CN212613973U - Sealed isolation bin - Google Patents

Abstract

The utility model discloses a sealed isolation storehouse, including a plurality of bearing structure bodies and the cladding body that can remove, a plurality of bearing structure bodies have the position of scattering and fold the position, the cladding body is beta structure, and the cladding body is connected on the bearing structure body, it can change the shape under the bearing structure body's the effect, when being in during the position of scattering, the cladding body can expand the totally enclosed space who forms and keep apart completely with the external world, and cover first wrapping region is in when fold during the position, the cladding body can shrink into in the second wrapping region. The utility model discloses can be possessing removal function, with low costs and build convenient basis on, realize the purpose of keeping apart completely with the external world.

Description

Sealed isolation bin

Technical Field

The utility model relates to the technical field of medical equipment, concretely relates to sealed isolation storehouse.

Background

In the treatment of patients with infectious diseases, it is necessary to isolate such patients to prevent the transmission of infectious viruses to the outside. At present, infectious disease patients are generally transferred to wards formed by adopting an engineering construction mode like hospitals, but the wards are not movable, and a certain time is required for transferring the patients to the wards, so that the optimal treatment time is possibly delayed, meanwhile, the wards are high in manufacturing cost and cost, and in addition, when the aggregated infectious diseases occur, the wards cannot meet the use requirements easily.

Some devices among the correlation technique can adopt the mode of buildding temporarily to form an isolation space to replace above-mentioned ward, for example adopt the mode of frame with the canvas, but this kind of device of buildding temporarily is structurally very simple crude, between frame and the canvas to and all can leave great space between canvas and the ground, can't keep apart with external complete, still have the hidden danger that the virus scatters during the use.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a sealed isolation storehouse can realize the purpose of keeping apart completely with the external world on possessing the removal function, with low costs and building convenient basis.

According to the utility model discloses an embodiment, this sealed isolation storehouse includes:

a plurality of movable support structures having at least a deployed position and a folded position along a path of travel, the plurality of support structures when in the deployed position enclosing a first enclosed area therebetween and the plurality of support structures when in the folded position enclosing together and enclosing a second enclosed area;

the wrapping body is of a folding structure and connected to the supporting structure body, the wrapping body can change shapes under the effect of the supporting structure body, when the wrapping body is located at the scattering position, the wrapping body can be unfolded to form a fully-sealed space which is completely isolated from the outside and cover the first wrapping area, and when the wrapping body is located at the folding position, the wrapping body can be retracted into the second wrapping area.

In some embodiments of the sealed insulation silo, the sealed insulation silo includes a first support structure, a second support structure, a third support structure, and a fourth support structure, and the first support structure, the second support structure, the third support structure, and the fourth support structure respectively form a support point for the cladding.

In some embodiments of the sealed isolation bin, when the sealed isolation bin is located at the scattering position, the first support structure, the second support structure, the third support structure, and the fourth support structure each form a fixed point, the four fixed points are connected end to form a rectangle, and the first wrapping region is a rectangular region.

In some embodiments of the sealed isolation bin, at least one telescopic member is respectively disposed on the first support structure, the second support structure, the third support structure, and the fourth support structure, the cladding body is connected to the telescopic member, and the telescopic member is used to drive the cladding body to expand in a height direction, so that the fully sealed space has a designated height.

In some embodiments of the sealed isolation bin, the sealed isolation bin further includes a telescopic connecting frame connected between the support structures, the connecting frame is used for driving the cladding body to expand along the length direction, so that the fully sealed space has a specified length and a specified width, after the cladding body is completely expanded, the cladding body is in a hexahedral structure, and the four telescopic pieces are respectively abutted to four corners of the cladding body, which are located at the top of the cladding body.

In some embodiments of the sealed isolation cartridge, the connection frame comprises a first connection frame connected between the second support structure and the third support structure, a second connection connected between the third support structure and the fourth support structure, and a third connection frame connected between the fourth support structure and the first support structure.

In some embodiments of the sealed insulated bin, a transparent viewing window is formed on at least one face of the envelope.

