CN214220764U - Export case and virus detection laboratory of air film structure virus detection laboratory - Google Patents

Abstract

The utility model discloses an export case and virus detection laboratory of gas film structure virus detection laboratory, gas film structure virus detection laboratory form operating space after aerifing the membrane including aerifing the membrane, and the export case includes: the box body is internally provided with a buffer room and an equipment room and is provided with an emergency escape door and an internal opening and closing door; the fresh air machine is arranged in the equipment room and used for pumping gas out of the operation space; the electric box is arranged in the equipment room and used for supplying power to electric equipment in the air film structure virus detection laboratory; the garbage transfer box is arranged in the equipment room and is provided with an inner door facing the buffering room and an outer door facing the outside of the box body. From this, through setting up the equipment room, can set up equipment (new fan, electronic box etc.) in the equipment room to can improve the prefabrication degree and the modularization degree of export case, be favorable to building fast of air film structure virus detection laboratory, and, can reduce the transportation degree of difficulty of air film structure virus detection laboratory.

Description

Export case and virus detection laboratory of air film structure virus detection laboratory

Technical Field

The utility model belongs to the technical field of the protection isolation building and specifically relates to a gas film structure virus detects laboratory that exports case and have this gas film structure virus and detect the export case of laboratory that gas film structure virus detects.

Background

In the correlation technique, through aerifing the inflatable membrane with quick formation operation space, operation space's tip is provided with the export box, and the experimenter can carry out potential biohazard factor (pathogen, toxin etc.) detection and appraisal (detect) in operation space to effectively support on-the-spot scientific decision-making and deal with fast.

However, the outlet box does not have a space for placing equipment (such as a fan, an electrical box, etc.), and the outlet box cannot be used for placing equipment, so that the equipment needs to be placed in the operation space, the prefabrication degree and the modularization degree of the outlet box are not high, the quick construction of the air film structure virus detection laboratory is not facilitated, and when the air film structure virus detection laboratory is transported, the equipment (such as the fan, the electrical box, etc.) needs to be carried and transported separately, so that the air film structure virus detection laboratory is not convenient to transport.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, an object of the utility model is to provide an export case of air film structure virus detection laboratory, the degree of prefabrication and the modularization degree of this export case of air film structure virus detection laboratory are higher, are favorable to putting up fast of air film structure virus detection laboratory to, can reduce the transportation degree of difficulty of air film structure virus detection laboratory.

The utility model discloses a gas film structure virus detection laboratory is further provided.

According to the utility model discloses an export case of gas film structure virus detection laboratory, gas film structure virus detection laboratory is including aerifing the membrane, it aerifys the membrane and aerifys back formation operating space to aerify the membrane, the export case is located operating space's tip, the export case includes: the box body is internally provided with a buffer room and an equipment room, the box body is provided with an emergency escape door and an inner opening and closing door, the emergency escape door and the inner opening and closing door correspond to the buffer room, and the inner opening and closing door is used for communicating or separating the buffer room and the operation space; the fresh air machine is arranged in the equipment room and used for pumping gas out of the operation space; the electric box is arranged in the equipment room and used for supplying power to electric equipment in the air film structure virus detection laboratory; the garbage transfer box is arranged in the equipment room and is provided with an inner door facing the buffering room and an outer door facing the outside of the box body.

According to the utility model discloses an export case of gas film structure virus detection laboratory through setting up the equipment room, can set up equipment (new fan, electronic box etc.) in the equipment room to can improve the degree of prefabrication and the modularization degree of export case, be favorable to putting up fast of gas film structure virus detection laboratory, and, can reduce the transportation degree of difficulty of gas film structure virus detection laboratory.

In some examples of the present invention, a first partition plate is provided in the box body, the first partition plate separates the box body into a first space and a second space, and the first space is configured as the buffer room.

In some examples of the present invention, a second isolation plate is disposed in the box body, and the second isolation plate is disposed in the second space to separate the second space into the equipment room and a transition space; the first separator plate and the second separator plate are perpendicular to each other.

In some examples of the present invention, a plurality of support plates are provided in the second space, and the plurality of support plates are spaced apart in the height direction of the outlet box in sequence.

The utility model discloses an in some examples the direction of height of export case, the electronic box fresh air machine rubbish transfer box sets up at interval in proper order, rubbish transfer box locates the diapire of box.

