CN113958153A

CN113958153A - Low-energy-consumption assembled movable epidemic-prevention isolation cabin

Info

Publication number: CN113958153A
Application number: CN202111116802.5A
Authority: CN
Inventors: 苗珍录; 黄书成; 姚永辉
Original assignee: Suzhou Bangde Construction Technology Co ltd
Current assignee: Suzhou Bangde Construction Technology Co ltd
Priority date: 2021-09-23
Filing date: 2021-09-23
Publication date: 2022-01-21
Anticipated expiration: 2041-09-23
Also published as: CN113958153B

Abstract

The invention relates to a low-energy-consumption assembled mobile epidemic prevention isolation cabin, wherein a fresh air system is arranged in the isolation cabin, the fresh air system comprises a first filter, a second filter and a vaporizer for spraying disinfectant, and a plasma sterilizer is arranged at an air outlet, so that the difficulty in killing in the isolation cabin is reduced. Meanwhile, the inner wall of the isolation cabin is provided with the antibacterial plates, so that bacteria are not easy to survive on the inner wall of the isolation cabin. All be provided with a plurality of detachable connecting pieces between the different panels of isolation cabin wall body for the isolation cabin is whole, and the assembly is simple, has shortened the site operation time. Through the structure and the material that adopt for the isolation capsule quality is light, and sets up rings on the roof, makes things convenient for this isolation capsule whole to hoist and shift. Meanwhile, the inner wall and the outer wall of the isolation cabin are both aluminum-zinc-plated steel plates with fluorocarbon coatings roll-coated on the surfaces, so that the isolation cabin is more corrosion-resistant overall and the service life of the isolation cabin is prolonged. The heat insulation materials are arranged in the wall body and the connecting piece, so that the heat insulation performance of the isolation cabin is improved, and the overall energy consumption is reduced.

Description

Low-energy-consumption assembled movable epidemic-prevention isolation cabin

Technical Field

The invention relates to a low-energy-consumption assembled mobile epidemic prevention isolation cabin.

Background

The epidemic prevention building is a building which is combined by various solid materials and has fixed or expandable volume and protective performance, and is commonly used in places with isolation and antibiosis requirements. The common manufacturing method is that various hard paper boards are stacked to form a wall body, and then all the wall bodies are assembled to form the low-energy-consumption assembled mobile epidemic prevention isolation cabin, and the requirements of epidemic prevention and sterility are usually met by manual sterilization in the building.

The disinfection liquid is manually sprayed in the common isolation cabin for many times so as to disinfect the whole isolation cabin. The disinfection method is easy to cause personnel floating infection and can not meet the requirement of isolating by a single person. On the other hand, in the isolation bin, the slabs in the wall are connected through connecting pieces in the forms of screws, bolts, rivets and the like. However, the common bolt and screw structures can damage the plate layers, and the different plate layers are fixedly and non-detachably connected. Although the method has low installation cost, the plate layer can not be used continuously after being damaged by the bolts and the screws; and the isolation cabin manufactured by the method needs to be constructed in site construction, which is time-consuming. And the isolation cabin manufactured by the method is inconvenient to disassemble and is generally an immovable building. When the isolation cabin needs to be moved, the whole isolation cabin needs to be disassembled and then moved. After the connecting pieces such as screws and bolts in the isolation cabin are disassembled, irreversible damage is easily caused to the inner plate layer of the isolation cabin, and the whole antibacterial and epidemic prevention effects of the isolation cabin can be influenced.

On the other hand, the existing isolation cabin wall body mostly adopts thin plastering for heat preservation, the heat preservation and heat insulation are poor, the constant temperature in the cabin can be kept only by means of household appliances, and further the energy consumption is high.

Disclosure of Invention

The invention aims to provide a low-energy assembled movable epidemic prevention isolation cabin which is low in energy consumption and easy to install.

In order to achieve the purpose, the invention provides the following technical scheme:

the application provides a low energy consumption assembled removal epidemic prevention isolation cabin, and this isolation cabin is enclosed by side wall body, roof, floor. Optionally, a plurality of furniture such as lockers, beds, sofas, etc. are placed in the isolation compartment. Preferably, the surfaces of the cabinet body plates of the furniture are covered with negative oxygen ion plates which can release negative oxygen ions in the using process, so that the isolation cabin has the functions of decomposing formaldehyde and sterilizing, and the integral antibacterial performance of the isolation cabin is improved. Wherein, the inner wall of isolation cabin all is provided with antibiotic board to make the bacterium in this isolation cabin be difficult for adhering to on the panel. The outside on roof is provided with a plurality of rings that are used for hoisting the cofferdam. The roof comprises a plurality of inner top plates, at least one suspended ceiling keel, at least one layer of supporting beam, a plurality of heat-insulating layers and a plurality of roof keel frames which are sequentially arranged from inside to outside; the inner roof plate is connected to the ceiling keel in a hanging mode through the second hoisting structure, the ceiling keel is connected to the supporting beam through the first hoisting structure in a hanging mode, and the heat preservation layer is connected with the roof keel frame through the first connecting assembly. The side wall body comprises a plurality of inner wall plates, a plurality of heat insulation plates and a plurality of outer wall plates which are sequentially arranged from inside to outside; in the side wall body, the looks joint between the adjacent interior wallboard, interior wallboard articulates on the side fascia, heated board and side fascia fixed connection.