In some embodiments of the sealed isolation bin, each of the support structures is further provided with an elastic clip, and when the coating body is completely unfolded, the elastic clip is clamped at four corners of the coating body at the bottom.

In some embodiments of the sealed isolation bin, the cladding body includes two main cladding walls, the main cladding walls are rectangular, four auxiliary cladding walls are connected between the two main cladding walls, two of the four auxiliary cladding walls can extend and contract along a length direction, the other two auxiliary cladding walls can extend and contract along a width direction, and the two main cladding walls are made of a flexible material.

In some embodiments of the sealed isolation bin, the cladding body includes two main cladding walls, the main cladding walls are rectangular, four auxiliary cladding walls are connected between the two main cladding walls, two of the four auxiliary cladding walls can extend and contract along the length direction, the other two auxiliary cladding walls can extend and contract along the width direction, and the two main cladding walls can extend and contract along the length direction and the width direction simultaneously.

Implement the embodiment of the utility model provides a, will have following beneficial effect:

according to the sealed isolation storehouse in above embodiment, it includes the cladding body and a plurality of bearing structure body that can remove, this mobilizable bearing structure body can produce the effect to the cladding body, make the cladding body can expand and form the totally enclosed space that covers first wrapping region and keep apart completely with the external world, and receive and contract in the second wrapping region, consequently when setting up this sealed isolation storehouse, only need control the bearing structure body and remove and can realize, it is convenient to set up, this cladding body adopts flexible material to make, compare with the ward that adopts the engineering construction mode to form, can obviously reduce cost and reduce and take up an area of the space, this sealed isolation storehouse is simultaneously owing to be formed with totally enclosed space, can also reach and keep apart completely with the external world, thereby promote the purpose of keeping apart the effect.

Drawings

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

Wherein:

fig. 1 is a schematic structural view illustrating a sealed insulation cabin in a scattering position according to an embodiment of the present invention;

fig. 2 is a schematic structural view illustrating a sealed isolation bin in a folded position according to an embodiment of the present invention;

fig. 3 illustrates a top view of a sealed insulation silo in a deployed position according to an embodiment of the present invention;

fig. 4 shows a schematic structural diagram of a sealed isolation bin moving along the direction a according to an embodiment of the present invention;

fig. 5 is a schematic structural view illustrating the movement of a sealed separation bin along the direction B according to an embodiment of the present invention;

fig. 6 is a schematic structural view illustrating an extension member of a sealed isolation bin extending to a designated height according to an embodiment of the present invention;

fig. 7 illustrates a cross-sectional view of a sealed isolation bin provided in accordance with an embodiment of the present invention;

fig. 8 is a schematic structural diagram of a first support structure provided according to an embodiment of the present invention;

fig. 9 shows a schematic structural view of a third support structure provided according to an embodiment of the present invention;

figure 10 illustrates a cross-sectional view of a first support structure provided in accordance with an embodiment of the present invention;

figure 11 illustrates another cross-sectional view of a first support structure provided in accordance with an embodiment of the present invention;

fig. 12 shows a schematic structural view of a cladding provided according to an embodiment of the present invention;

fig. 13 shows a schematic structural view of another cladding provided according to an embodiment of the invention;

fig. 14 shows a schematic structural diagram of another cladding provided according to an embodiment of the present invention.

Description of the main element symbols:

100-a support structure; 200-a space enclosing structure; 300-an air intake device; 400-an exhaust device; 500-a temperature regulating device; 600-locking; 101-a first wrap region; 102-a second wrap-around region; 110-a first support structure; 120-a second support structure; 130-a third support structure; 140-a fourth support structure; 150-a link; 160-supporting beams; 210-a cladding; 310-a first air purification net; 320-an air inlet fan; 330-a second air purification net; 410-an exhaust fan; 420-a killing system; 510-a compressor; 520-a condenser; 530-an evaporator; 111-a mobile support; 112-a telescoping member; 113-an air inlet; 114-an air outlet; 131-an exhaust inlet; 132-an exhaust outlet; 151-first connecting rack; 152-a second connecting frame; 153-third link frame; 154-a connecting rod; 211-secondary containment wall; 212-a body; 213-an inflatable body; 214-a viewing window; 1111-seat body; 1112-roller.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The embodiment of the utility model provides a sealed isolation storehouse, this sealed isolation storehouse can realize keeping apart completely with the external world to be applicable to the intensive infectious disease, influenza class infectious disease, tuberculosis infectious disease, unknown reason infectious disease and the nursing of the weak and sick crowd who spreads through the aerosol and use.

