inserted into the connecting pieces 13, the air bag wall body 2 and the connecting pieces 13 are fixed after the air bag wall body is inflated, and then the connecting pieces are connected with the upright posts and the cross beams.

As shown in figures 1-9, the section of the mounting groove 14 is arc-shaped and is matched with the shape of the side of the airbag wall 2 after being inflated. The sealing purpose of the air bag wall body and the supporting frame system is achieved, the purpose that the upright posts, the cross beams and the condensing pieces are connected and fixed to form the supporting frame system is achieved through the air bag wall body, the rapid assembly is achieved, and no redundant firmware parts exist.

Specifically, the air bag wall body 2 is formed by seamlessly connecting a plurality of air bag units 21, the air bag units are communicated with each other to form a closed integral inner cavity, and after being inflated by the inflating nozzle 22, the air pressure of the inner cavity enables each air bag to expand to form a wall; the periphery is inflated and expanded to be round, and is closely matched with the installation grooves 14 of the upright posts 12 and the cross beams 11, so that the indoor and outdoor isolation effect is achieved.

By utilizing the matching of the mounting groove 14 and the periphery of the air bag wall body 2, the air bag wall body 2 is inflated, the inflated air bag wall body 2 is closely matched with the cross beam 11 and the upright post 12, and meanwhile, the stable connection effect is achieved.

Specifically, the air bag wall body 2 not only ensures the pressure of the inflated air bag in the air bag wall body, but also ensures that the air bag wall body is sealed, and the condition of leakage inside and outside the air bag wall body can not occur.

As shown in fig. 1-9, a sudden infectious disease fast assembly negative pressure isolation ward, ground sealing membrane 30 is installed to the bottom of braced frame system 1, the week side of ground sealing membrane 30 is equipped with the joint arch, and the crossbeam 11 that is located the bottom is to inboard fixed mounting have joint recess 15, the joint arch with joint recess 15 adaptation joint. The purpose of sealing the periphery of the ground sealing film is achieved.

Specifically, as shown in fig. 8, a cross beam 11 at the bottom extends to the ward inside to form a clamping portion, and a clamping groove is formed in the clamping portion.

Specifically, by adopting the bottom sealing structure, the bottom sealing is ensured to be good, and the negative pressure space is favorably maintained.

Specifically, a cushion layer 32 is attached to the lower side of the ground sealing film 30.

As shown in fig. 1-9, the negative pressure isolation ward for rapidly assembling sudden infectious diseases further comprises a double-layer door 4, wherein a door hole is formed in the vertically arranged air bag wall body 2, and the double-layer door is connected and communicated with the door hole.

The door comprises a door body, a door opening channel, a first door, a second door, a transparent plate and the like, wherein the door opening channel is arranged on the periphery of the door body, the first door is opened when the door enters the door body, the second door is opened, the transparent plate is arranged on the periphery of the first door and the second door and is separated from the outside, the air influence of the inner space is ensured to be minimum, and the gas in the inner space is ensured not to be discharged to the outer space through the door opening inorganization.

As shown in fig. 1 to 9, the negative pressure isolation ward for rapidly assembling sudden infectious diseases further comprises an air purification system 5 and a fresh air conditioning system 6 which are communicated with each other, wherein the air bag wall 2 which is vertically arranged is provided with an air inlet 61 and an air outlet 51, the air inlet 61 is connected with the fresh air conditioning system 6, and the air outlet is connected with the air purification system 5. The negative pressure effect is achieved through the matching of air exhaust and air inlet.

Specifically, the air purification system 5 on one hand sterilizes and organizes the gas in the isolation ward for emission, and on the other hand, the air purification system and the fresh air conditioning system 6 are used for isolating and exchanging energy, so that the energy consumption of the air conditioner in the isolation ward is reduced. A fresh air conditioning system 6 and a corresponding air pipeline are arranged. The negative pressure system of the isolation ward is automatically constructed between the exhaust and the air supply.

Preferably, the exhaust port 51 is below and the intake port 61 is above.

As shown in fig. 1-9, a rapid assembly negative pressure isolation ward for sudden infectious diseases further comprises an inflatable sickbed 7, wherein the inflatable sickbed 7 is placed inside the support frame system 1.

The inflatable sickbed 7 is convenient to store, small in occupied space and light in weight.

As shown in figures 1-9, a rapid assembly negative pressure isolation ward for sudden infectious diseases, further comprises a comprehensive monitoring cabinet 8.

