CN217501204U - Isolation ward module - Google Patents

Abstract

The utility model discloses an keep apart ward module, keep apart the ward module and include: a toilet; the inflatable membrane ward unit is used for limiting a ward space, and the toilet is arranged outside the inflatable membrane ward unit and is selectively communicated with the ward space; and the sealing assembly is arranged outside the inflatable membrane ward unit and is suitable for limiting an installation space for placing a toilet, or the sealing assembly is suitable for limiting the installation space together with the inflatable membrane ward unit. From this, through the better lavatory of installation isolation in keeping apart the ward module to install the lavatory in the installation space of aerifing membrane ward unit outside, compare with prior art, can separate away with the ward space in the lavatory, thereby can keep the air health in the ward space, and then can reduce the sick probability in keeping apart the sick room module. Moreover, various devices can be pre-installed in the toilet, so that the building time of the isolation ward module can be reduced, and the efficiency of the isolation ward module for processing emergency medical events can be improved.

Description

Isolation ward module

Technical Field

The utility model belongs to the technical field of medical instrument and specifically relates to an keep apart ward module is related to.

Background

In the related art, in the existing isolation ward module, the inflatable membrane ward unit limits a toilet space, the toilet space is communicated with the ward space, and the isolation between the toilet space and the ward space is poor, so that the toilet space easily pollutes air in the ward space, and the sickening probability in the ward space is increased. In addition, each item of equipment in the toilet space is long in installation time, so that the construction time of the isolation ward module is prolonged, and the efficiency of the isolation ward module for processing emergency medical events is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, an object of the utility model is to provide an keep apart ward module, this keep apart ward module can separate with the ward space in the lavatory to can keep the air health in the ward space, and then can reduce the probability of sickening disease in the isolation ward module. Moreover, various devices can be pre-installed in the toilet of the isolation ward module, so that the construction time of the isolation ward module can be reduced, and the efficiency of the isolation ward module for processing emergency medical events can be improved.

According to the utility model discloses an keep apart ward module includes: a toilet; the inflatable membrane ward unit is used for limiting a ward space, and the toilet is arranged outside the inflatable membrane ward unit and is selectively communicated with the ward space; a seal assembly disposed outside the inflatable membrane ward unit, the seal assembly adapted to define an installation space for placement of the toilet, or the seal assembly adapted to define the installation space in cooperation with the inflatable membrane ward unit.

According to the utility model discloses an keep apart ward module is through the better lavatory of installation isolation in keeping apart the ward module to install the lavatory in aerifing the outside installation space of membrane ward unit, compare with prior art, can separate with the ward space in the lavatory, thereby can keep the air health in the ward space, and then can reduce the probability of falling ill in the isolation ward module. Moreover, various devices can be pre-installed in the toilet, so that the building time of the isolation ward module can be reduced, and the efficiency of the isolation ward module for processing emergency medical events can be improved.

In some examples of the present invention, the isolation ward module further comprises: and the rain shielding part is arranged above the toilet and used for shielding the toilet in the height direction of the toilet.

In some examples of the invention, the seal assembly and the inflatable membrane ward unit together define the installation space.

In some examples of the invention, the seal assembly comprises: seal receptacle, sealed lid and sealed side wall, the seal receptacle is close to aerify one side of membrane ward unit, sealed lid is close to aerify one side of membrane ward unit with sealed side wall is close to aerify one side of membrane ward unit all with aerify membrane ward unit sealing connection, sealed side wall is suitable for to be connected the seal receptacle with in order to inject between the sealed lid installation space.

In some examples of the present invention, the sealing side wall is connected to the sealing seat and the sealing cover in a sealing manner through an adhesive structure.

In some examples of the invention, the seal seat comprises: a capsule bottom wall and a capsule side wall connected to the capsule bottom wall to define a first holding tank for receiving the lavatory.

In some examples of the present invention, the setting height of the side wall of the sealing seat is H1, and satisfies the following relation: h1 is more than or equal to 50mm and less than or equal to 3000 mm.

In some examples of the invention, the sealing cover comprises: a sealing cover top wall and a sealing cover side wall connected to the sealing cover top wall to define a second holding tank for holding the lavatory.

In some examples of the present invention, the height of the sealing cover sidewall is H2, satisfying the following relation: h2 is more than or equal to 50mm and less than or equal to 3000 mm.

In some examples of the present invention, the sealing side wall comprises a plurality of sub-sealing side walls, and a plurality of the sub-sealing side walls are disposed around the toilet in sequence, and at least two of the sub-sealing side walls are detachably connected.

In some examples of the present invention, the upper end of the sealed side wall is provided with an upper drawstring, and the lower end of the sealed side wall is provided with a lower drawstring.

In some examples of the invention, the rain shield is provided with a first mounting portion, and the rain shield is provided with a second mounting portion connected to the first mounting portion.

In some examples of the invention, the first mounting portion is one of a collar and a binding-rope, and the second mounting portion is the other of the collar and the binding-rope.

In some examples of the invention, the inflatable membrane ward unit is further configured to define a first buffer space, the first buffer space is located between the ward space and the toilet, the first buffer space is selectively communicated with the ward space the toilet.

In some examples of the invention, the inflatable membrane ward unit is provided with a first opening and closing door for airtight partition or communication, the first opening and closing door corresponds to the toilet.

In some examples of the invention, the inflatable membrane ward unit is provided with a second opening/closing door for performing airtight partition or communication, the second opening/closing door corresponds to the first buffer space.

In some examples of the invention, the inflatable membrane ward unit is provided with a third open-close door corresponding to the ward space for performing an airtight partition or communication.

In some examples of the present invention, the inflatable membrane ward unit is further configured to define a second buffer space, the second buffer space is located between the third open/close door and the ward space, the second buffer space is provided with a fourth open/close door for airtight partition or communication between the ward spaces.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic view of an isolation ward module according to an embodiment of the present invention;

FIG. 2 is an exploded view of an isolation ward module according to an embodiment of the present invention;

FIG. 3 is an exploded view of another angle of an isolation ward module according to an embodiment of the present invention;

fig. 4 is a schematic diagram of an isolation ward module and a medical corridor according to an embodiment of the present invention;

FIG. 5 is a cross-sectional view of an isolation ward module and a medical corridor according to an embodiment of the present invention;

fig. 6 is a schematic diagram of a ward group according to an embodiment of the present invention.