In some examples of the present invention, the first isolation plate is provided with a first mounting hole, the box body is provided with a second mounting hole opposite to the first mounting hole, and the garbage transfer box is mounted in the first mounting hole and the second mounting hole.

In some examples of the present invention, the second isolation plate is provided with a third mounting hole, and the electric air valve of the fresh air machine is installed in the third mounting hole and extends into the transition space.

The utility model discloses an in some examples, the box with the lateral wall that the membrane is relative aerifys is equipped with the tuber pipe via hole, the tuber pipe via hole with transition space corresponds, the tuber pipe via hole is equipped with opens or closes the trachea door discharge of tuber pipe via hole.

The utility model discloses an in some examples, the box with the lateral wall that the membrane is relative aerifys is equipped with the pencil via hole, the pencil via hole with the transition space corresponds, the pencil via hole is equipped with opens or closes the pencil door of opening of pencil via hole.

The utility model discloses an in some examples, be equipped with the pencil on the second division board and dodge the hole, the pencil dodges the hole and is used for dodging the pencil.

In some examples of the present invention, a hanging bar for combing the wire harness is provided in the transition space.

The utility model discloses an in some examples, the box is equipped with the electronic box access hole, the electronic box access hole with in the equipment room fresh air machine the electronic box corresponds the setting, just the electronic box access hole is equipped with and is used for opening or closing the electronic box access door of electronic box access hole.

In some examples of the invention, the lateral wall of the box is provided with a cable connection aerial socket and/or a power supply aerial socket.

In some examples of the invention, the side wall of the box opposite to the inflatable membrane is provided with a protrusion the mounting part of the box, the mounting part is used for mounting the inflatable membrane.

In some examples of the invention, the box is provided with a sealing element for sealing a gap between the box and the inflatable membrane.

According to the utility model discloses a gas film structure virus detection laboratory, including foretell gas film structure virus detection laboratory's export case.

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

Drawings

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

fig. 1 is a perspective view of an outlet box according to an embodiment of the present invention;

FIG. 2 is a perspective view of another angle of the outlet box according to an embodiment of the present invention;

FIG. 3 is a schematic view of an outlet box according to an embodiment of the present invention;

FIG. 4 is a schematic view of another angle of the outlet box according to an embodiment of the present invention;

FIG. 5 is a schematic view of another angle of the outlet box according to an embodiment of the present invention;

fig. 6 is a schematic cross-sectional view of an outlet box according to an embodiment of the invention;

fig. 7 is a schematic view of another angle of the outlet box according to an embodiment of the present invention;

figure 8 is a schematic view of an outlet box according to a second embodiment of the invention;

fig. 9 is a schematic view of a partial structure of an outlet box according to a second embodiment of the present invention;

figure 10 is a schematic view of an outlet box according to a third embodiment of the invention;

fig. 11 is a schematic view of a partial structure of an outlet tank according to a third embodiment of the present invention;

figure 12 is a schematic view of another angle of the outlet box according to the third embodiment of the present invention;

FIG. 13 is a schematic diagram of an air-borne structure virus detection laboratory according to an embodiment of the present invention;

fig. 14 is an enlarged view at B in fig. 13.

Reference numerals:

an air-borne structure virus detection laboratory 10;

an inflatable membrane 1; an operating space 19;

a mounting portion 311; a seal 312; a groove portion 316; a sliding wheel 317;

an outlet tank 40;

a case 401;

a device room 402; a new fan 4021; an electronic box 4022; a waste bin 4023; an outer door 40231; an inner door 40232;

a first separator plate 4024; a second separator plate 4025; a support plate 4026; a second mounting hole 4027; a third mounting hole 4028; an electric air valve 4029; a fourth supply outlet 4030; a wind pipe via 4031; a lamp control switch 4032; a charging socket 4033; an illumination lamp 4034;

a buffer room 404; an emergency escape door 405; an inner opening and closing door 406; a transition space 407; the air pipe opens the door 408; a harness opening door 409; a wire harness relief hole 410; a wire harness 411; a hanging bar 412; an electric box access door 413; an inflator 414; cable wiring aerial plug 415; a power supply aviation plug 416; a lamp socket 417; an aviation plug 418;

a sample transfer chamber 50.