Specifically, the integrated monitoring cabinet 8 is provided with a vital sign monitoring instrument, a medical care center is connected by adopting a wireless local area network, uploading and emergency calling of each patient sign data are realized, and a cooperative management system implements management of the medical care center on each isolation ward. The physical signs of patients are comprehensively monitored, a medical care treatment network system is built in a wireless interconnection mode, and real-time interaction between doctors and patients is realized through software and network real-time data centralized control.

Specifically, the hanging hanger 9 is further included in the embodiment and is arranged on the top, and can be used for installing lighting, ultraviolet disinfection lamps, hanging of a dropping bottle, namely corresponding auxiliary facilities and the like.

Specifically, the outer side of the air bag wall body 2 is provided with a shading curtain 10.

In particular, in the embodiment, the materials are all made of thermoplastic environment-friendly recyclable flame-retardant materials, and no solid waste is discarded after the materials are discarded.

The beneficial effect of this embodiment is: each part of this embodiment can peg graft fast, and the modular design, buildings such as usable public building of society or idle factory building, fast assembly can build the completion with the isolation ward in the short time, reforms transform into interim hospital, the treatment patient. The air bag wall body serving as the wall body can reduce the whole weight, the support frame system is designed in a split mode, the structure is compact, the occupied volume is small, the weight is light, the air bag wall body is convenient to store as materials, the air purification and fresh air conditioning system is arranged, the negative pressure system in a ward can be isolated through the air purification system, virus unorganized emission is prevented, virus centralized disinfection treatment operation is effectively achieved, the air bag wall body is completely suitable for personnel treatment in natural disaster events, the ward can be built after the field is flat, and the problem of personnel treatment is solved on the spot. The invention can be quickly assembled and built, has low requirement on the limiting condition of the site, can be used for all social public facilities such as exhibition halls, conference centers, gymnasiums and even open factory buildings, can be used for expropriating the social public facilities when an emergency happens, and can build a negative pressure isolation ward for receiving and treating patients by slightly modifying the social public facilities.

Example 2

As shown in fig. 10, a rapid assembly negative pressure isolation ward for sudden infectious diseases comprises a plurality of air bag walls 2 and a floor part, wherein the air bag walls 2 are connected in a surrounding manner to form a polyhedral structure with an open bottom, and the air bag walls are communicated with each other; the opening is connected with the floor part in a sealing way.

Specifically, the floor part adopts floor leather, and the peripheral side of the floor part is fixedly connected with the air bag wall body at the opening in a sealing way.

Specifically, the air bag wall body is made of recyclable high polymer materials such as sanitary transparent PVC or PE.

Preferably, the negative pressure isolation ward is quickly assembled for sudden infectious diseases, the number of the air bag walls 2 is 5, and five air bag walls 2 are connected with the floor part in a surrounding manner to form a hexahedron.

As shown in the figure, the rapid assembling negative pressure isolation ward for sudden infectious diseases further comprises a double-layer door 4, wherein a door hole is formed in one of the vertically arranged air bag wall bodies 2, and the double-layer door is connected and communicated with the door hole.

The door comprises a door body, a door access door, a door opening gap, a double-layer door and a door opening gap, wherein the door access door is a soft door, the periphery of the door access door is provided with a strong magnetic material magnetic strip, the door opening gap is sealed, the double-layer door and the double-layer door are designed to form a 4-hole channel, a first door is opened during entering, a person enters the first door and then closes the first door, a second door is opened, the periphery of the first door and the second door is transparent and is separated from the outside, the air influence of the inner space is ensured to be minimum.

As shown in fig. 1 to 9, the negative pressure isolation ward for rapidly assembling sudden infectious diseases further comprises an air purification system 5 and a fresh air conditioning system 6 which are communicated with each other, wherein the other air bag wall 2 which is vertically arranged is provided with an air inlet 61 and an air outlet 51, the air inlet 61 is connected with the fresh air conditioning system 6, and the air outlet is connected with the air purification system 5. The negative pressure effect is achieved through the matching of air exhaust and air inlet.

Specifically, the air purification system 5 not only sterilizes the air in the isolation ward but also organizes and discharges the air, but also isolates and exchanges energy with the inlet air of the fresh air conditioning system 6, thereby reducing the energy consumption of the air conditioner in the isolation ward. A fresh air conditioning system 6 and a corresponding air pipeline are arranged. The negative pressure system of the isolation ward is automatically constructed between the exhaust and the air supply.