Wherein, set up the new trend system in this isolation capsule, be provided with in the new trend system and be used for filtering particulate matter of particle diameter more than or equal to 0.5 micron first filter and second filter. The first filter has a filtering efficiency of 60-70% for particles with a particle diameter of 0.5 micron or more, and the second filter has a filtering efficiency of 70-95% for particles with a particle diameter of 0.5 micron or more. Wherein, still be provided with the vaporizer that is used for vaporizing the antiseptic solution in this isolation cabin, the output of vaporizer is connected to the air-out passageway of new trend system. Meanwhile, a plasma sterilizer is arranged at the air outlet of the fresh air system. The plasma sprayed by the plasma sterilizer is sprayed into the indoor environment through the air outlet of the fresh air system, so that the inner space of the isolation cabin is sterilized through air circulation.

Preferably, the second hoisting structure comprises a first hoisting piece and a first hoisting ring sleeved on the ceiling keel and fixedly connected with the upper end of the first hoisting piece at the lower end; the lower end of the first hoisting piece is bent to form a first hook, one side edge of the inner top plate is bent upwards and extends towards the direction of the inner top plate to form a first bending part, and the first bending part is hung on the first hook and detachably connected with the first hook; the other side edge of the inner top plate, which is opposite to one side edge, is bent in the direction departing from the inner top plate to form a second bending part; the second bending part of one of the two adjacent inner top plates is lapped on the first bending part of the other inner top plate.

Preferably, the first hoisting structure comprises a second hoisting ring sleeved on the ceiling keel and a second hoisting piece fixedly connected with the second hoisting ring; the lower end of the second hoisting piece is fixedly connected with the upper end of the second hoisting ring, and the upper end of the second hoisting piece is fixed on the supporting beam.

Preferably, embedded first connecting piece and the second connecting piece of being equipped with of heat preservation, first connecting piece are fixed in the below of second connecting piece, and the second connecting piece is fixed mutually with first connecting element, and a supporting beam is fixed connection with the bottom of first connecting piece. The heat-insulating layer is connected with the roof keel frame through a plurality of first connecting components. Each first connecting assembly comprises a first connecting structure fixed with the heat-insulating layer, a clamping plate arranged above the first connecting structure, and a second connecting structure arranged above the clamping plate and connected with the roof keel frame; the first connecting structure comprises a third connecting piece fixedly connected to the upper side of the heat-insulating layer and a fourth connecting piece, the lower end of the fourth connecting piece is fixed to the upper end of the third connecting piece, and the upper end of the fourth connecting piece is provided with a hook portion. The second connecting structure comprises a fifth connecting piece and a sixth connecting piece, wherein the lower part of the fifth connecting piece is connected with the hook part through a clamping plate, the sixth connecting piece is fixedly arranged at the upper end of the fifth connecting piece, and the sixth connecting piece is fixedly connected to the roof keel frame.

Preferably, the joint plate is provided with the polylith, and a side of every joint plate forms first protruding muscle through bending, and the opposite side limit of every joint plate forms through bending and holds the chamber and be located the second protruding muscle that holds the chamber below, and two adjacent joint plate concatenations mutually and make the first protruding muscle of one of them joint plate hold in the intracavity that holds of another joint plate, and couple portion sets up in holding the intracavity and articulates on first protruding muscle, and the protruding muscle of second supports the below at couple portion. The cross section of the fifth connecting piece perpendicular to the extending direction of the fifth connecting piece is in a shape like a Chinese character ji, two side parts of the fifth connecting piece are close to each other, the relative position between the two side parts is limited by the limiting piece, and the splicing position of two adjacent clamping plates is clamped between the two side parts.

Preferably, the floor comprises a plurality of first floors and a plurality of bottom auxiliary dragons, wherein the first floors are arranged from inside to outside in sequence, and the bottom auxiliary dragons are used for supporting the isolation cabin. And a bottom beam is arranged between the adjacent bottom auxiliary keels, and the bottom auxiliary keels are fixedly connected with the bottom beam.

Preferably, the inner wallboard comprises a central filling heat-insulation board and metal plates covering the inner side surface and the outer side surface of the central filling board, and the metal plates are made of aluminum-zinc-plated steel plates with fluorocarbon coatings roll-coated on the surfaces. The metal plates on the surfaces of the two sides of the inner wallboard are bent towards the direction of the central filling board to form a pair of third bending parts with cavities, and a seventh connecting piece is arranged in each cavity. And two third bent parts positioned on the inner side abut against each other and two third bent parts positioned on the outer side abut against each other between two adjacent inner wallboards. The interval of a pair of seventh connecting piece on every piece internal wall board is equipped with joint spare, and joint spare constitutes the support between a pair of seventh connecting piece, and joint spare adopts heat preservation insulation material. Two adjacent inner wall boards are connected through a pair of eighth connecting pieces. Every seventh connecting piece all is provided with joint portion. In two adjacent interior wallboards, be located inboard a pair of joint portion and a looks joint in a pair of eighth connecting piece respectively, be located a pair of joint portion in the outside respectively with another looks joint in a pile of eighth connecting piece. At least one clamping piece is arranged between the eighth connecting pieces at intervals, and the clamping pieces form a support between the eighth connecting pieces.