Reference numerals:

an isolation ward module 100; a medical corridor 200; a ward group 1000;

a toilet 10;

an inflatable membrane ward unit 20; a ward space 201; a first buffer space 202; a first opening/closing door 203; a second opening/closing door 204; a third open/close door 205; a fourth open door 206; a fifth opening/closing door 207; a second buffer space 208;

a seal assembly 30; an installation space 301; a seal seat 302; a seal cover 303; a seal side 304; an adhesive structure 305; a seal mount bottom wall 306; a seal seat sidewall 307; a seal cap top wall 308; a seal cap sidewall 309; the first placing groove 310; the second placement groove 311; a sub-seal side wall 312; an upper drawstring 313; a lower drawstring 314; a first mounting portion 315; a second mounting portion 316;

a rain shield 40.

Detailed Description

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

The isolation ward module 100 according to the embodiment of the present invention is described below with reference to fig. 1 to 6, the isolation ward module 100 can be used as a mobile ward, the isolation ward module 100 can be rapidly set up in a wide area such as a stadium, an exhibition hall, etc., the isolation ward module 100 can be used for isolating the patient when the infectious disease occurs, and the isolation ward module 100 can also be used for accommodating the crowd when other emergencies occur.

As shown in fig. 1 to 6, the isolation ward module 100 according to the embodiment of the present invention includes: the toilet 10, the inflatable membrane ward unit 20 and the sealing assembly 30, wherein the toilet 10 may be a self-contained portable toilet 10, the portable toilet 10 may be of a type including a high standard toilet 10 and a compact toilet 10, etc., and a water supply system, a drainage system, a disinfection system, etc. may be preset in each of the high standard toilet 10 and the compact toilet 10. The portable lavatory 10 has a housing that may define a lavatory space, and an opening and closing door for opening and closing the lavatory.

Moreover, the inflatable membrane ward unit 20 is used for defining a ward space 201, the inflatable membrane ward unit 20 may include an inflatable membrane outer wall, the inflatable membrane outer wall may be configured as a double-layer inflatable membrane structure, the inflatable membrane outer wall may form a gas column or a gas wall having a supporting function by inflating gas between the double-layer membrane structure, and the inflatable membrane outer wall may be folded after the gas is extracted, so that the isolation ward module 100 may be conveniently set up at any place. And the inflatable membrane outer wall is smaller in size after being folded and packaged, so that the inflatable membrane outer wall can be conveniently transported to other places, and after the epidemic situation is over and the isolation ward module 100 is not needed to be used, the inflatable membrane outer wall with air being pumped out is also convenient to store and store.

Can place sick bed, medical equipment and articles for daily use etc. in ward space 201, and, for rational utilization ward space 201, can place multirow sick bed in the ward space 201, every row of sick bed can include many sick beds, when the sick quantity is more, so set up the quantity of acceping that can increase the disease, thereby can improve the ability of seeing a doctor of keeping apart ward module 100, and then can make and keep apart ward module 100 and deal with various emergency events. Further, a fresh air system, a management system, a disinfection system and the like can be installed in the ward space 201 to improve the management capability and the sanitary condition in the ward space 201.

The toilet 10 is disposed outside the inflatable membrane ward unit 20 and selectively connected to the ward space 201, wherein, as shown in fig. 3-6, one end of the inflatable membrane ward unit 20 may be connected to a medical corridor 200, and further, as shown in fig. 6, after the medical corridor 200 is simultaneously connected to a plurality of inflatable membrane ward units 20, a ward group 1000 may be formed, and medical staff and patients may enter the inflatable membrane ward unit 20 through the medical corridor 200. The toilets 10 may be located at the end of the inflatable membrane patient room unit 20 remote from the medical corridor 200, and the toilets 10 may also be located on the side walls of the inflatable membrane patient room unit 20 adjacent to the medical corridor 200. From the direction of medical corridor 200 to ward space 201, air pressure in isolation ward module 100 reduces gradually, for example the utility model discloses a in specific some embodiments, air pressure in medical corridor 200 can be higher than ambient atmospheric pressure 5Pa, air pressure in ward space 201 can be less than ambient atmospheric pressure 10Pa, the air current can flow towards ward space 201 from medical corridor 200, air in ward space 201 can in time be changed, and the air in ward space 201 is difficult to pollute the air in medical corridor 200, thereby can make the air in isolation ward module 100, the air in medical corridor 200 all keeps fresh.

The toilet 10 and the ward space 201 can be communicated through the switch door of the toilet 10, when the switch door opens the toilet 10, a patient can enter the toilet 10, and when the switch door closes the toilet 10, the switch door can separate the toilet space from the ward space 201, so that air in the toilet 10 can be prevented from polluting the air in the ward space 201. The seal assembly 30 is disposed outside the inflatable membrane ward unit 20, the seal assembly 30 being adapted to define an installation space 301 for placement of the lavatory 10, or the seal assembly 30 being adapted to define the installation space 301 in cooperation with the inflatable membrane ward unit 20. Wherein, the installation space 301 that seal assembly 30 injectd can be for sealed environment, installation space 301 can have good gas tightness, between external environment and the installation space 301, the difficult circulation of air between ward space 201 and the installation space 301, through installing lavatory 10 in installation space 301, installation space 301 can improve the sealing performance of lavatory 10 and the junction of aerifing membrane ward unit 20, thereby can avoid liquid, wind, sand gets into in the ward space 201, also can keep the low pressure environment in the ward space 201, and then can guarantee to do clean and tidy in the ward space 201.

In addition, the exterior sidewall of the inflatable membrane ward unit 20 and/or the sealing assembly 30 may separate the installation space 301 from the patient room space 201, that is, the exterior sidewall of the inflatable membrane ward unit 20 may separate the installation space 301 from the patient room space 201, or the sealing assembly 30 may separate the installation space 301 from the patient room space 201, or the exterior sidewall of the inflatable membrane ward unit 20 and the sealing assembly 30 may jointly separate the installation space 301 from the patient room space 201, and the isolation between the toilet 10 and the patient room space 201 may be further improved by the cooperation of the exterior sidewall of the inflatable membrane ward unit 20, the sealing assembly 30 and the opening and closing door, so that the pressure difference between the toilet 10 and the patient room space 201 may be further maintained.

Therefore, the toilet 10 with better isolation performance is installed in the isolation ward module 100, and the toilet 10 is installed in the installation space 301 outside the inflatable membrane ward unit 20, compared with the prior art, the toilet 10 can be isolated from the ward space 201, so that the air sanitation in the ward space 201 can be kept, and the disease probability of related personnel in the isolation ward module 100 can be reduced. Furthermore, the toilet 10 may be pre-installed with various devices, so that the set-up time of the isolation ward module 100 may be reduced, and the efficiency of the isolation ward module 100 in handling emergency medical events may be improved.