In the embodiment of the present invention, referring to fig. 1-3, the sealed separation bin includes a supporting structure 100 and a space enclosing structure 200, the supporting structure 100 mainly plays a supporting role, a function integrating role and a necessary control role, and the space enclosing structure 200 is installed on the supporting structure 100 for forming the sealed separation bin together with the supporting structure 100.

The support structure 100 is provided in plurality, and the plurality of support structures 100 are movably disposed, and the support structure 100 at least has a spreading position and a closing position on a moving path, when the support structure 100 is in the spreading position, the plurality of support structures 100 enclose a first enclosing area 101 (as shown in fig. 5), and when the support structure 100 is in the closing position, the plurality of support structures 100 are closed together and enclose a second enclosing area 102 (as shown in fig. 2).

It is understood that the specific number of the support structures 100 may be determined according to actual requirements, for example, the case where the sealed isolation bin includes two support structures 100 and the case where the sealed isolation bin includes four support structures 100 will be specifically shown in the following embodiments. Of course, besides this, the sealed isolation chamber may also have more composition ways, for example, it may be composed of three support structures 100, or composed of more support structures 100.

Here, the plurality of support structures 100 are disposed to have a spread position and a closed position, and the support structures 100 are movable, whereby the support structures 100 can be transferred to a designated position where a sealed insulation silo needs to be built with excellent portability, while the floor space can be reduced while the transportation is facilitated when the plurality of support structures 100 are in the closed position.

It should be noted that, in this document, the movement of the plurality of support structures 100 may be performed individually, or may be performed in a linkage manner by providing a connection structure (for example, the connection frame 150, hereinafter) therebetween, and the movement of the support structures 100 may be performed manually or may be performed autonomously by a driving mechanism, and when the driving mechanism is adopted, a control system for controlling the driving mechanism may be integrally designed on the support structure 100.

Further, each support structure 100 may be transported and stored together or separately, and when the latter is employed, it will be appreciated that maintenance of each support structure 100 is also facilitated.

The space enclosing structure 200 is connected to the support structure 100 and can change shape under the action of the support structure 100, when in the unfolded position, the space enclosing structure 200 can be unfolded to form a fully sealed space completely isolated from the outside and cover the first surrounding area 101, and when in the folded position, the space enclosing structure 200 can be folded into the second surrounding area 102.

It should be noted here that, when the support structure 100 moves, the support structure 100 can generate a driving action on the space enclosing structure 200, so that the space enclosing structure 200 can change its form continuously with the movement of the support structure 100, in other words, the form change of the space enclosing structure 200 can be realized by the movement of the support structure 100 completely, no human involvement is required, the building process of the sealed isolation cabin can be simplified greatly, and the building difficulty can be reduced.

It should also be noted that the space enclosing structure 200 can be removably mounted to the support structure 100, thereby providing the advantage of being able to transport, store and maintain the support structure 100 and the space enclosing structure 200 separately, and when a failure of one of the support structure 100 or the space enclosing structure 200 is detected, timely countermeasures, such as replacement, etc., can be taken.

The embodiment of the utility model provides an in, because sealed isolation storehouse includes space enclosed structure 200 and a plurality of bearing structure 100 that can remove, this mobilizable bearing structure 100 can produce the effect to space enclosed structure 200, make space enclosed structure 200 can expand to form the totally enclosed space that covers first parcel region 101 and keep apart completely with the external world, and contract into second parcel region 102 in, consequently when putting up this sealed isolation storehouse, only need control bearing structure 100 to remove and can realize, it is convenient to put up, compare with the ward that adopts the engineering construction mode to form, can obviously reduce cost and reduce and take up an area of the space, this sealed isolation storehouse is owing to be formed with totally enclosed space simultaneously, can also reach and keep apart completely with the external world, thereby promote the purpose of keeping apart the effect.