Preferably, a plurality of first convex parts are arranged on the surfaces of the pair of eighth connecting pieces opposite to each other, an accommodating slot is formed between two adjacent first convex parts on the same surface, the width of the accommodating slot is reduced along with the increase of the height of the first convex parts, the width of the clamping piece is gradually increased from the middle part to the end part of the clamping piece, and the end part of the clamping piece is accommodated in the accommodating slot.

Preferably, the inner side of the second cross keel is filled with thermal insulation materials.

The invention has the beneficial effects that: this application sets up the panel of the cabinet body in the isolation cabin into negative oxygen ion board to at the inside fresh air system that has the disinfectant function that sprays that sets up of isolation cabin, make the work degree of difficulty that kills in this isolation cabin reduce. Meanwhile, the inner wall of the isolation cabin is provided with the antibacterial plates, so that bacteria are not easy to survive on the inner wall of the isolation cabin. On the other hand, the isolation cabin that this application provided all is provided with a plurality of detachable connecting pieces between the different panels of its wall body for isolation cabin integral erection, dismantlement, the assembly is simple, and the main part is after the machine-shaping in the mill, it can to the job site direct mount to transport, has shortened the site operation time greatly. Through the structure and the material that adopt for the overall mass of isolation cabin is lighter, and sets up rings on the roof, makes things convenient for this isolation cabin can wholly hoist the transfer. Meanwhile, the inner wall and the outer wall of the low-energy-consumption assembled movable epidemic prevention isolation cabin are both aluminum-zinc-plated steel plates with fluorocarbon coatings roll-coated on the surfaces, so that the isolation cabin is more corrosion-resistant as a whole, and the service life of the isolation cabin is prolonged. On the other hand, the heat-insulating materials are arranged in the wall body of the isolation cabin and the connecting piece, so that the overall heat-insulating performance of the isolation cabin is improved, and the overall energy consumption of the isolation cabin is reduced.

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical solutions of the present invention more clearly understood and to implement them in accordance with the contents of the description, the following detailed description is given with reference to the preferred embodiments of the present invention and the accompanying drawings.

Drawings

Fig. 1 is a top view of the overall structure of a low-energy assembled mobile epidemic prevention isolation cabin according to an embodiment of the invention.

Fig. 2 is a front view of the overall structure of a low-energy-consumption assembled mobile epidemic prevention isolation cabin according to an embodiment of the invention.

Fig. 3 is a cross-sectional view of a roof structure of a low-energy assembled mobile epidemic prevention isolation capsule according to an embodiment of the invention.

FIG. 4 is an enlarged view of the portion A of FIG. 3 according to the present invention.

Fig. 5 is a side view of the first connector assembly of fig. 3 in accordance with the present invention.

FIG. 6 is an enlarged view of the structure of portion B of FIG. 5 according to the present invention.

Fig. 7 is a sectional view of the floor structure of the low-energy assembled mobile epidemic prevention isolation cabin according to the embodiment of the invention.

Fig. 8 is a sectional view of a side wall structure of a low-energy-consumption assembled mobile epidemic prevention isolation cabin according to an embodiment of the invention.

FIG. 9 is an enlarged view of the structure of portion C of FIG. 8 according to the present invention.

FIG. 10 is an enlarged view of the structure of portion D of FIG. 9 according to the present invention.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

The application provides a low energy consumption assembled removal epidemic prevention isolation cabin, as shown in fig. 1, this isolation cabin is enclosed by side wall body 600, roof 100, floor 500, optionally, in this isolation cabin, can also set up baffle, partition wall etc. to divide the inside region of isolation cabin into bathroom, bedroom, balcony etc.. Referring to fig. 2, a plurality of furniture such as storage cabinets, beds, sofas, and tv cabinets are placed in the isolation compartment. Preferably, the cabinet body plates of the furniture are all negative oxygen ion plates which can release negative oxygen ions in the using process, so that the isolation cabin has the functions of decomposing formaldehyde and sterilizing, and the overall antibacterial performance of the isolation cabin is improved. Wherein, the inner wall of isolation cabin all is provided with antibiotic board to make the bacterium in this isolation cabin be difficult for adhering to on the panel. Optionally, a carpet is provided at the doorway of the isolation chamber, preferably made of an antimicrobial fabric, so that bacteria on the carpet are not easily viable.

Wherein, set up the new trend system in this isolation capsule, be provided with in the new trend system and be used for filtering particulate matter of particle diameter more than or equal to 0.5 micron first filter and second filter. The first filter has a filtering efficiency of 60-70% for particles with a particle diameter of 0.5 micron or more, and the second filter has a filtering efficiency of 70-95% for particles with a particle diameter of 0.5 micron or more. Wherein, still be provided with the vaporizer that is used for vaporizing the antiseptic solution in this isolation cabin, the output of vaporizer is connected to the air-out passageway of new trend system to make the antiseptic solution blow off with the wind, thereby disinfect to the interior space. Preferably, the type of the disinfectant is hypochlorous acid disinfectant, the disinfectant can rapidly decompose bacteria and microorganisms, human and machine coexist during disinfection, indoor peculiar smell is removed within 3 seconds, and the disinfection rate can reach 99.99%. Meanwhile, a plasma sterilizer is arranged at the air outlet of the fresh air system. The plasma sprayed by the plasma sterilizer is sprayed into the indoor environment through the air outlet of the fresh air system, so that the inner space of the isolation cabin is sterilized through air circulation.