In some embodiments of the present invention, as shown in fig. 1-3, the isolation ward module 100 may further include: the rain shield 40 may be disposed above the lavatory 10 to shield the lavatory 10, and the height direction of the lavatory 10 may be referred to as the up-down direction in fig. 1. Among other things, in some specific embodiments of the present invention, the rain deflector 40 may be configured as a rain deflector, the radial dimension of the rain deflector may be greater than the radial dimension of the toilet 10, and in rainy weather, rainwater may first fall on the upper surface of the rain deflector, and rainwater may flow along the upper surface of the rain deflector toward the edge of the rain deflector, and then rainwater may drip from the edge of the rain deflector to the ground. In the direction of height of lavatory 10, the projection scope of weather shield can be greater than the projection scope of lavatory 10, and when the rainwater fell to ground from the edge of weather shield, the rainwater was difficult to flow to the upper surface of lavatory 10 to can avoid the rainwater to flow as far as possible and enter installation space 301, and then can keep installation space 301 interior dry.

However, the present invention is not limited thereto, and for example, in some other specific embodiments of the present invention, as shown in fig. 1, the rain shield 40 may be configured as a rain shield eaves, from a side of the toilet 10 close to the inflatable membrane ward unit 20 to a side of the toilet 10 away from the inflatable membrane ward unit 20, i.e., in a direction from the front to the back in fig. 1, the rain shield eaves may be obliquely disposed downward above the toilet 10, and an edge of the rain shield eaves is located outside an edge of the toilet 10. In rainy days, rainwater can at first drip at the upper surface of rain-proof eaves to the rainwater can flow to the edge of rain-proof eaves along the upper surface of rain-proof eaves, and rain-proof eaves can be to the rainwater water conservancy diversion, can make the rainwater flow to ground from the outside of lavatory 10, thereby can avoid the rainwater to flow as far as possible and advance in installation space 301, and then can keep installation space 301 interior dry.

In some embodiments of the present invention, as shown in fig. 3, the seal assembly 30 and the inflatable membrane unit 20 together define an installation space 301. Wherein, the installation space 301 may include a top wall, a bottom wall and a side wall, at least a part of the side wall of the installation space 301 may be formed by the inflatable membrane ward unit 20, the sealing component 30 may be connected with the inflatable membrane ward unit 20, and a connection between the sealing component 30 and the inflatable membrane ward unit 20 may be sealed, so as to avoid pressure relief in the installation space 301, and also avoid unfiltered air in the toilet from flowing out to the outside from the connection between the sealing component 30 and the inflatable membrane ward unit 20. The partial structure of the inflatable membrane ward unit 20 constituting the installation space 301 may be used to communicate the ward space 201 with the lavatory 10, so that the persons in the ward space 201 can get in and out of the lavatory 10. Through the cooperation of the sealing assembly 30 and the inflatable membrane ward unit 20, when the toilet 10 is installed outside the inflatable membrane ward unit 20, rainwater can be prevented from permeating into the toilet 10, the sealing performance of the joint of the ward space 201 and the toilet 10 can be improved, and therefore the use experience of the isolation ward module 100 can be improved.

In some embodiments of the present invention, as shown in fig. 1 and 3, the sealing assembly 30 may include: the inflatable membrane ward unit comprises a sealing seat 302, a sealing cover 303 and a sealing side wall 304, wherein one side of the sealing seat 302 close to the inflatable membrane ward unit 20, one side of the sealing cover 303 close to the inflatable membrane ward unit 20 and one side of the sealing side wall 304 close to the inflatable membrane ward unit 20 are hermetically connected with the inflatable membrane ward unit 20, and the sealing side wall 304 is suitable for being connected between the sealing seat 302 and the sealing cover 303 to define an installation space 301. Wherein the sealing seat 302 may be disposed near the lower end of the lavatory 10, and the sealing seat 302 may be used to seal the lower end of the lavatory 10, so that rainwater may be prevented from infiltrating into the installation space 301 from the lower end of the sealing assembly 30, and thus, the inside of the installation space 301 may be kept dry.

The sealing cover 303 may be provided near the upper end of the lavatory 10, and the sealing cover 303 may be used to seal the upper end of the lavatory 10, so that it is possible to prevent rainwater from penetrating into the installation space 301 from the upper end of the sealing assembly 30, and thus it is possible to keep the inside of the installation space 301 dry. The sealing side wall 304 may be disposed at the circumferential outer side of the toilet 10, the sealing side wall 304 may wrap the toilet 10, and the sealing side wall 304 may be used to seal the circumferential outer side of the toilet 10, so as to prevent rainwater from penetrating into the installation space 301 from the circumferential direction of the sealing assembly 30, and further, to keep the installation space 301 dry.

Furthermore, by hermetically connecting the side of the seal receptacle 302 close to the inflatable membrane ward unit 20 with the inflatable membrane ward unit 20, liquid cannot penetrate into the installation space 301 from the connection between the seal receptacle 302 and the inflatable membrane ward unit 20, so that the interior of the installation space 301 can be further kept dry, and at the same time, gas cannot flow out of the installation space 301 from the connection between the seal receptacle 302 and the inflatable membrane ward unit 20, so that pressure relief in the installation space 301 can be avoided.

Correspondingly, by hermetically connecting the side of the sealing cover 303 close to the inflatable membrane ward unit 20 with the inflatable membrane ward unit 20, liquid cannot penetrate into the installation space 301 from the connection between the sealing cover 303 and the inflatable membrane ward unit 20, and by hermetically connecting the side of the sealing side wall 304 close to the inflatable membrane ward unit 20 with the inflatable membrane ward unit 20, liquid cannot penetrate into the installation space 301 from the connection between the sealing side wall 304 and the inflatable membrane ward unit 20, so that the inside of the installation space 301 can be further kept dry, and meanwhile, gas cannot flow out of the installation space 301 from the connection between the sealing cover 303 and the inflatable membrane ward unit 20 and the connection between the sealing side wall 304 and the inflatable membrane ward unit 20, so that the pressure relief in the installation space 301 can be avoided.

In some embodiments of the present invention, as shown in fig. 2 and fig. 3, the sealing side enclosure 304 may be hermetically connected to the sealing seat 302 and the sealing cover 303 through an adhesive structure 305. Wherein, the bonding structure 305 may be a magic tape or a disposable adhesive tape. Preferably, the adhesive structure 305 may be a hook and loop fastener, the sealing effect of the hook and loop fastener is better, and the hook and loop fastener may be used many times, which may reduce the use cost of the isolation ward module 100. The magic tape may include a rough surface and a thorn surface, the rough surface and the thorn surface may be arranged oppositely, one of the sealing side wall 304 and the sealing seat 302 may be provided with a rough surface, the other of the sealing side wall 304 and the sealing seat 302 may be provided with a thorn surface, for example, the sealing side wall 304 may be provided with a rough surface, and the sealing seat 302 may be provided with a thorn surface, or the sealing seat 302 may be provided with a rough surface, and the sealing side wall 304 may be provided with a thorn surface, and the rough surface and the thorn surface of the magic tape are arranged at the edge of the sealing side wall 304 and the edge of the sealing seat 302, and the sealing side wall 304 and the sealing seat 302 may be hermetically connected through the adhesive fit of the rough surface and the thorn surface, so that the joint of the sealing side wall 304 and the sealing seat 302 may have good air tightness and liquid tightness, further the pressure relief of the installation space 301 may be avoided, and unfiltered gas in the installation space 301 may be prevented from being discharged to the external environment from the joint of the sealing side wall 304 and the sealing seat 302, liquid can be prevented from seeping into the installation space 301 from the connection between the seal side wall 304 and the seal holder 302.