As described above, in order to enable the support structure 100 and the space enclosing structure 200 to be transported, stored and maintained, respectively, in the embodiment of the present invention, the sealed insulation silo includes at least two support structures 100, and the first wrapping area 101 and the second wrapping area 102 are formed by the two support structures 100.

For example, in one embodiment, the sealed isolation silo includes two support structures 100, the two support structures 100 being a first support structure and a second support structure, respectively, the first support structure and the second support structure being disposed opposite each other, the first support structure and the second support structure each forming two support points for the space enclosing structure 200.

As mentioned above, one of the main functions of the support structure 100 is to support, and here "support point" is to be understood as the acting point of the support structure 100 to the space enclosing structure 200 for supporting the space enclosing structure 200.

It should be noted here that the first and second support structures may be designed to be identical, for example, they may have the same length, and when they are far away from and close to each other, they may be switched between a spread position and a closed position, and the two support points may be designed at both ends of the first and second support structures.

The first support structure and the second support structure may also be designed in different configurations, for example, with different lengths, thereby forming sealed insulation compartments having different configurations.

It will be appreciated that when the first and second support structures each form two support points, the space enclosing structure 200 can form a generally square structure, thereby allowing a more regular sealed insulation silo to be constructed. Of course, in other embodiments, the specific number of support points may also vary, such as where the first support structure forms one support point and the second support structure forms two support points, whereby the sealed isolation chamber may assume a generally triangular configuration.

Further, in a specific embodiment, when in the deployed position, the first support structure and the second support structure each form two fixed points, the four fixed points are connected end to form a rectangle, and the first wrapping region 101 is a rectangular parallelepiped region.

It is noted here that a "fixed point" is to be understood as a point where the position of each support structure 100 remains relatively immobile and can enclose the maximum first surrounding area 101 when each support structure 100 is in the deployed position, although such fixation does not exclude the possibility that in some cases it may be necessary to move the sealed insulation compartment, in other words, in some cases it may still be possible to move the sealed insulation compartment when it is necessary to move it, for example when it is necessary to change the size of the first surrounding area 101 in real time, or to adjust the position of the entire sealed insulation compartment in real time.

The four fixed point positions are connected end to form a rectangle, and at the moment, the first wrapping area 101 enables the sealed isolation bin to be in a cuboid shape on the whole.

For another example, referring to fig. 1-3, in another embodiment, the sealed isolation bin includes four support structures 100, where the four support structures 100 are a first support structure 110, a second support structure 120, a third support structure 130, and a fourth support structure 140, and the first support structure 110, the second support structure 120, the third support structure 130, and the fourth support structure 140 form a support point for the space enclosing structure 200.

Unlike the previously described embodiment using two support structures 100, in this embodiment each support structure 100 forms one support point, and thus it is not necessary for each support structure 100 to be designed to have a long length.

It is understood that in the embodiment using four support structures 100, the positions of the four support structures 100 can be arbitrarily arranged, so as to form the sealed isolation chamber with different structural shapes.

In a specific embodiment, referring to fig. 4-6, when in the deployed position, the first support structure 110, the second support structure 120, the third support structure 130, and the fourth support structure 140 each form a fixed point, the four fixed points are connected end to form a rectangle, and the first surrounding region 101 is a rectangular region, thereby forming a rectangular sealed isolation chamber.

This fixed point may be understood as meaning in the previously described embodiment using two support structures 100, i.e. the fixed point is not absolutely fixed.

In one embodiment, referring to fig. 1 and 6, the support structure 100 includes a movable support 111 and a telescopic member 112 disposed on the movable support 111, the space enclosing structure 200 is connected to the telescopic member 112, and the telescopic member 112 is used for driving the space enclosing structure 200 to expand in a height direction, so that the fully enclosed space has a designated height.

Specifically, the top end of the telescopic member 112 forms a supporting point of the support structure 100, the telescopic member 112 can be extended or shortened in the height direction, and after the space enclosing structure 200 is connected to the telescopic member 112, the space enclosing structure 200 can be unfolded in the height direction by controlling the extension of the telescopic member 112, so that the size of the totally enclosed space is defined in the height direction.