Specifically, the assembled mobile epidemic prevention cofferdam of low energy consumption includes the multi-sided sidewall 600, the roof 100 of at least one side, the floor 500 of at least one side, and the above-mentioned sidewall 600, roof 100 and floor 500 are connected to enclose the cofferdam. Wherein, a plurality of rings for hoisting the isolation cabin are arranged on the roof of the isolation cabin, so that the isolation cabin can be moved integrally.

Wherein, seted up the window on the side wall body 600 of above-mentioned isolation capsule, be provided with the sealing member between this window and the side wall body 600 to it gives off to make the heat unable gap through between window and the side wall body, thereby increases the heat preservation heat-proof quality of above-mentioned isolation capsule.

Referring to fig. 3 to 6, the roof 100 includes a roof keel frame 150 composed of a plurality of roof keels 151 arranged in a criss-cross manner, an insulating layer 140 hung below the roof keel frame 150 through a first connecting assembly, a support beam 130 connected below the insulating layer 140, a ceiling keel 120 hung below the support beam 130 through a first hanging structure 220, and an inner roof panel 110 hung below the ceiling keel 120 through a second hanging structure 220. The roof keel frame is characterized in that the inner top plate 110 is a metal antibacterial plate with a filling core material in the center, and the heat insulation layer 140 comprises an OSB plate, a steam-isolating membrane, a thick rock wool heat insulation layer, a thick glass magnesium plate and a thick ITPO waterproof coiled material which are sequentially arranged from inside to outside. The roof keel frame 150 is formed by a plurality of roof keels 151 arranged in a criss-cross manner.

Specifically, the inner top plate 110 is an antibacterial metal plate 611, that is, the surface of the metal plate 611 is roll-coated with an antibacterial coating. For convenience of description, two adjacent inner top panels 110 are defined, wherein one inner top panel 110 is the inner top panel 110, and the other inner top panel 110' is the inner top panel. The edge of the inner top plate 110 is bent upward and then extends toward one side of the inner top plate 110 to form a first bending portion 111. The edge of the inner top panel 110' is bent toward the direction in which the inner top panel 110 is located, forming a second bent portion 112. The second bending portion 112 is overlapped on the first bending portion 111. The inner top plate 110 is connected to the ceiling keel 120 through a second hoisting structure 210, and specifically, the second hoisting structure 210 includes a first hoisting member 211 and a first hoisting ring 212. The lower end of the first lifting piece 211 is bent to form a first hook 2111, and the upper end is fixedly connected with the first hanging ring 212. The first hanging ring 212 is sleeved on the ceiling keel 120 and slidably connected with the ceiling keel 120. That is, at the joint of two adjacent inside roofs 110, the first bending portion 111 is hooked on the first hook 2111, and the second bending portion 112 is overlapped on the first bending portion 111, so that two adjacent inside roofs 110 are both lifted, and it is more convenient to install the inside roofs 110, and it is simpler to detach the inside roofs 110. Meanwhile, the mounting structure enables the inner top plate 110 to be easily assembled integrally without being reinforced by fixing parts such as screws and bolts during mounting, and the inner top plate 110 is not required to be perforated, so that the plates are not easily damaged. The ceiling grid 120 is connected to the support beams 130 by a first lifting structure 220. Specifically, the first hoisting structure 220 includes a second hoisting ring 222 sleeved on the ceiling keel 120 and detachably connected to the ceiling keel 120, and a second hoisting member 221 fixed to an upper end of the second hoisting ring 222. Specifically, the upper end of the second hoisting member 221 is fixed to the support beam 130, and the lower end of the second hoisting member 221 is fixed to the second hoisting ring 222, so that the ceiling keel 120 is hung on the support beam 130 through the second hoisting ring 222 and the second hoisting member 221, and is detachably connected to the support beam 130, so that the ceiling keel 120 is convenient to install and detach, and the difficulty in roof assembly is reduced. A T-shaped connecting reinforcement 310 is disposed above the support beam 130, and a lower portion of the connecting reinforcement 310 passes through the support beam 130 and is fixedly connected to the support beam 130. The upper end of the connection reinforcement 310 is a support plate 311 with a certain width, a first connection member 320 and a second connection member 330 are sequentially arranged above the support plate 311 from bottom to top, the lower side wall of the first connection member 320 is fixedly connected with the support plate 311 connected with the reinforcement 310, and the upper side surface is fixedly connected with the lower side surface of the second connection member 330. The upper portion of the second connecting member 330 is fixedly disposed on the decoration plate 152, wherein the first connecting member 320 and the second connecting member 330 are disposed between the adjacent insulation layers 140.