Correspondingly, between the sealing side enclosure 304 and the sealing cover 303, one of the sealing side enclosure 304 and the sealing cover 303 may be provided with a rough surface, and the other of the sealing side enclosure 304 and the sealing cover 303 may be provided with a stabbing surface, for example, the sealing side enclosure 304 may be provided with a rough surface, and the sealing cover 303 may be provided with a stabbing surface, or the sealing cover 303 may be provided with a rough surface, and the sealing side enclosure 304 may be provided with a stabbing surface, and the rough surface and the stabbing surface of the magic tape are provided at the edge of the sealing side enclosure 304 and the edge of the sealing cover 303, and the rough surface and the stabbing surface are in adhesive fit, so that the sealing side enclosure 304 and the sealing cover 303 can be hermetically connected, and the joint of the sealing side enclosure 304 and the sealing cover 303 can have good air tightness and liquid tightness, and further the installation space 301 can be prevented from being decompressed, and unfiltered gas in the installation space 301 can be prevented from being discharged to the external environment from the joint of the sealing side enclosure 304 and the sealing cover 303, liquid can be prevented from seeping into the installation space 301 from the joint of the sealing side enclosure 304 and the sealing cover 303.

In some embodiments of the present invention, as shown in fig. 2 and 3, the sealing side wall 304 is detachably connected to both the sealing seat 302 and the sealing cover 303. During the process of assembling the isolation ward module 100, an installer can firstly disconnect the connection between the sealing side wall 304 and the sealing seat 302 and the connection between the sealing side wall 304 and the sealing cover 303, the sealing side wall 304 can open the installation space 301, the installer can place the toilet 10 into the installation space 301 from the outside of the inflatable membrane ward unit 20, the upper end of the toilet 10 can be nested and matched with the sealing cover 303, the lower end of the toilet 10 can be nested and matched with the sealing seat 302, and after the upper end and the lower end of the toilet 10 are all installed in place in the installation space 301, the installer can connect the sealing side wall 304 with the sealing cover 303 and the sealing cover 303 respectively. By making the sealing side wall 304 and the sealing seat 302, and the sealing side wall 304 and the sealing cover 303 detachable, the assembly difficulty of the toilet 10 can be reduced, and the assembly efficiency of the isolation ward module 100 can be further improved.

In some embodiments of the present invention, as shown in fig. 1, the upper end of the sealing side wall 304 may be disposed inside the sealing cover 303, wherein the upper end of the sealing side wall 304 may extend into the sealing cover 303 from the lower end of the sealing cover 303, the sealing cover 303 may shield at least a part of the structure of the upper end of the sealing side wall 304, and in the outside of the sealing assembly 30, a connection gap is provided between the sealing cover 303 and the sealing side wall 304, and the connection gap may be opened downward in the height direction of the toilet 10. When rainwater drops to the upper surface of the sealing cover 303 in rainy days, the rainwater can flow along the upper surface of the sealing cover 303, and because the opening of the connecting gap between the sealing cover 303 and the sealing side wall 304 is positioned at the lower end of the sealing cover 303, when the rainwater flows to the lower end of the sealing cover 303, the rainwater cannot penetrate into the installation space 301 through the connecting gap between the sealing cover 303 and the sealing side wall 304 under the action of gravity, so that the dryness in the installation space 301 can be kept.

The lower end of the sealing side wall 304 may be disposed outside the sealing seat 302. At least part of the structure of the sealing seat 302 may be sleeved outside the sealing seat 302, the upper end of the sealing seat 302 may extend into the sealing side wall 304 from the lower end of the sealing side wall 304, the sealing side wall 304 may cover at least part of the structure of the upper end of the sealing seat 302, and a connection gap may be formed between the sealing seat 302 and the sealing side wall 304 outside the sealing assembly 30, and the connection gap may be opened downward in the height direction of the toilet 10. In rainy days, when rainwater drops to the sealing side wall 304, the rainwater can flow along the surface of the sealing side wall 304, and because the opening of the connecting gap between the sealing seat 302 and the sealing side wall 304 is positioned at the lower end of the sealing side wall 304, when the rainwater flows to the lower end of the sealing side wall 304, the rainwater cannot penetrate into the installation space 301 through the connecting gap between the sealing seat 302 and the sealing side wall 304 under the action of gravity, so that the dryness in the installation space 301 can be kept.

In some embodiments of the present invention, as shown in fig. 3. The seal holder 302 may include: a closure base bottom wall 306 and a closure base side wall 307, the closure base side wall 307 being connected to the closure base bottom wall 306 to define a first standing trough 310 for receiving the lavatory 10. Wherein, the seal seat bottom wall 306 can be extended in the radial direction of the toilet 10, the seal seat bottom wall 306 can be used for supporting the toilet 10, and the seal seat bottom wall 306 can separate the toilet 10 from the ground, the seal seat bottom wall 306 can prevent the accumulated water on the ground from permeating into the installation space 301 from the lower end of the toilet 10, so as to further keep the installation space 301 dry.

Also, the first standing groove 310 may be used to install the lower end of the lavatory 10, the radial dimension of the first standing groove 310 may be greater than that of the lavatory 10, and a groove wall of the first standing groove 310 may be fitted over the outside of the lavatory 10. The seal receptacle side wall 307 may be connected to the circumferential edge of the seal receptacle bottom wall 306, and the seal receptacle side wall 307 may extend upward in the height direction of the toilet 10, and the seal receptacle side wall 307 may separate the first placement groove 310 from the external environment, and when the thickness of the accumulated water on the ground is lower than the setting height of the seal receptacle side wall 307, the accumulated water on the ground may not permeate into the first placement groove 310, so as to keep the first placement groove 310 dry, and further, the installation space 301 may be clean and tidy.