Detailed Description

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

Referring to fig. 1 to 13, an outlet box 40 of a gas-film virus detection laboratory 10 according to an embodiment of the present invention will be described, wherein the gas-film virus detection laboratory 10 includes an inflatable membrane 1, the inflatable membrane 1 is inflated to form an operation space 19, the outlet box 40 is disposed at an end of the operation space 19,

wherein, the inflatable membrane 1 can form an operation space 19 after being inflated, and experimenters can detect and identify (detect) potential biohazard factors (pathogens, toxins and the like) in the operation space 19 so as to effectively support field scientific decision and rapid response. The inflatable membrane 1 can be formed only by inflating, the construction time of the operation space 19 can be saved, the quick construction of the operation space 19 is facilitated, and therefore more working time can be strived for experimenters.

And, just can demolish after aerifing membrane 1 gassing to after experimenter's task is accomplished, can demolish gas membrane structure virus detection laboratory 10 rapidly, can guarantee the efficiency of demolising of gas membrane structure virus detection laboratory 10.

As shown in fig. 1 to 13, an outlet box 40 according to an embodiment of the present invention includes: the garbage can comprises a box body 401, a fresh air fan 4021, an electric box 4022 and a garbage transfer box 4023.

Buffer room 404 and equipment room 402 can be injectd in the box 401, box 401 is provided with emergency escape door 405, box 401 still is provided with interior door 406 that opens and shuts, interior door 406 that opens and shuts sets up in box 401's one side that is close to operating space 19, emergency escape door 405 sets up in box 401's one side of keeping away from operating space 19, emergency escape door 405, interior door 406 that opens and shuts all correspond the setting with buffer room 404, interior door 406 that opens and shuts can communicate or cut off buffer room 404 and operating space 19.

The new fan 4021, the electronic box 4022 and the garbage transfer box 4023 are all arranged in the equipment room 402, the new fan 4021 can extract gas in the operation space 19, the electronic box 4022 can supply power to electric equipment in the gas membrane virus detection laboratory 10, the garbage transfer box 4023 is provided with an inner door 40232 and an outer door 40231, specifically, the inner door 40232 is arranged towards the buffer room 404, and the outer door 40231 is arranged towards the outside of the box 401.

Wherein, the box 401 is arranged at the end of the operation space 19 formed after the inflation film 1 is inflated, and the experimenter can leave the operation space 19 through the box 401.

Alternatively, in a normal case, the experimenter may not enter or exit the operating space 19 through the outlet box 40, and when an emergency situation (e.g., a fire phenomenon) occurs, the experimenter may exit the operating space 19 through the outlet box 40.

The emergency escape door 405 can communicate or partition the buffer compartment 404 with the outside, and specifically, the buffer compartment 404 communicates with the outside when the emergency escape door 405 is opened, and the buffer compartment 404 is partitioned from the outside when the emergency escape door 405 is closed. Alternatively, the emergency escape door 405 may hermetically separate the buffer compartment 404 from the outside, that is, when the emergency escape door 405 is closed, the gas in the buffer compartment 404 cannot flow into the outside through the gap between the emergency escape door 405 and the box 401, and the outside gas cannot flow into the buffer compartment 404 through the gap between the emergency escape door 405 and the box 401.

The inner opening/closing door 406 can communicate or block the buffer compartment 404 and the operation space 19, and specifically, when the inner opening/closing door 406 is opened, the buffer compartment 404 communicates with the operation space 19, and when the inner opening/closing door 406 is closed, the buffer compartment 404 is blocked from the operation space 19. Alternatively, the inner opening/closing door 406 may hermetically separate the buffer compartment 404 and the operation space 19, that is, when the inner opening/closing door 406 is closed, the gas in the buffer compartment 404 cannot flow into the operation space 19 through the gap between the inner opening/closing door 406 and the box 401, and the gas in the operation space 19 cannot flow into the buffer compartment 404 through the gap between the inner opening/closing door 406 and the box 401.