A first connecting component for connecting the heat-insulating layer 140 and the roof keel frame 150 is arranged between the heat-insulating layer 140 and the roof keel frame 150, and the first connecting component comprises a first connecting structure 410 connected with a thick glass magnesium board in the heat-insulating layer 140 and a second connecting structure 420 connected with the roof keel frame 150. The first connecting structure 410 and the second connecting structure 420 are clamped by a clamping plate 430, so that the insulating layer 140 is connected with the roof keel frame 150. Specifically, the first connection structure 410 includes a third connection member 411 fixed to an upper side surface of the thick magnesium plate, and a fourth connection member 412 fixed to an upper side of the third connection member 411, and an upper end of the fourth connection member 412 has a hook portion 4121. The second connection structure 420 includes a fifth connection member 421 having a shape of a Chinese character ji, a lower portion of which is engaged with the first connection structure 410, and a sixth connection member 422 fixedly connected to an upper end of the fifth connection member 421. The first connecting structure 410 and the fifth connecting member 421 are connected by a clamping plate 430, and two adjacent fourth connecting members 412 are connected by a clamping plate 430. Specifically, a first convex rib 431 is formed by bending one side edge of each clamping plate 430, a containing cavity 432 and a second convex rib 433 positioned below the containing cavity 432 are formed by bending the other side edge of each clamping plate 430, the adjacent two clamping plates 430 are spliced to enable the first convex rib 431 of one clamping plate to be contained in the containing cavity 432 of the other clamping plate 430, the hook portion 4121 is arranged in the containing cavity 432 and is hung on the first convex rib 431, and the second convex rib 433 abuts against the lower side of the hook portion 4121. The cross section of the fifth connecting member 421 perpendicular to the extending direction thereof is "u" shaped, and the two side portions of the fifth connecting member 411 are close to each other, the splicing portions of the two adjacent clamping plates 430 are accommodated in the two side portions of the fifth connecting member 421, and a limiting member such as a bolt and a screw is arranged between the two side portions of the fifth connecting member 421 to tighten the two side portions, so that the splicing portions of the two clamping plates 430 connected to each other are fastened, and the clamping between the hook portion 4121 and the pair of clamping plates 430 is stable. The second connecting structure 420 is fixedly connected with the roof keel frame 150 through a sixth connecting member 422, and the sixth connecting member 422 is fixed on the roof keel 151. The first connecting assembly connects the insulating layer 140 to the lower part of the roof keel 151, so that the insulating layer 140 and the roof keel 151 are connected tightly; and each connecting piece in this first connecting element is the detachable connection, makes it whole easy installation, dismantlement for the holistic assembly degree of difficulty of isolation capsule reduces.

The plurality of roof runners 151 are arranged in a criss-cross manner to form a roof runner skeleton 150. At the intersection of two roof keels 151, a pair of ninth connecting members 160 is disposed on the left and right sides of one of the roof keels 151, and the ninth connecting members 160 are disposed to be attached to the intersection of the two roof keels 151, and have an "L" shape, one side of each of which is fixedly connected to one of the roof keels 151, and the other side of each of which is fixedly connected to the other roof keel 151, so as to fix the two intersecting roof keels 151. Wherein, still fixedly at the roof keel frame 150 outside is provided with decorative board 152, and decorative board 152 is fixed in on roof keel 151, and between decorative board 152 and roof keel 151, all through tenth connecting piece 170 fixed connection between the adjacent decorative board 152. Specifically, the cross section of the tenth connecting member 170 on the vertical plane to the extending direction thereof is "U" shaped, two adjacent decorative boards 152 are fixedly connected to both side portions thereof in one-to-one correspondence, and the bottom wall of the tenth connecting member 170 is fixedly connected to the roof keel 151.

Referring to fig. 7, the floor panel 500 includes a first floor panel 510 and a plurality of bottom cross runners 520 sequentially arranged from the inside to the outside and from the top to the bottom. The first floor 510 includes a decorative metal plate, a steam-insulating coiled material, at least one layer of OSB plate, a foam glass plate, and a metal plate coated with a fireproof and antibacterial paint in a stacked manner from top to bottom. Optionally, the surfaces of both sides of the metal plate coated with the fireproof and antibacterial paint by roller coating can be paved with air-permeable heat-insulating films to enhance the heat-insulating performance. The bottom cross runner 520 is disposed below the metal plate coated with the fireproof paint by roll, and supports the first floor 510. Wherein, two adjacent first floor boards 510 are connected by a bottom beam 530. A surface perpendicular to the extending direction of the bottom cross keel is defined as a reference surface A, the projection of the bottom beam 530 on the reference surface A is in an I shape, and the upper side of the bottom beam extends into the joint of the two bottom cross keels 520 and is fixed with the two bottom cross keels 520; the lower side of the isolation cabin extends into the bottom surface to integrally fix the isolation cabin. Preferably, an avoiding groove is formed at the connection position of the bottom cross member 520 and the bottom beam 530, so that the bottom beam 530 and the bottom cross member 520 are at the same level, thereby facilitating the laying of the first floor 510.

Referring to fig. 8-10, the sidewall body 600 includes an inner wall panel 610, a mullion 622, a heat insulation panel 620, and an outer wall panel 630, which are sequentially disposed from inside to outside. The inner wall plate 610 is a steel plate filled with heat insulation materials at the center, and the heat insulation plate 620 is made of an OSB plate. Wherein, the inboard between interior wallboard 610 and the vertical keel 622 is provided with a plurality of first horizontal keels 621, is provided with a plurality of second horizontal keels 623 between vertical keel 622 and the side fascia 630.