In some embodiments of the present invention, the setting height of the sealing seat sidewall 307 is H1, satisfying the relation: h1 is more than or equal to 50mm and less than or equal to 3000 mm. Among them, by increasing or decreasing the setting height of the seal receptacle side wall 307, the height dimension of the seal receptacle 302 can be increased or decreased, so that the difficulty of rainwater infiltration into the first placing groove 310 can be increased or decreased. Optionally, in some specific embodiments of the present invention, the setting height of the sealing seat sidewall 307 may be 50mm, 150mm, 500mm, 1000mm or 3000mm, etc., and by designing the setting height of the sealing seat sidewall 307 to be 50 mm-3000 mm, the upper end height of the sealing seat 302 is more suitable when the lower end of the toilet 10 is easily installed in the first placing groove 310, so that the liquid is difficult to permeate into the installation space 301, thereby satisfying the waterproof requirement of the installation space 301.

In some embodiments of the present invention, as shown in fig. 2 and 3, the sealing cover 303 may include: a sealing cover top wall 308 and a sealing cover side wall 309, the sealing cover side wall 309 being connected to the sealing cover top wall 308 to define a second receiving slot 311 for receiving the lavatory 10. Wherein, the sealing cover top wall 308 can be extended in the radial direction of the toilet 10, the sealing cover top wall 308 can be located above the toilet 10, the toilet 10 can be spaced from the external environment by the sealing cover top wall 308, the sealing cover top wall 308 can prevent rainwater from dropping into the installation space 301 from the upper end of the toilet 10, and therefore, the interior of the installation space 301 can be further kept dry.

Also, the second placing groove 311 may be used to install the upper end of the lavatory 10, the radial dimension of the second placing groove 311 may be greater than that of the lavatory 10, and a groove wall of the second placing groove 311 may be fitted over the outside of the lavatory 10. The sealing cover side wall 309 can be connected with the circumferential edge of the sealing cover top wall 308, the sealing cover side wall 309 can extend downwards in the height direction of the toilet 10, the second placing groove 311 can be spaced from the external environment by the sealing cover side wall 309, and rainwater on the surface of the sealing cover top wall 308 can be guided to the sealing side wall 304 by the sealing cover side wall 309, so that rainwater can be prevented from permeating into the installation space 301, the first placing groove 310 can be kept dry, and the installation space 301 can be clean and tidy.

In some embodiments of the present invention, the height of the sealing cover sidewall 309 is H2, satisfying the relationship: h2 is more than or equal to 50mm and less than or equal to 3000 mm. Wherein, by increasing or decreasing the setting height of the sealing cover side wall 309, the height dimension of the sealing cover 303 can be increased or decreased, so that the difficulty of rainwater infiltration into the second placing groove 311 can be increased or decreased. Optionally, in some specific embodiments of the present invention, the height of the sealing cover sidewall 309 may be 50mm, 150mm, 500mm, 1000mm or 3000mm, and the height of the sealing cover sidewall 309 is designed to be 50mm to 3000mm, so that the lower end of the sealing cover 303 is more suitable to make the liquid difficult to penetrate into the installation space 301 while ensuring that the upper end of the toilet 10 is easily installed into the second placing groove 311, thereby satisfying the waterproof requirement of the installation space 301.

Further, the setting height of the side wall 307 of the seal seat can be determined according to the height of the toilet 10, and at least part of the structure of the side wall 307 of the seal seat can replace the seal side wall 304, that is, the side wall 307 of the seal seat can be connected with the seal cover 303 in a sealing manner, in some specific embodiments, the seal structure between the side wall 307 of the seal seat and the seal cover 303 can be a magic tape, the seal seat 302 and the seal cover 303 can jointly define the installation space 301, and after the toilet 10 is installed in the installation space 301, the seal seat 302 and the seal cover 303 are connected in a matching manner, so that the interior of the installation space 301 can be sealed, the number of parts of the seal assembly 30 can be reduced, gaps on the seal assembly 30 can be reduced, the building efficiency of the isolation ward module 100 can be improved, and the sealing performance of the seal assembly 30 can be further improved. Also, the seal cap sidewall 309 may fit over the outer side of the seal base sidewall 307 to further improve the fluid-tightness of the seal assembly 30.

Further, the setting height of the sealing cover side wall 309 can be determined according to the height of the toilet 10, and at least part of the structure of the sealing cover side wall 309 can replace the sealing side wall 304, that is, the sealing cover side wall 309 can be connected with the sealing seat 302 in a sealing manner, in some specific embodiments, the sealing structure between the sealing cover side wall 309 and the sealing seat 302 can be a magic tape, the sealing seat 302 and the sealing cover 303 can define the installation space 301 together, after the toilet 10 is installed in the installation space 301, the sealing seat 302 and the sealing cover 303 are connected in a matching manner, so that the interior of the installation space 301 can be sealed, the number of parts of the sealing assembly 30 can be reduced, gaps on the sealing assembly 30 can be reduced, the building efficiency of the isolation ward module 100 can be improved, and the sealing performance of the sealing assembly 30 can be further improved. Also, the seal cap sidewall 309 may fit over the outer side of the seal seat sidewall 307 to further improve the fluid-tightness of the seal assembly 30.

In some embodiments of the present invention, as shown in fig. 2 and fig. 3, the sealed side wall 304 may include a plurality of sub-sealed side walls 312, the plurality of sub-sealed side walls 312 are sequentially connected in the circumferential direction of the toilet 10, and at least two adjacent sub-sealed side walls 312 are detachably connected. As shown in fig. 3, the sealing side wall 304 includes three sub-sealing side walls 312 as an example to explain the present invention, and two of the sub-sealing side walls 312 of the sealing side wall 304 are detachably connected.

In the process of assembling the isolation ward module 100, the two detachable sub-sealing side walls 312 in the sealing side walls 304 are disconnected, so that the sealing side walls 304 can form an opening at the connection position between the two adjacent sub-sealing side walls 312, the opening can communicate the external environment with the installation space 301, and an installer can install the toilet 10 into the installation space 301 from the opening of the sealing side walls 304. When the toilet 10 is installed in place in the installation space 301, the sealing assembly 30 can sealingly receive the toilet 10 in the installation space 301 by cooperatively connecting two adjacent removable sub-sealing side walls 312 of the sealing side walls 304.

Further, the two adjacent sub-seal side walls 312 of the detachable can be connected in a sealing manner through the bonding structure 305, and the bonding structure 305 can be a magic tape or a disposable adhesive tape. Preferably, the adhesive structure 305 may be a hook and loop fastener, the sealing effect of the hook and loop fastener is better, and the hook and loop fastener may be used many times, which may reduce the use cost of the isolation ward module 100. One of the two adjacent sub-sealing side walls 312 may be provided with a rough surface, the other one of the two adjacent sub-sealing side walls 312 may be provided with a stabbing surface, and the rough surface and the stabbing surface are bonded and matched to enable the two detachable adjacent sub-sealing side walls 312 to be connected in a sealing manner, so that the joint of the two adjacent sub-sealing side walls 312 has good air tightness and liquid tightness, and further unfiltered gas in the installation space 301 can be prevented from being discharged to the external environment from the joint of the two adjacent sub-sealing side walls 312, and liquid can be prevented from permeating into the installation space 301 from the joint of the two adjacent sub-sealing side walls 312.