Optionally, the emergency escape door 405 and/or the inside opening/closing door 406 may be opened by means of face recognition, or the emergency escape door 405 and/or the inside opening/closing door 406 may also be opened by means of voice recognition, or the emergency escape door 405 and/or the inside opening/closing door 406 may also be opened by means of password verification. Of course, the emergency escape door 405 and/or the inner opening/closing door 406 may be opened in other manners, for example, the emergency escape door 405 and/or the inner opening/closing door 406 may also be opened in an iris recognition manner, so that the emergency escape door 405 and/or the inner opening/closing door 406 may be prevented from being opened by an external person at will, and equipment in the air film structure virus detection laboratory 10 may be prevented from being lost.

An equipment room 402 can also be defined in the box 401, and the equipment room 402 can be used for placing equipment, for example, the equipment room 402 can be used for placing a fresh air fan 4021, an electric box 4022 and a waste delivery box 4023.

Among the prior art, the export case does not have the space of placing equipment (e.g. fan, electronic box etc.), and the export case can't be used for placing equipment, thereby lead to equipment to place in operating space, lead to the prefabrication degree and the modularization degree of export case not high, be unfavorable for the quick of air film structure virus detection laboratory to build, and, when transporting air film structure virus detection laboratory, need carry and transport equipment (e.g. fan, electronic box etc.) alone, thereby be not convenient for transport air film structure virus detection laboratory.

In the application, the equipment room 402 is defined in the box body 401, and the new fan 4021, the electric box 4022, the garbage transfer box 4023 and other equipment can be placed in the equipment room 402, so that the new fan 4021, the electric box 4022, the garbage transfer box 4023 and other equipment do not need to be placed in the operation space 19, the prefabrication degree and the modularization degree of the outlet box 40 can be improved, and the rapid construction of the gas membrane structure virus detection laboratory 10 is facilitated.

When transporting gas film structure virus detection laboratory 10, can place new fan 4021, electronic box 4022 and rubbish transfer case 4023 in export case 40 to, can transport new fan 4021, electronic box 4022, rubbish transfer case 4023 and export case 40 together, that is to say, do not need to carry and transport new fan 4021, electronic box 4022 and rubbish transfer case 4023 alone, thereby can reduce the transportation degree of difficulty of gas film structure virus detection laboratory 10, can improve the transportation efficiency of gas film structure virus detection laboratory 10.

Wherein, new fan 4021 can take out the gas in the operation space 19 to adjust the atmospheric pressure in the operation space 19, electronic box 4022 can supply power for the consumer in the gas membrane structure virus detection laboratory 10, in order to avoid can't use the consumer in the gas membrane structure virus detection laboratory 10 because the electric quantity is not enough, rubbish delivery box 4023 has interior door 40232 towards the cushion chamber 404 and the outer door 40231 towards the outside of box 401, rubbish that produces in the operation space 19 can be transmitted to the external world from rubbish delivery box 4023 after the sterilization.

From this, through setting up equipment room 402, can set up equipment (new fan 4021, electronic box 4022 etc.) in equipment room 402 to can improve the prefabrication degree and the modularization degree of export case 40, be favorable to setting up fast of air film structure virus detection laboratory 10, and, can reduce the transportation degree of difficulty of air film structure virus detection laboratory 10.

Alternatively, the air pressure in the operation space 19 may be adjusted to be a negative pressure (for example, the air pressure in the operation space 19 may be adjusted to be-10 pa), so that the pathogenic microorganisms in the operation space 19 can be effectively prevented from diffusing outwards, which is beneficial to improving the safety performance of the air-film structure virus detection laboratory 10.

Of course, the air pressure in the operation space 19 may be adjusted to be a positive pressure, and it can be understood that the relationship and the size of the air pressure in each space may be selected according to actual conditions, which is not limited in the present application.

As some embodiments of the present invention, the inner door 40232 and the outer door 40231 of the trash transfer box 4023 may adopt an intelligent interactive technology, so that the inner door 40232 and the outer door 40231 form an intelligent interlocking structure, so as to ensure that the inner door 40232 and the outer door 40231 cannot be opened simultaneously, thereby ensuring that the trash transfer box 4023 can play an isolation role, and the inner side of the inner door 40232 is not communicated with the outer side of the outer door 40231, so as to ensure the safety of the air-supported virus detection laboratory 10.