Taking the embodiment that four support structures 100 are adopted and the four support structures 100 enclose a rectangular area as an example, in this case, the sealed isolation bin has a rectangular structure, and after each telescopic member 112 is extended to a specified height, the height of the sealed isolation bin is determined.

In an embodiment, referring to fig. 1, the movable support 111 includes a base 1111 and a roller 1112 disposed at a bottom of the base 1111, and the telescopic member 112 is mounted on the base 1111.

The housing 1111 has a substantially square structure and a cavity therein for installing a functional device for integrating functions and necessary control functions, such as the air intake device 300, the air exhaust device 400, and the like, and a control device, such as the control system, the negative pressure control device, and the like.

In a more specific embodiment, the rollers 1112 are self-locking rollers whereby the rollers are self-locking to prevent the support structure 100 from continuing to move when the respective support structure 100 is in the deployed position, thereby maintaining stability of the support structure 100.

Of course, it will be appreciated from the foregoing that the self-locking roller may be unlocked in some circumstances when continued movement of the support structure 100 is desired.

In a specific embodiment, the telescopic member 112 is an electric telescopic rod, and a control portion of the electric telescopic rod can be integrally installed on the seat body 1111 and is preferably located at a place where it is easy to be manipulated by a user.

On the basis of the above-described embodiment in which the support structure 100 includes the movable support 111 and the telescopic member 112 disposed on the movable support 111, in some embodiments, referring to fig. 4 to 6, the sealed separation cabin further includes a telescopic connecting frame 150 connected between the support structures 100, wherein the connecting frame 150 is used for driving the space enclosing structure 200 to expand along the length direction, so that the fully sealed space has a designated length and a designated width.

Also taking the aforementioned embodiment that four support structures 100 are adopted and the four support structures 100 enclose a rectangular parallelepiped region as an example, the connecting frame 150 includes a first connecting frame 151 connected between the second support structure 120 and the third support structure 130, a second connecting frame 152 connected between the third support structure 130 and the fourth support structure 140, and a third connecting frame 153 connected between the fourth support structure 140 and the first support structure 110, and by the arrangement of the aforementioned three groups of connecting frames 150, the four support structures 100 can be switched from the close-up position to the open-out position, and the moving paths of the four support structures 100 can be normalized, thereby ensuring that the four support structures 100 naturally form a rectangular parallelepiped region when in the open-out position.

For the convenience of understanding, the sealed separation cabin using four support structures 100 and enclosing the four support structures 100 into a rectangular parallelepiped region will be described below with reference to fig. 1-2 and fig. 4-6, and is intended to describe a preferred switching process of the sealed separation cabin in the closed position and the open position and an overall expansion process of the sealed separation cabin according to the embodiment of the present invention.

Referring first to fig. 2, at this time, the four support structures 100 are in the closed position and enclose to form the second enclosing region 102, and the space enclosing structure 200 is retracted into the second enclosing region 102, at this time, the third support structure 130 and the fourth support structure 140 are moved together along the direction a shown in fig. 4, so that they are gradually separated from the first support structure 110 and the fourth support structure 140, and at this time, the second connecting frame 152 connected between the third support structure 130 and the fourth support structure 140 is gradually extended until the specified length between the first support structure 110 and the second support structure 120 is reached.

It will be appreciated that in this process, at least one of the first support structure 110 and the fourth support structure 140 may be locked by the action of the aforementioned self-locking rollers, so that the aforementioned process may be performed by only one person, saving time and effort.

Thereafter, referring again to fig. 5, the first support structure 110 is gradually separated from the fourth support structure 140 along the direction B shown in fig. 5, and simultaneously the second support structure 120 is gradually separated from the third support structure 130, at which time the first and second connection frames 151 and 152 connected therebetween are gradually extended until a designated width is reached between the first and fourth support structures 110 and 140.

By now it can be appreciated that with the support structures 100 having been switched from their initial closed position to their deployed position, the space enclosing structure 200 is also adapted to be deployed from its retracted position into the second surrounding region 102 to form a fully enclosed space completely isolated from the environment, and finally to form a sealed isolation chamber which is ready for use as shown in figure 1.