Furthermore, any two adjacent sub-seal side walls 312 can be connected together in a bending manner, an installer can set a corresponding number of sub-seal side walls 312 according to the radial size and shape of the toilet 10, and the plurality of sub-seal side walls 312 are attached to the circumferential outer side wall of the toilet 10, so that the toilets 10 of various sizes can be installed outside the inflatable membrane ward unit 20, the application range of the seal assembly 30 can be expanded, and the universality of the isolation ward module 100 can be improved.

In some embodiments of the present invention, as shown in fig. 2 and 3, the upper end of the sealed side enclosure 304 may be provided with an upper drawstring 313, and the lower end of the sealed side enclosure 304 may be provided with a lower drawstring 314. The upper end of the sealed side wall 304 may be provided with two upper drawstrings 313, the two upper drawstrings 313 may be respectively disposed on two detachable adjacent sub-sealed side walls 312, the lower end of the sealed side wall 304 may be provided with two lower drawstrings 314, the two lower drawstrings 314 may be respectively disposed on two detachable adjacent sub-sealed side walls 312, and the upper drawstrings 313 and the lower drawstrings 314 may be disposed at intervals in the height direction of the toilet 10.

After the sealing assembly 30 is connected in a sealing manner, the two upper drawstrings 313 arranged at the upper end of the sealing side wall 304 can be connected in a binding manner, the two upper drawstrings 313 can be matched to limit the separation of the two detachable adjacent sub-sealing side walls 312, and when the bonding structure 305 between the two detachable adjacent sub-sealing side walls 312 fails, the upper drawstrings 313 can prevent the toilet 10 from being moved out of the installation space 301 from the upper end of the opening between the two sub-sealing side walls 312, so that the toilet 10 can be prevented from being exposed to the external environment for use, and further, the instrument loss of the toilet 10 can be reduced.

Correspondingly, after the sealing assembly 30 is connected in a sealing manner, the two lower drawstrings 314 arranged at the lower end of the sealing side wall 304 can be connected in a binding manner, the two lower drawstrings 314 are matched to limit the separation of the two detachable adjacent sub-sealing side walls 312, and when the bonding structure 305 between the two detachable adjacent sub-sealing side walls 312 fails, the lower drawstrings 314 can prevent the toilet 10 from moving out of the installation space 301 from the lower end of the opening between the two sub-sealing side walls 312, so that the toilet 10 can be prevented from being exposed to the external environment for use, and further, the instrument loss of the toilet 10 can be reduced.

In some embodiments of the present invention, as shown in fig. 1-3, the rain shield 40 is connected to the inflatable membrane patient room unit 20, the seal assembly 30 may be provided with a first mounting portion 315, and the rain shield 40 may be provided with a second mounting portion 316 connected to the first mounting portion 315. Wherein, rain-proof piece 40 can be sewed in the outside of aerifing membrane ward unit 20, but the utility model discloses be not limited to this, rain-proof piece 40 also can be fixed in the outside of aerifing membrane ward unit 20 through connection methods such as bonding, ligature, integrated into one piece for example. The second mounting portion 316 may be disposed at an end of the rain shield 40 far from the inflatable membrane ward unit 20, and by coupling the first mounting portion 315 with the second mounting portion 316, the surface of the rain shield 40 may be tensioned, and rainwater may flow to the outside of the lavatory 10 along the rain shield 40, so that rainwater may be prevented from infiltrating into the mounting space 301 as much as possible.

Further, as shown in fig. 1-3, the first mounting part 315 may be one of a mounting ring and a binding-rope, and the second mounting part 316 may be the other of the mounting ring and the binding-rope. That is, the first mounting part 315 may be a collar and the second mounting part 316 may be a binding string, or the second mounting part 316 may be a collar and the first mounting part 315 may be a binding string, which may be passed through the collar and then bound and fixed to the collar to connect the weather shield 40 to the sealing assembly 30. Preferably, the first mounting portion 315 may be a mounting ring and the second mounting portion 316 may be a binding rope, which may facilitate an installer to adjust a tension of the rain shield 40, so as to avoid the rain shield 40 from being broken due to an excessively large tension of the rain shield 40, and also avoid the rain shield 40 from being poor in flow guiding effect due to an excessively small tension of the rain shield 40.

However, the utility model discloses be not limited to this, for example, keep off rain between piece 40 and the inflatable membrane ward unit 20 and can be connected through the magic subsides, first installation department 315 can be one in the hair side and the thorn face of magic subsides, and second installation department 31 can be the hair side and the other in the thorn face of magic subsides, and the hair side can bond the cooperation with thorn face, can make keeping away from of piece 40 and aerify the one end and the seal assembly 30 of membrane ward unit 20 and be connected. In other embodiments, the rain shield 40 may be connected to the inflatable membrane unit 20 by a strap. Wherein, the first mounting portion 315 may be configured as a first strap, the second mounting portion 31 may be configured as a second strap, and the first strap and the second strap may be in a banding fit, so that an end of the rain shield 40 away from the inflatable membrane ward unit 20 may be connected with the sealing assembly 30.

In some embodiments of the present invention, as shown in fig. 6, the inflatable membrane ward unit 20 is further configured to define a first buffer space 202, the first buffer space 202 is located between the ward space 201 and the toilet 10, and the first buffer space 202 is selectively connected to the ward space 201 and the toilet 10. The first buffer space 202 may separate the patient room space 201 from the toilet space, and the first buffer space 202 may limit air directly passing between the patient room space 201 and the toilet space, specifically, when the first buffer space 202 is not communicated with the patient room space 201, the air in the patient room space 201 cannot flow into the first buffer space 202, and when the first buffer space 202 is not communicated with the toilet 10, the air in the toilet space cannot flow into the first buffer space 202.

When the isolated ward module 100 is used, when one of the first buffer space 202 and the ward space 201 and the first buffer space 202 and the toilet 10 are communicated, the other one of the first buffer space 202 and the ward space 201 and the other one of the first buffer space 202 and the toilet 10 are not communicated, that is, when the first buffer space 202 and the ward space 201 are communicated, the first buffer space 202 and the toilet 10 are not communicated, or when the first buffer space 202 and the toilet 10 are communicated, the first buffer space 202 and the ward space 201 are not communicated, so that the ward space 201 and the toilet 10 can be prevented from directly exchanging air, the air in the ward space 201 and the air in the toilet space can be prevented from being polluted, and the air hygiene in the isolated ward module 100 can be maintained, thereby further reducing the probability of the sick of the relevant personnel in the isolation ward module 100.