In some alternative embodiments, the intelligent interaction technology may be a light interaction technology, so that the inner door 40232 and the outer door 40231 become light interaction doors, and a mobile phone flash or a flash ring is used to issue an opening or closing instruction to the inner door 40232 and the outer door 40231. In other alternative embodiments, the inner door 40232 and the outer door 40231 may also be voice interaction doors, and the inner door 40232 and the outer door 40231 are opened or closed by using voice instructions. In this way, it is ensured that contactless control of the waste transfer bin 4023 can be achieved without using face scanning when the protective clothing is worn by the experimenter.

As some embodiments of the present invention, when an emergency (e.g., fire) occurs, the emergency escape door 405 and/or the inward opening/closing door 406 is automatically unlocked, so that the time for opening the emergency escape door 405 and/or the inward opening/closing door 406 can be saved, which is beneficial for experimenters to leave the operation space 19 through the outlet box 40.

Optionally, the opening and closing manner of the emergency escape door 405 and/or the inner opening and closing door 406 may include: any one or more of a zipper, magnetic adsorption, adhesion, a hook and a buckle are combined, the opening and closing modes are simple and convenient, and experimenters can open and close the emergency escape door 405 and/or the inner opening and closing door 406 quickly, so that the communication time between the buffer room 404 and the operation space 19 and the communication time between the buffer room 404 and the outside are reduced.

Optionally, the emergency escape door 405 and/or the inner opening door 406 may be made of a transparent material, and of course, the emergency escape door 405 and/or the inner opening door 406 may not be made of a transparent material.

As some embodiments of the utility model, new fan 4021 can be provided with filter equipment, through set up filter equipment on new fan 4021, can carry out high-efficient filtration to the gas that new fan 4021 took out to can avoid taking the virus in operation space 19 to the external world, be favorable to improving the safety in utilization performance of gas film structure virus detection laboratory 10.

Alternatively, the Filter device may be a multi-layer HEPA (High efficiency particulate air Filter) High efficiency Filter screen, which is a Filter screen meeting the HEPA standard, and has an effective rate of 99.7% for 0.1 micron and 0.3 micron, and the HEPA screen is characterized in that air can pass through but fine particles cannot pass through. It can remove more than 99.97% of particles with diameter of 0.3 micrometer (1/200 of hair diameter), and is the most effective filtering medium for smoke, dust and bacteria. HEPA divides five materials of PP filter paper, glass fiber, compound PP PET filter paper, melt-blown polyester non-woven fabrics and melt-blown glass fiber. The method is characterized in that: the wind resistance is large, the dust holding capacity is large, the filtering precision is high, the filter can be processed into various sizes and shapes according to the requirements of customers, and the filter is suitable for different machine types.

In some embodiments of the present invention, as shown in fig. 9 and 11, a first partition plate 4024 may be disposed in the box 401, wherein the first partition plate 4024 may divide a space in the box 401 into a first space and a second space, and the first space may be configured as the buffer room 404.

Further, as shown in fig. 1, 2 and 6, a second partition plate 4025 may be disposed in the case 401, the second partition plate 4025 may be disposed in the second space, and the second space may be partitioned into the equipment room 402 and the transition space 407 by the second partition plate 4025. The arrangement can separate the space in the box body 401 into a plurality of subspaces, so that the plurality of subspaces in the box body 401 have different functions, and the space utilization rate of the box body 401 can be improved.

Optionally, the first isolation plate 4024 may hermetically separate the first space and the second space, and the second isolation plate 4025 may hermetically separate the equipment room 402 and the transition space 407, that is, the gases in the sub-spaces in the box 401 cannot circulate, so that the independence and cleanliness of different spaces may be ensured.

In some embodiments of the present invention, as shown in fig. 1 and 2, the first isolation plate 4024 and the second isolation plate 4025 may be vertically disposed, optionally, the first isolation plate 4024 may be disposed perpendicular to the horizontal plane, the second isolation plate 4025 may also be disposed perpendicular to the horizontal plane, and the first isolation plate 4024 and the second isolation plate 4025 may be disposed perpendicular to each other, i.e., the included angle between the first isolation plate 4024 and the second isolation plate 4025 is 90 °. The arrangement can make the arrangement of the first and second partition plates 4024 and 4025 reasonable, so that the space in the box 401 can be reliably partitioned into the first and second spaces, and the second space can be reliably partitioned into the equipment room 402 and the transition space 407.