In detail, the inner wall panel 610 includes a center-filling plate material, and a metal plate 611 covering both sides of the center-filling plate material. At the edge of each inner panel 610, the metal plates 611 on the inner and outer sides are bent toward the center filling plate to form a pair of third bent portions 612 each having a cavity. A seventh connecting member 710 is disposed in the cavity of each third bending portion 612, i.e., a pair of seventh connecting members 710 is disposed on one side of each inner panel 610. The pair of seventh connecting members 710 are connected to each other by a clip member 730. Specifically, a plurality of first protrusions 712 are disposed on the facing surfaces of the pair of seventh connecting members 710, and a first receiving slit is formed between two adjacent first protrusions 712. The width of the first receiving slot decreases as the height of the first protrusion 712 increases, i.e., the width of the bottom of the receiving slot is greater than the width of the mouth thereof. The two ends of the engaging member 730 are respectively received in the receiving slots, and the width of the engaging member 730 is gradually increased from the middle to the ends thereof, and the engaging members 730 support the pair of seventh connecting members 710. Furthermore, the seventh connecting member 710 and the clamping member 730 cooperate to support the metal plates 611 on two sides of the inner wall plate, so that the metal plates 611 are not easily deformed. Wherein, between two interior wallboard 610 that splice mutually, its junction is provided with 4 third bends 612, holds 4 seventh connecting pieces 710 in third bend 612 inboard. Hereinafter, for convenience, another inner wall panel connected to one of the inner wall panels 610 is defined as an inner wall panel 610'. Third bent portion 612 located on the inner side of inner wall panel 610 abuts third bent portion 612 'located on the inner side of inner wall panel 610', and third bent portion 612 located on the outer side of inner wall panel 610 abuts third bent portion 612 'located on the outer side of inner wall panel 610'. Two adjacent inner wall panels 610 are fixedly connected by a pair of eighth connecting members 720. Specifically, each seventh connecting member 710 is provided with a clamping portion 711, and the width extending direction of the clamping portion 711 is the same as the direction departing from the clamping portion 711. Both sides of each eighth link 720 facing the seventh link 710 are recessed to form a groove to be engaged with the engaging portion 711. When the inner wall plate 610 and the inner wall plate 610 'are connected, the clamping parts 711 and 711' are respectively accommodated in the pair of grooves in a one-to-one correspondence. Optionally, the outer sides of the clamping portions 711 are provided with heat insulation sleeves 711 for heat insulation, so as to enhance the overall heat insulation effect of the isolation cabin. Preferably, a position where the eighth connecting member 720 is connected to the fifth bending portion 613 is provided with a stopper, so that the two connected seventh connecting members 710 are not easy to slip off. Meanwhile, the pair of eighth connecting members 720 are connected to each other by a clip 730. The two adjacent surfaces of the eighth connecting member 720 are respectively provided with a plurality of second protrusions 721, a second accommodating slit is formed between the adjacent second protrusions 721 on the same eighth connecting member 720, the end of the clamping member 730 is clamped in the second accommodating slit, and the clamping member 730 supports the eighth connecting member 720 and the seventh connecting member 710, so that the metal plate 611 located on the outer side of the eighth connecting member 720 is not easy to deform. Wherein, between a plurality of joint pieces 730 of same connecting piece, all pack thermal-insulated insulation material to strengthen the thermal-insulated heat preservation effect of panel junction. The first cross keel 621 is disposed on the outer side of the inner wall panel 610, and the inner wall panel 610 is hung on the first cross keel 621, and the first cross keel 621 is fixed on the vertical keel 622 connected to the first cross keel 621.

Specifically, at least one pair of second hooks 613 is disposed on the inner wall panel 610. The second hook 613 is L-shaped, one side of which is fixedly connected to the inner wall 610, and the other side is hooked to the first cross member 621. Specifically, the second hook 613 is disposed at the outer side of the seventh connecting member 710, and the second hook 613 and the inner wall panel 610 are fixed by screws, and the screws sequentially pass through the second hook 613, the metal plate 611 and the seventh connecting member 710 to fix the second hook 613 to the inner wall panel 610, so that the inner wall panel 610 is hooked on the first cross keel 621.

The vertical keel 622 is disposed between two adjacent insulation boards 620, the vertical keel 622 is a strip-shaped member, and the inner and outer sides of the vertical keel 622 are fixedly connected to the adjacent boards through fixing members such as screws and rivets. Specifically, the outer side of the vertical keel 622 is fixedly connected to the second cross keel 623, and the inner side is fixedly connected to the first cross keel 621. Be provided with between the adjacent side fascia 630 and be used for making the two department of connection sealed sealing member mutually to make the side fascia junction sealed, thereby avoid the corrosion fossil fragments that lead to because of liquid, increased the holistic heat preservation of this separation storehouse simultaneously, sealing performance. Optionally, the material of the sealing element is a foam rod, a sealant, and the like, which is not specifically limited in this application, and those skilled in the art may select and replace the sealing element according to actual needs.

The inner walls of the isolation cabin are coated with antibacterial coatings, so that the inner walls have an antibacterial function, and the isolation cabin is integrally compounded with epidemic prevention requirements. Optionally, the antibacterial coating is any coating capable of realizing an antibacterial function in the prior art, and the application does not specifically limit the type of the coating. Optionally, the surfaces of the respective plate layer materials in the side wall body 600, the floor 500 and the roof 100 can be coated with antibacterial coatings to enhance the antibacterial performance of the whole isolation cabin.

The metal plates on the inner and outer walls of the side wall 600, the roof 100 and the floor 500 are made of aluminum-zinc-plated steel plates with fluorocarbon coatings roll-coated on the surfaces. In detail, the special coating structure of the alzinciferous coated steel sheet provides excellent corrosion resistance. The aluminum-zinc plated steel plate has long service life and good heat resistance, and can be used in a high-temperature environment at 315 ℃; the coating has good adhesion with a paint film, has good processing performance, and can be used for stamping, shearing, welding and the like; has better conductivity.