Additionally, in some specific embodiments of the utility model, the air pressure of first buffer space 202 can be less than the ambient atmospheric pressure 15Pa, the air pressure of first buffer space 202 can be less than the air pressure of ward space 201 promptly, the air in ward space 201 can flow towards first buffer space 202, the air in ward space 201 can be discharged after first buffer space 202 filters the disinfection and keeps apart ward module 100, thereby can avoid the air pollution surrounding environment in ward space 201, can prevent that the peripheral crowd who keeps apart ward module 100 from sickroom.

In some embodiments of the present invention, as shown in fig. 3 and 6, the inflatable membrane ward unit 20 may be provided with a first opening and closing door 203 for performing airtight partition or communication, and the first opening and closing door 203 corresponds to the toilet 10. Wherein the first opening and closing door 203 can selectively communicate the first buffer space 202 with the external environment, and when the first opening and closing door 203 is disposed opposite to the toilet 10, the first opening and closing door 203 can communicate the first buffer space 202 with the toilet 10 to enable a person to get in and out of the toilet 10. When a person enters the toilet 10, the person can open the first opening and closing door 203 and the opening and closing door of the toilet 10 in sequence, and the first buffer space 202 can be communicated with the toilet 10. When the person leaves the toilet 10, the person can open the open/close door of the toilet 10 and the first open/close door 203 in sequence, and the first buffer space 202 can be communicated with the toilet 10. It can be understood that the sealing between the first buffering space 202 and the toilet 10 can be effectively improved by the cooperation of the first opening and closing door 203 and the opening and closing door of the toilet 10, so that the air pressure difference between the first buffering space 202 and the toilet 10 can be maintained.

In some embodiments of the present invention, the first opening/closing door 203 may be configured as an airtight door, which may be installed on the inflatable membrane unit 20, and the airtight door may selectively control the first buffer space 202 to communicate with the toilet 10 by opening or closing the airtight door. However, the present invention is not limited thereto, for example, the first opening/closing door 203 may be configured as an airtight curtain, and the airtight curtain may be defined by the inflatable membrane ward unit 20, so that the structural integrity of the isolation ward module 100 may be improved, and the time for installing the first opening/closing door 203 on the inflatable membrane ward unit 20 may also be reduced, thereby further improving the assembly efficiency of the isolation ward module 100. And, the airtight curtain can selectively control the first buffer space 202 to communicate with the lavatory 10 by opening or closing the airtight curtain.

In some embodiments of the present invention, as shown in fig. 6, the inflatable membrane ward unit 20 is provided with a second opening/closing door 204 for airtight partition or communication, and the second opening/closing door 204 corresponds to the first buffer space 202. Wherein the second opening and closing door 204 can selectively communicate the first buffer space 202 with the patient room space 201 to enable personnel to enter and exit the first buffer space 202. Further, an air draft device can be further arranged between the first buffer space 202 and the ward space 201, the air draft device can control the air pressure of the first buffer space 202 and the air pressure of the ward space 201, the air can be guaranteed to flow from the ward space 201 to the first buffer space 202, when people do not enter the toilet 10, the first buffer space 202 is controlled not to be communicated with the ward space 201 through the second opening and closing door 204, the air pressure of the first buffer space 202 can be prevented from being balanced with the air pressure of the ward space 201, the air in the ward space 201 can be prevented from being difficult to be discharged to the first buffer space 202, and the air in the ward space 201 can be kept fresh.

In some embodiments of the present invention, the second opening/closing door 204 may be configured as an airtight door, which may be installed on the inflatable membrane patient room unit 20, and the airtight door may selectively control the first buffer space 202 to communicate with the patient room space 201 by opening or closing the airtight door. However, the present invention is not limited thereto, for example, the second opening/closing door 204 may be configured as an airtight curtain, and the airtight curtain may be defined by the inflatable membrane ward unit 20, so that the structural integrity of the isolation ward module 100 may be improved, and the time for installing the second opening/closing door 204 on the inflatable membrane ward unit 20 may also be reduced, thereby further improving the assembly efficiency of the isolation ward module 100. Also, the airtight curtain may selectively control the first buffer space 202 to communicate with the patient room space 201 by opening or closing the airtight curtain.

In some embodiments of the present invention, as shown in fig. 4, the inflatable membrane ward unit 20 may be provided with a third opening/closing door 205 performing airtight partition or communication corresponding to the ward space 201. Wherein the third open and close door 205 may selectively communicate the medical corridor 200 with the patient room space 201 to enable personnel to enter and exit the patient room space 201. Further, air inlet equipment can be further arranged between the medical corridor 200 and the ward space 201, the air pressure of the medical corridor 200 and the ward space 201 can be controlled by the air inlet device, the air can be guaranteed to flow from the medical corridor 200 to the ward space 201, when no person flows between the medical corridor 200 and the ward space 201, the medical corridor 200 and the ward space 201 are not communicated by the third opening and closing door 205, the balance between the air pressure of the medical corridor 200 and the air pressure of the ward space 201 can be avoided, the situation that the air of the medical corridor 200 is difficult to discharge to the ward space 201 can be prevented, the reduction of the air replacement speed in the ward space 201 can be avoided, and the air pollution of the air in the ward space 201 to the medical corridor 200 can be avoided.

In some embodiments of the present invention, the third opening/closing door 205 may be configured as an airtight door, which may be installed on the inflatable membrane ward unit 20, and the airtight door may selectively control the communication between the medical corridor 200 and the ward space 201 by opening or closing the airtight door. However, the present invention is not limited thereto, for example, the third opening/closing door 205 may be configured as an airtight curtain, and the airtight curtain may be defined by the inflatable membrane ward unit 20, so that the structural integrity of the isolation ward module 100 may be improved, and the time for installing the third opening/closing door 205 on the inflatable membrane ward unit 20 may also be reduced, thereby further improving the assembly efficiency of the isolation ward module 100. Also, by opening or closing the airtight curtain, the airtight curtain may selectively control the medical corridor 200 to communicate with the patient room space 201.

In some embodiments of the present invention, as shown in fig. 5 and 6, the inflatable membrane ward unit 20 is further configured to define a second buffer space 208, the second buffer space 208 is located between the third open-close door 205 and the ward space 201, and a fourth open-close door 206 for airtight partition or communication is disposed between the second buffer space 208 and the ward space 201. Wherein the second buffer space 208 may separate the patient room space 201 from the medical corridor 200, and the second buffer space 208 may limit air transfer between the patient room space 201 and the medical corridor 200, and specifically, when the second buffer space 208 is not communicated with the patient room space 201, air in the second buffer space 208 cannot flow into the patient room space 201, and when the second buffer space 208 is not communicated with the medical corridor 200, air in the medical corridor 200 cannot flow into the second buffer space 208.