In some embodiments of the present invention, as shown in fig. 1, 6, 9 and 11, a plurality of support plates 4026 may be disposed in the second space. In the height direction of the outlet box 40, a plurality of support plates 4026 may be sequentially disposed at intervals. Optionally, the plurality of supporting plates 4026 may be arranged in parallel to a horizontal plane, and the plurality of supporting plates 4026 may be arranged in a hollow manner. The plurality of support plates 4026 may divide the second space into a plurality of sub-spaces, each of which may be used to place a different device. So set up and to place a plurality of equipment in the second space to can improve outlet box 40's space utilization, and, be favorable to improving outlet box 40's prefabrication degree and modularization degree.

Further, as shown in fig. 1 and fig. 6, a second isolation plate 4025 is provided in the box 401, a plurality of support plates 4026 may be provided on a surface of the second isolation plate 4025 opposite to the equipment room 402, and the plurality of support plates 4026 may be sequentially spaced apart in the height direction of the outlet box 40. Alternatively, the plurality of supporting plates 4026 may be arranged in parallel to a horizontal plane, and the plurality of supporting plates 4026 are arranged perpendicular to the first and second partition plates 4024 and 4025, and the plurality of supporting plates 4026 may divide the equipment room 402 into a plurality of sub-spaces, each of which may be used to place different equipment. With this arrangement, a plurality of devices can be placed in the device room 402, so that the space utilization of the outlet box 40 can be improved, and the degree of prefabrication and the degree of modularization of the outlet box 40 can be improved.

As a second embodiment of the present invention, as shown in fig. 9 and fig. 11, the second isolation plate 4025 may not be provided in the box 401, and when the second isolation plate 4025 is not provided in the box 401, the surface of the first isolation plate 4024 opposite to the second space may be provided with a plurality of supporting plates 4026, and at least a part of the structures of the plurality of supporting plates 4026 may be hollowed out, so that the outlet box 40 may have a plurality of arrangement forms.

In some embodiments of the present invention, as shown in fig. 1, fig. 6, fig. 9 and fig. 11, in the height direction of the outlet box 40, the electric box 4022, the new air blower 4021 and the trash box 4023 may be sequentially disposed at intervals, and the trash box 4023 may be disposed on the bottom wall of the box 401.

Alternatively, the surface of the second partition plate 4025 opposite to the equipment room 402 may be provided with two support plates 4026, in the height direction of the outlet box 40, the two support plates 4026 may be disposed at intervals, the electric box 4022 may be disposed on the upper support plate 4026, that is, the electric box 4022 may be disposed between the upper support plate 4026 and the top wall of the box 401, the new air fan 4021 may be disposed on the lower support plate 4026, that is, the new air fan 4021 may be disposed between the two support plates 4026, and the waste transfer box 4023 may be disposed on the bottom wall of the box 401, that is, the box 401 may be disposed between the lower support plate 4026 and the bottom wall of the box 401.

The setting can realize the layering of electronic box 4022, new fan 4021 and rubbish transfer case 4023 and arrange like this to can make the setting position of electronic box 4022, new fan 4021 and rubbish transfer case 4023 reasonable, and, because rubbish transfer case 4023 uses frequently, set up the diapire of box 401 through rubbish transfer case 4023, can be convenient for use rubbish transfer case 4023 to the external world transmission rubbish, in addition, can also avoid falling on electronic box 4022 and/or new fan 4021 through the rubbish of rubbish transfer case 4023.

In the third embodiment of the utility model, as shown in fig. 11, electronic box 4022 can supply power for inflator 414, and inflator 414 can be intelligent inflator 414, and intelligent inflator 414 can measure the internal gas pressure of the gas column, can realize intelligent control gas column gas pressure with the gas valve cooperation, and the path of realizing specifically is: when the air pressure in the air column is too high, the intelligent inflator 414 stops inflating, the air valve is pushed open by the air pressure to release the pressure, when the air pressure in the air column is lower, the air valve is closed, the intelligent inflator 414 automatically inflates, the air pressure is recovered, and therefore the air pressure of the air column is stable.

In some embodiments of the present invention, as shown in fig. 1, 3, 4, 6 and 13, a first mounting hole may be disposed on the first isolation plate 4024, a second mounting hole 4027 may be disposed on the box 401, the second mounting hole 4027 may be disposed opposite to the first mounting hole, and the waste delivery box 4023 may be mounted in the first mounting hole and the second mounting hole 4027.