Preferably, the exhaust port 51 is below and the intake port 61 is above.

As shown in fig. 1-9, a rapid assembly negative pressure isolation ward for sudden infectious diseases further comprises an inflatable sickbed 7, wherein the inflatable sickbed 7 is placed inside the support frame system 1.

The inflatable sickbed 7 is convenient to store, small in occupied space and light in weight.

As shown in figures 1-9, a rapid assembly negative pressure isolation ward for sudden infectious diseases, further comprises a comprehensive monitoring cabinet 8.

Specifically, the integrated monitoring cabinet 8 is provided with a vital sign monitoring instrument, a medical care center is connected by adopting a wireless local area network, uploading and emergency calling of each patient sign data are realized, and a cooperative management system implements management of the medical care center on each isolation ward. The physical signs of patients are comprehensively monitored, a medical care treatment network system is built in a wireless interconnection mode, and real-time interaction between doctors and patients is realized through software and network real-time data centralized control.

In particular, the present embodiment further comprises a hanging hanger 9, which is arranged on the top or placed on the floor part, and can be used for installing lighting, ultraviolet disinfection lamps, hanging of the drip bottle, i.e. the corresponding auxiliary facilities, and the like.

Specifically, the outer side of the air bag wall body 2 is provided with a shading curtain 10.

In particular, in the embodiment, the materials are all made of thermoplastic environment-friendly recyclable flame-retardant materials, and no solid waste is discarded after the materials are discarded.

The present embodiment can be built by directly inflating on the ground 100.

The beneficial effect of this embodiment is: a plurality of air pocket wall bodies and the floor part form an integral ward room body structure, the sealing performance is improved, the air pocket wall bodies are convenient to store, store and transport, the cost is saved, the building is quick, and the operation is easy.

In the description herein, reference to the terms "embodiment one," "embodiment two," "example," "specific example," or "some examples," etc., means that a particular method, apparatus, or feature described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, methods, apparatuses, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. The utility model provides a ward is kept apart to proruption infectious disease fast assembly negative pressure which characterized in that, includes braced frame system and air pocket wall body, braced frame system is the polyhedron, and installs on its week side and top the air pocket wall body.

2. The sudden infectious disease rapid assembly negative pressure isolation ward of claim 1, wherein the support frame system is a hexahedron formed by connecting beams and columns through connectors.

3. The sudden infectious disease rapid assembly negative pressure isolation ward of claim 2, wherein the beam, the connecting piece and the column are provided with mounting grooves corresponding to the air bag wall, and the side edges of the air bag wall are inserted into the corresponding mounting grooves respectively.

4. The sudden infectious disease rapid assembly negative pressure isolation ward of claim 3, wherein the cross section of the mounting groove is arc-shaped, which is adapted to the shape of the inflated side of the airbag wall.

5. The sudden infectious disease rapid assembly negative pressure isolation ward of claim 2, wherein a ground sealing film is installed at the bottom of the support frame system, clamping protrusions are arranged on the peripheral sides of the ground sealing film, clamping grooves are fixedly installed on the inner sides of the cross beams located at the bottom, and the clamping protrusions are in adaptive clamping connection with the clamping grooves.

6. The rapid assembling negative pressure isolation ward for infectious burst diseases according to claim 1, further comprising a double-layer door, wherein the vertically arranged air bag wall is provided with a door hole, and the double-layer door is connected and communicated with the door hole.

7. The rapid assembling negative pressure isolation ward for infectious burst diseases according to claim 1, further comprising an air purification system and a fresh air conditioning system which are communicated, wherein the air bag wall body which is vertically arranged is provided with an air inlet and an air outlet, the air inlet is connected with the fresh air conditioning system, and the air outlet is connected with the air purification system.

8. The sudden infectious disease rapid assembly negative pressure isolation ward of claim 1, further comprising an inflatable hospital bed, wherein the inflatable hospital bed is placed inside the support frame system.

9. The rapid assembly negative pressure isolation ward of sudden infectious diseases according to claim 1, further comprising a comprehensive monitoring cabinet.

10. A negative pressure isolation ward for rapidly assembling sudden infectious diseases is characterized by comprising a plurality of air bag walls and a floor part, wherein the air bag walls are connected in a surrounding manner to form a polyhedral structure with an opening at the bottom and are communicated with each other; the opening is connected with the floor part in a sealing way.

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