Further, the fluorocarbon coating refers to a coating material containing a fluororesin as a main film-forming substance. The fluorocarbon coating has weather resistance, heat resistance, low temperature resistance, chemical resistance, unique non-adhesiveness and low friction property. Wherein the thickness of the fluorocarbon coating is not less than 23 μm, and optionally, when the isolation cabins have different wear and corrosion resistance requirements, the thickness of the fluorocarbon coating can be set to be different. Similarly, the number of brushing the fluorocarbon coating can be set to be different, and the application does not limit the number.

To sum up, this application sets up the panel of the cabinet body in the isolation cabin into the negative oxygen ion board to at the inside fresh air system that has the disinfectant function that sprays that sets up of isolation cabin, make the work degree of difficulty that kills in this isolation cabin reduce. Meanwhile, the inner wall of the isolation cabin is provided with the antibacterial plates, so that bacteria are not easy to survive on the inner wall of the isolation cabin. On the other hand, the isolation cabin that this application provided all is provided with a plurality of detachable connecting pieces between the different panels of its wall body for isolation cabin integral erection, dismantlement, the assembly is simple, and the main part is after the machine-shaping in the mill, it can to the job site direct mount to transport, has shortened the site operation time greatly. Through the structure and the material that adopt for the overall mass of isolation cabin is lighter, and sets up rings on the roof, makes things convenient for this isolation cabin can wholly hoist the transfer. Meanwhile, the inner wall and the outer wall of the low-energy-consumption assembled movable epidemic prevention isolation cabin are both aluminum-zinc-plated steel plates with fluorocarbon coatings roll-coated on the surfaces, so that the isolation cabin is more resistant to corrosion of antibacterial liquid as a whole, and the service life of the isolation cabin is prolonged. On the other hand, the heat-insulating materials are arranged in the wall body of the isolation cabin and the connecting piece, so that the overall heat-insulating performance of the isolation cabin is improved, and the overall energy consumption of the isolation cabin is reduced.

It should be noted that in the description of the orientation in the present application, the terms "inside", "outside", "above" and "below" are all used with reference to the normal state of the isolation capsule in normal use, so as to facilitate the description of the present invention and simplify the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and therefore should not be construed as limiting the present invention.

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 scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. A low-energy-consumption assembled mobile epidemic prevention isolation cabin comprises a multi-side wall body (600), a roof (100) and a floor (500), and is characterized in that a fresh air system is arranged in the isolation cabin, the fresh air system comprises a first filter and a second filter, the first filter has 60% -70% of filtering efficiency on particles with the particle diameter of more than or equal to 0.5 microns, and the second filter has 70% -95% of filtering efficiency on particles with the particle diameter of more than or equal to 0.5 microns; a vaporizer for vaporizing disinfectant is arranged in the isolation cabin, and the output end of the vaporizer is connected to the air outlet channel of the fresh air system; a plasma sterilizer is arranged at an air outlet of the fresh air system; a plurality of storage cabinets are arranged in the isolation cabin, and the storage cabinets are made of negative oxygen ion plates; a plurality of hanging rings for hoisting the low-energy-consumption assembled mobile epidemic prevention isolation cabin are arranged on the outer side of the roof; the roof comprises a roof keel frame (150) consisting of a plurality of roof keels (151) which are arranged in a criss-cross mode, a heat insulation layer (140) which is hung below the roof keel frame (150) through a first connecting assembly, a supporting beam (130) which is connected below the heat insulation layer (140), a ceiling keel (120) which is hung below the supporting beam (130) through a first hanging structure (220), and an inner top plate (110) which is hung below the ceiling keel (120) through a second hanging structure (220), wherein a decorative plate (152) is fixedly connected above the roof keel frame (150); the side wall body (600) comprises a plurality of heat insulation plates (620), vertical keels (622) vertically arranged between two adjacent heat insulation plates (620), first transverse keels (621) connected to the inner sides of the vertical keels (622), inner wall plates (610) hung on the inner sides of the first transverse keels (621), second transverse keels (623) connected to the outer sides of the vertical keels (622), and outer wall plates (630) connected to the outer sides of the second transverse keels (623); the inner top plate (110), the decorative plate (152), the inner wall plate (610) and the outer wall plate (630) are all made of aluminum-zinc-plated steel plates with fluorocarbon coatings roll-coated on the surfaces; the surface of the inner wallboard (610) is coated with an antibacterial coating.

2. The assembled mobile epidemic prevention shelter of low energy consumption according to claim 1, wherein the second hoisting structure (210) comprises a first hoisting member (211), a first hoisting ring (212) sleeved on the ceiling keel (120) and fixedly connected with the upper end of the first hoisting member (211) at the lower end; the lower end of the first hoisting piece (211) is bent to form a first hook (211), one side of the inner top plate (110) is bent upwards and extends towards the direction of the inner top plate (110) to form a first bending part (111), and the first bending part (111) is hung on the first hook (211) and is detachably connected with the first hook (211); the other side edge of the inner top plate (110) opposite to the one side edge is bent towards the direction departing from the inner top plate (110) to form a second bending part (112); the second bending part (112) of one of the two adjacent inner top plates (110) is lapped on the first bending part (111) of the other inner top plate (110).