When the isolated ward module 100 is used, when one of the second buffer space 208 and the ward space 201 and the second buffer space 208 and the medical corridor 200 are communicated, the other one of the second buffer space 208 and the ward space 201 and the second buffer space 208 and the medical corridor 200 cannot be communicated, that is, when the second buffer space 208 and the ward space 201 are communicated, the second buffer space 208 and the medical corridor 200 cannot be communicated, or when the second buffer space 208 and the medical corridor 200 are communicated, the second buffer space 208 and the ward space 201 cannot be communicated, so that by arranging the second buffer space 208 between the ward space 201 and the medical corridor 200, the direct air exchange between the ward space 201 and the medical corridor 200 can be avoided, and the air with germs in the ward space 201 can be prevented from polluting the air in the medical corridor 200, thereby avoiding cross infection among patients in the isolation ward module 100 and further reducing the illness probability of related personnel in the isolation ward module 100.

And, the fourth opening/closing door 206 may selectively communicate the patient room space 201 with the second buffering space 208 to enable persons to get in and out of the patient room space 201. In some specific embodiments of the present invention, the fourth opening door 206 may be configured as an airtight door, which may be installed on the inflatable membrane ward unit 20, and the airtight door may selectively control the ward space 201 to communicate with the second buffer space 208 by opening or closing the airtight door. The present invention is not limited thereto, for example, the fourth opening door 206 may be configured as an airtight curtain, which may be defined by the inflatable membrane ward unit 20, so as to improve the structural integrity of the isolation ward module 100, and also reduce the time for installing the fourth opening door 206 on the inflatable membrane ward unit 20, thereby further improving the assembly efficiency of the isolation ward module 100. Also, the airtight curtain may selectively control the patient room space 201 to communicate with the second buffering space 208 by opening or closing the airtight curtain.

Further, a hand sink and a disinfection device may be disposed in the second buffer space 208, and when a person enters and exits the ward space 201, the relevant person may use the hand sink and the disinfection device to disinfect the body parts such as hands, elbows, and the like, so that the probability of contact infection of the relevant person in the isolated ward module 100 may be reduced.

According to some embodiments of the present invention, as shown in fig. 1 and fig. 2, the inflatable membrane ward unit 20 may further be provided with a fifth opening/closing door 207, and the fifth opening/closing door 207 may be provided in the first buffer space 202. The fifth opening and closing door 207 can communicate the first buffer space 202 with the external environment, the fifth opening and closing door 207 can be used as an emergency exit, when an emergency event (such as a fire and the like) occurs in the isolation ward module 100, patients, family members and medical staff in the isolation ward module 100 can leave the isolation ward module 100 through the fifth opening and closing door 207, and the use safety of the isolation ward module 100 can be improved by arranging the fifth opening and closing door 207 in the inflatable membrane ward unit 20.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

In the description of the present invention, "a plurality" means two or more.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (18)

1. An isolation ward module, comprising:

a toilet;

the inflatable membrane ward unit is used for limiting a ward space, and the toilet is arranged outside the inflatable membrane ward unit and is selectively communicated with the ward space;

a seal assembly disposed outside the inflatable membrane ward unit, the seal assembly adapted to define an installation space for placement of the toilet, or the seal assembly adapted to define the installation space in cooperation with the inflatable membrane ward unit.

2. The isolated patient room module of claim 1, further comprising: and the rain shielding part is arranged above the toilet and used for shielding the toilet in the height direction of the toilet.

3. The isolated room module of claim 1 wherein the seal assembly and the inflatable membrane unit together define the mounting space.

4. The isolated patient room module of claim 3, wherein the seal assembly comprises: seal receptacle, sealed lid and sealed side wall, the seal receptacle is close to aerify one side of membrane ward unit, sealed lid is close to aerify one side of membrane ward unit with sealed side wall is close to aerify one side of membrane ward unit all with aerify membrane ward unit sealing connection, sealed side wall is suitable for to be connected the seal receptacle with in order to inject between the sealed lid installation space.

5. The isolated patient room module of claim 4, wherein the seal side enclosure is sealingly connected to the seal housing and the seal cover by an adhesive structure.

6. The isolated patient room module of claim 4, wherein the seal housing comprises: a capsule bottom wall and a capsule side wall connected to the capsule bottom wall to define a first holding tank for receiving the lavatory.

7. The isolated patient room module of claim 6, wherein said seal housing sidewall is disposed at a height H1, satisfying the relationship: h1 is more than or equal to 50mm and less than or equal to 3000 mm.

8. The isolated patient room module of claim 4 wherein said sealing cover comprises: a sealing cover top wall and a sealing cover side wall connected to the sealing cover top wall to define a second holding tank for holding the lavatory.

9. The isolated patient room module of claim 8 wherein said sealing cover side wall is disposed at a height H2, satisfying the relationship: h2 is more than or equal to 50mm and less than or equal to 3000 mm.

10. The isolation ward module of claim 4, wherein the containment side wall comprises a plurality of sub containment side walls, the plurality of sub containment side walls are connected in series around the circumference of the toilet, and at least two adjacent sub containment side walls are detachably connected.

11. The isolation ward module of claim 4, wherein the upper end of the containment side wrap is provided with an upper drawstring and the lower end of the containment side wrap is provided with a lower drawstring.

12. The isolated ward module of claim 2, wherein the rain shield is connected to the inflatable membrane ward unit, the seal assembly is provided with a first mounting portion, and the rain shield is provided with a second mounting portion connected to the first mounting portion.

13. The isolated patient room module of claim 12, wherein the first mounting portion is one of a mounting ring and a binding-cord and the second mounting portion is the other of the mounting ring and the binding-cord.

14. The isolated patient room module of claim 1, wherein the inflatable membrane patient room unit is further configured to define a first buffer space between the patient room space and the toilet, the first buffer space selectively communicating the patient room space with the toilet.

15. The isolated ward module of claim 1, wherein the inflatable membrane ward unit is provided with a first opening and closing door for air tight partition or communication, the first opening and closing door corresponding to the toilet.

16. The isolated ward module of claim 14, wherein the inflatable membrane ward unit is provided with a second opening and closing door for air tight partition or communication, the second opening and closing door corresponding to the first buffer space.

17. The isolated ward module of claim 1, wherein the inflatable membrane ward unit is provided with a third open-close door corresponding to the ward space for air-tight partition or communication.

18. The isolated ward module of claim 17, wherein the inflatable membrane ward unit is further configured to define a second buffer space, the second buffer space being located between the third open door and the ward space, and a fourth open door for air tight isolation or communication being provided between the second buffer space and the ward space.

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