It should be noted that, in the foregoing process, the telescopic member 112 may be extended to a designated height at any time, for example, it may be extended during the movement of the support structure 100, or it may be extended when the support structure 100 is completely moved to the deployed position.

In some embodiments, referring to fig. 5, the connecting frame 150 is formed by a plurality of connecting rods 154 hinged end to end, and the two connecting rods 154 at the ends are respectively connected to the corresponding support structures 100.

In some embodiments, referring to fig. 3 and fig. 7-10, the first supporting structure 110 and the third supporting structure 130 are disposed along a diagonal line, the first supporting structure 110 is further provided with an air intake device 300, the air intake device 300 is communicated with the fully sealed space, the third supporting structure 130 is further provided with an air exhaust device 400, the air exhaust device 400 is communicated with the fully sealed space, and an air exhaust volume of the air exhaust device 400 is greater than an air intake volume of the air intake device 300, so that a negative pressure is formed in the fully sealed space.

Therefore, by arranging the air inlet device 300 and the air exhaust device 400, negative pressure can be formed in the fully sealed space, so that the sealed isolation bin not only achieves the purpose of being completely isolated from the outside, but also can create a negative pressure environment completely isolated from the outside, and the sealed isolation bin has the conditions suitable for other infectious diseases such as fulminant infectious diseases and the like spread by aerosol.

In some specific embodiments, please refer to fig. 7-11 in combination, the air intake device 300 includes a first air purification net 310, an air intake blower 320, and a second air purification net 330, the first support structure 110 is provided with an air intake 113 and an air outlet 114, the air intake 113 is connected to the outside, the air outlet 114 is connected to the fully sealed space, the first air purification net 310 is disposed at the air intake 113, and the second air purification net 330 is disposed at the air outlet 114, so that the air entering the fully sealed space is completely new purified air, which is helpful for the patient to recover health.

Further, in some more specific embodiments, a temperature adjusting device 500 is further disposed on the first support structure 110 for adjusting the temperature in the hermetically sealed space.

The temperature adjusting apparatus 500 may have an independent circulation air system capable of independently performing air circulation with the hermetically sealed space, thereby adjusting the temperature within the hermetically sealed space. However, as a preferred embodiment, the temperature adjustment device 500 may share a segment of the air path with the air intake device 300.

Specifically, the temperature control device 500 includes some necessary components such as a compressor 510, a condenser 520, and an evaporator 530, the compressor 510 and the condenser 520 are disposed at the bottom of the first support structure 110, and the evaporator 530 is disposed behind the first air purification net 310.

Here sets up evaporimeter 530 in the rear of first air purification net 310 for the air after first air purification net 310 is handled can directly take place the heat exchange with evaporimeter 530, makes the air possess suitable temperature, then sends into in the totally enclosed space after the processing of second air purification net 330 again, and this kind of design not only does benefit to save space, reduces the size of first support structure 110, can guarantee to send into the totally enclosed space clean, the air that has suitable temperature moreover.

In some embodiments, the first air purification net 310 and the second air purification net 330 may be hepa filter nets.

In some embodiments, referring to fig. 7 and 9, the exhaust device 400 includes an exhaust blower 410 and a sterilization system 420 for killing viruses, the third support structure 130 is provided with an exhaust inlet 131 and an exhaust outlet 132, and the sterilization system 420 is disposed on a path from the exhaust inlet 131 to the exhaust outlet 132.

The air exhaust device 400 disposed on the third support structure 130 not only can form negative pressure with the air intake device 300, but also can kill viruses in the air exhausted from the fully sealed space, so as to avoid affecting the external air quality.

The disinfection system 420 can be implemented by one or more of UV lamp, solid alkali and hepa filter net, even to improve the disinfection effect, a plurality of disinfection systems 420 can be arranged.

Further, in some more specific embodiments, the sealed separation cabin may further include a negative pressure control device (not shown in the drawings), and the negative pressure control device is configured to detect a pressure difference between the outside and the completely sealed space, so as to control an air intake amount of the air intake device 300 and an air exhaust amount of the air exhaust device 400.