3. The assembled mobile epidemic prevention cofferdam of a kind of low energy consumption according to claim 1, characterized by that, the said first hoisting structure (220) includes the second hanging ring (222) that is set on the said suspended ceiling keel (120), the second hoisting piece (221) fixedly connected with said second hanging ring (222); the lower end of the second hoisting piece (221) is fixedly connected with the upper end of the second hoisting ring (222), and the upper end of the second hoisting piece (221) is fixed on the supporting beam (130).

4. The assembled movable epidemic prevention isolation cabin of low energy consumption according to claim 1, wherein a first connecting piece (320) and a second connecting piece (330) are embedded in the heat insulation layer (140), the first connecting piece (320) is fixed below the second connecting piece (330), the second connecting piece (330) is fixed with the first connecting component, and the supporting beam (130) is fixedly connected with the bottom of the first connecting piece (320).

5. The assembled mobile epidemic prevention cofferdam of a kind of low energy consumption of claim 1, wherein, said insulating layer (140) is connected with said roof keel frame (150) through a plurality of said first connection assemblies; each first connecting assembly comprises a first connecting structure (410) fixed with the heat-insulating layer (140), a clamping plate (430) arranged above the first connecting structure (410), and a second connecting structure (420) arranged above the clamping plate (430) and connected with the roof keel frame (150); the first connecting structure (410) comprises a third connecting piece (411) fixedly connected to the upper side of the heat-insulating layer (140), and a fourth connecting piece (412) of which the lower end is fixed with the upper end of the third connecting piece (411) and of which the upper end is provided with a hook part (4121); the second connecting structure (420) comprises a fifth connecting piece (421) and a sixth connecting piece (422), wherein the lower part of the fifth connecting piece (421) is connected with the hook part (4121) through a clamping plate (430), the sixth connecting piece (422) is fixedly arranged at the upper end of the fifth connecting piece (421), and the sixth connecting piece (422) is fixedly connected to the roof keel frame (150).

6. The assembled mobile epidemic prevention shelter of low energy consumption according to claim 5, wherein the clamping plate (430) is provided with a plurality of blocks, one side of each clamping plate (430) is bent to form a first rib (431), the other side of each clamping plate (430) is bent to form a containing cavity (432) and a second rib (433) positioned below the containing cavity (432), two adjacent clamping plates (430) are spliced, so that the first rib (431) of one clamping plate is contained in the containing cavity (432) of the other clamping plate (430), the hook part (4121) is arranged in the containing cavity (432) and is hung on the first rib (431), and the second rib (433) abuts against the lower part of the hook part (4121); the cross section of the fifth connecting piece (421) perpendicular to the extending direction is in a shape like a Chinese character 'ji', two side parts of the fifth connecting piece (421) are close to each other, the relative position between the two side parts is limited by a limiting piece, and the splicing part of two adjacent clamping plates (430) is clamped between the two side parts.

7. A low energy consumption fabricated mobile epidemic prevention cofferdam as claimed in claim 1, wherein said floor (500) comprises a plurality of first floors (510) arranged in sequence from inside to outside, a plurality of bottom false keels (520) for supporting said cofferdam; a bottom beam (530) is arranged between the adjacent bottom auxiliary keels (520); the bottom auxiliary keel (520) is fixedly connected with the bottom beam (530).

8. The assembled mobile epidemic prevention shelter of low energy consumption according to claim 1, wherein the inner wall panel (610) comprises a central filling heat preservation board, and metal plates (611) covering the inner and outer side surfaces of the central filling board, and the metal plates (611) are made of aluminum-zinc-plated steel plates coated with fluorocarbon coatings on the surface rollers; the metal plates (611) on the two side surfaces of the inner wall plate (610) are bent towards the direction of the central filling plate to form a pair of third bent parts (612) with cavities, and a seventh connecting piece (710) is arranged in each cavity; two third bent parts (612) positioned on the inner side are abutted between two adjacent inner wall boards (610), and two third bent parts (612) positioned on the outer side are abutted; clamping pieces (730) are arranged between the pair of seventh connecting pieces (710) on each inner wall plate (610) at intervals, the clamping pieces (730) form support between the pair of seventh connecting pieces (710), and the clamping pieces (730) are made of heat-insulating materials; two adjacent inner wall boards (610) are connected through a pair of eighth connecting pieces (720); each seventh connecting piece (710) is provided with a clamping part (711); in two adjacent inner wall plates (610), a pair of clamping parts (711) positioned on the inner side are respectively clamped with one of the eighth connecting pieces (720), and a pair of clamping parts (711) positioned on the outer side are respectively clamped with the other of the eighth connecting pieces (720); at least one clamping piece (730) is arranged between the pair of eighth connecting pieces (720) at intervals, and the clamping piece (730) forms a support between the pair of eighth connecting pieces (720).

9. The assembled mobile epidemic prevention shelter of claim 8, wherein the surfaces of the eighth connecting pieces (720) opposite to each other are provided with a plurality of first protrusions (712), a receiving slot is formed between two adjacent first protrusions (712) on the same surface, the width of the receiving slot decreases with the increase of the height of the first protrusions (712), the width of the clamping piece (730) gradually increases from the middle to the end thereof, and the end of the clamping piece (730) is received in the receiving slot.

10. The assembled mobile epidemic prevention cofferdam of a kind of low energy consumption according to claim 1, characterized in that, the inside of the second cross keel (623) is filled with thermal insulation material.