The negative pressure control device detects the internal and external pressure difference, feeds back the internal and external pressure difference to the operation console (which can be integrally designed on the first support structure body 110), and sends instructions to adjust the air volume of the air exhaust device 400 and the air intake device 300 so as to adjust the internal air volume and stabilize the negative pressure value in the fully sealed space.

In one embodiment, referring to fig. 6 and 12-14, the space enclosing structure 200 includes a cladding body 210, the supporting structure 100 further includes a supporting beam 160, the supporting beam 160 is disposed on the telescopic member 112, and the cladding body 210 is connected to the supporting beam 160 and the telescopic member 112.

As a result, the space enclosing structure 200 is expanded or contracted on the cladding 210, and the expansion and contraction of the cladding 210 can be performed more smoothly by the supporting beams 160.

In one embodiment, referring to fig. 12, the covering body 210 is a folding structure, and includes two main covering walls (not shown), the main covering walls are rectangular, four sub covering walls 211 are connected between the two main covering walls, two of the four sub covering walls 211 can extend along the length direction, the other two sub covering walls can extend along the width direction, and the two main covering walls are made of flexible materials.

Thus, when the support structure 100 is moved from the closed position to the deployed position, the cover 210 can be gradually extended from the folded position to finally become the sealed insulation compartment as shown in fig. 1.

In another specific embodiment, the cover 210 includes two main cover walls, the main cover walls are rectangular, four sub cover walls 211 are connected between the two main cover walls, two of the four sub cover walls 211 can extend and contract along the length direction, the other two sub cover walls can extend and contract along the width direction, and the two main cover walls can extend and contract along the length direction and the width direction simultaneously.

In yet another embodiment, referring to fig. 13, the cover 210 is a fully sealed integral structure, made entirely of flexible material, pre-configured, for example, to the hexahedral configuration of fig. 13, and is placed in the second enclosure area 102 when the support structure 100 is in the closed position, and then the cover 210 gradually becomes the hexahedral configuration as the support structure 100 moves to the deployed position.

In yet another embodiment, referring to FIG. 14, the envelope 210 is an inflatable structure that is gradually expanded by inflating it.

Further, in some more specific embodiments, the cover 210 includes a body 212 and a gas-filled body 213 disposed on the top of the body 212, and when the gas-filled body 213 is filled with gas, the gas-filled body 213 drives the body 212 to expand.

At this time, the body 212 may be made of a flexible material, which may be pre-designed in a hexahedral structure, and the inflatable body 213 is disposed at the side of the body 212, and as the support structure 100 moves and the inflatable body 213 is inflated, the cover 210 is gradually unfolded to form the hexahedral structure as shown in fig. 14.

In some preferred embodiments, the flexible material may be selected from at least one of PE, PVC and TPU.

It should be noted that in the above-listed embodiments of the cladding 210, only the cladding 210 is described as being finally in a hexahedral structure, but it should be understood that the cladding 210 may also be constructed in various shapes, for example, when there are only three support structures 100, the cladding 210 may be in a pentahedral structure.

It will be appreciated that in the aforementioned embodiment in which the cover 210 is of a folded structure and a fully sealed integral structure, when the cover 210 is fully unfolded, the bottom of the cover may not be fully unfolded and may wrinkle or overlap due to interference factors that may be present.

In this regard, taking a hexahedron as an example, in some embodiments, elastic clips may be further disposed on each support structure 100, and when the cladding body 210 is completely unfolded, the elastic clips (not shown in the drawings) are clamped at four corners of the cladding body 210 at the bottom, so as to achieve sufficient unfolding of the cladding body 210.

Preferably, the resilient clip is already clamped on the cladding 210 when the support structure 100 is in the closed position, thereby ensuring that the cladding 210 forms a hexahedral structure smoothly during the subsequent deployment process.

In the embodiment of the cladding body 210 formed by the body 212 and the gas-filled body 213, the gas-filled body 213 may be disposed at the bottom of the body 212, so as to achieve the same effect as the above-mentioned elastic clip.

On the other hand, in order to place the hospital bed and the like into the sealed isolation bin, a switch door can be reserved on a certain surface of the wrapping body 210, and the switch door can be sealed in a manner of gluing, a zipper and the like.

In some embodiments, to facilitate viewing of the conditions within the fully enclosed space, particularly viewing of the real-time condition of the patient, a transparent viewing window 214 may be formed on at least one face of the enclosure 210.

On the other hand, referring to fig. 2, when a plurality of support structures 100 need to be transported and stored simultaneously, a lock catch 600 may be further disposed between the support structures 100, so that the support structures 100 can be stably located at the closed position, and the support structures 100 are prevented from being separated due to loosening, and particularly in the embodiment using the connecting frame 150, the lock catch 600 is necessary.

The embodiment of the utility model provides a construct out sealed isolation storehouse through bearing structure 100 and space enclosed construction 200, its ward that can replace the building class completely, with low costs, it is very convenient to use, when the in short supply appears in the ward simultaneously, should seal the isolation storehouse and can in time compensate the not enough in ward.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the claims. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A sealed isolation bin, comprising:

a plurality of movable support structures having at least a deployed position and a folded position along a path of travel, the plurality of support structures when in the deployed position enclosing a first enclosed area therebetween and the plurality of support structures when in the folded position enclosing together and enclosing a second enclosed area;

the wrapping body is of a folding structure and connected to the supporting structure body, the wrapping body can change shapes under the effect of the supporting structure body, when the wrapping body is located at the scattering position, the wrapping body can be unfolded to form a fully-sealed space which is completely isolated from the outside and cover the first wrapping area, and when the wrapping body is located at the folding position, the wrapping body can be retracted into the second wrapping area.

2. The sealed isolation bin of claim 1, wherein the sealed isolation bin comprises a first support structure, a second support structure, a third support structure, and a fourth support structure, wherein the first support structure, the second support structure, the third support structure, and the fourth support structure each form a support point for the cladding.

3. The sealed insulation silo according to claim 2, wherein when in the deployed position, the first support structure, the second support structure, the third support structure and the fourth support structure each form a fixed point location, the four fixed point locations are connected end to form a rectangle, and the first wrapped region is a rectangular parallelepiped region.

4. The sealed isolation bin according to claim 3, wherein at least one telescopic member is arranged on each of the first support structure, the second support structure, the third support structure and the fourth support structure, the cladding body is connected to the telescopic member, and the telescopic member is used for driving the cladding body to expand along the height direction, so that the fully sealed space has a designated height.

5. The sealed isolation bin according to claim 4, further comprising a telescopic connecting frame connected between the support structures, wherein the connecting frame is used for driving the coating body to expand along the length direction, so that the fully sealed space has a specified length and a specified width, when the coating body is completely expanded, the coating body is in a hexahedral structure, and four telescopic pieces respectively abut against four corners of the coating body at the top.

6. The sealed isolation cartridge of claim 5, wherein said connection frame comprises a first connection frame connected between said second support structure and said third support structure, a second connection member connected between said third support structure and said fourth support structure, and a third connection frame connected between said fourth support structure and said first support structure.

7. The sealed insulation silo of claim 5, wherein at least one face of the cladding is formed with a transparent viewing window.

8. The sealed isolation silo of claim 5, wherein each support structure is further provided with a resilient clip that is clamped at the bottom four corners of the cladding body when the cladding body is fully deployed.

9. The sealed isolation silo of claim 5, wherein the cladding body comprises two main cladding walls, the main cladding walls are rectangular, four secondary cladding walls are connected between the two main cladding walls, two of the four secondary cladding walls are capable of extending and retracting in the length direction, the other two secondary cladding walls are capable of extending and retracting in the width direction, and the two main cladding walls are made of flexible materials.

10. The sealed isolation silo of claim 5, wherein the cladding body comprises two main cladding walls, the main cladding walls are rectangular, four secondary cladding walls are connected between the two main cladding walls, two of the four secondary cladding walls are capable of extending and retracting in the length direction, the other two secondary cladding walls are capable of extending and retracting in the width direction, and the two main cladding walls are capable of extending and retracting in the length direction and the width direction simultaneously.

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