Optionally, the inner door 40232 of the waste delivery box 4023 may be disposed corresponding to the first mounting hole, the outer door 40231 of the waste delivery box 4023 may be disposed corresponding to the second mounting hole 4027, the inner door 40232 may air-tightly separate the inner space between the buffer compartment 404 and the waste delivery box 4023, and the outer door 40231 may air-tightly separate the outer space from the inner space of the waste delivery box 4023. When the inner door 40232 is opened, garbage can be put into the inner space of the garbage transfer box 4023 through the first mounting hole, and when the outer door 40231 is opened, garbage can be taken out through the second mounting hole 4027. The garbage can be conveniently transferred through the garbage transfer box 4023 by the arrangement, so that the garbage transfer efficiency can be improved, and the garbage transfer box 4023 can be used conveniently and reliably.

Optionally, the first mounting hole and the second mounting hole 4027 may be provided with a first magic tape, the end of the garbage transfer box 4023 corresponding to the first mounting hole may be provided with a second magic tape, the end of the garbage transfer box 4023 corresponding to the second mounting hole may also be provided with a second magic tape, the second magic tape may be bonded and sealed with the first magic tape, so as to effectively seal the gap between the garbage transfer box 4023 and the box 401, and ensure the sealing between the garbage transfer box 4023 and the box 401.

In some embodiments of the present invention, as shown in fig. 2 and fig. 6, a third mounting hole 4028 may be opened on the second isolation plate 4025, the electric air valve 4029 of the new air blower 4021 may be installed at the third mounting hole 4028, and at least a part of the structure of the electric air valve 4029 may extend into the transition space 407. The fresh air machine 4021 can extract gas in the operation space 19, the gas extracted by the fresh air machine 4021 can enter the fresh air machine 4021 through the electric air valve 4029, the electric air valve 4029 can control the flow of the gas, and the setting can be realized by controlling the electric air valve 4029 to control the amount of the gas extracted by the fresh air machine 4021, so that the fresh air machine 4021 can accurately adjust the air pressure in the operation space 19.

Optionally, as shown in fig. 3 and 7, a fourth air supply outlet 4030 may be provided on a side wall of the box 401 away from the inflatable membrane 1, the fourth air supply outlet 4030 and the new air blower 4021 may be arranged in a communicating manner through the first ventilation pipe, and the new air blower 4021 may send the extracted air to the outside through the first ventilation pipe and the fourth air supply outlet 4030, so that the new air blower 4021 may reliably extract the air in the operation space 19 to adjust the air pressure in the operation space 19, thereby ensuring the operational reliability of the new air blower 4021.

Optionally, the fourth air supply outlet 4030 and the new air blower 4021 may be directly connected.

In some embodiments of the utility model, as shown in fig. 2 and 5, the lateral wall that box 401 is relative with inflatable membrane 1 can be provided with tuber pipe via hole 4031, tuber pipe via hole 4031 can correspond the setting with transition space 407, tuber pipe via hole 4031 department can be provided with the trachea door 408 of opening or closing tuber pipe via hole 4031, when tuber pipe via hole 4031 was opened to trachea door 408, new fan 4021 can extract the gas in the operating space 19 through tuber pipe via hole 4031.

Optionally, as shown in fig. 8 and 10, the air pipe opening door 408 may not be disposed at the air pipe passing hole 4031.

Optionally, a second vent pipe may be disposed at the through hole 4031, one end of the second vent pipe may extend into the operation space 19, the other end of the second vent pipe may be communicated with the electric air valve 4029 of the new air blower 4021, the new air blower 4021 may extract the gas in the operation space 19 through the second vent pipe, and the new air blower 4021 may send the extracted gas into the outside, so as to extract the gas in the operation space 19, which may be more reliable by the new air blower 4021, to adjust the air pressure in the operation space 19, thereby further ensuring the working reliability of the new air blower 4021.

In some embodiments of the present invention, as shown in fig. 2 and 5, the sidewall of the box 401 opposite to the inflation film 1 may be provided with a wire harness via hole, the wire harness via hole may correspond to the transition space 407, and the wire harness via hole may be provided with a wire harness opening door 409 for opening or closing the wire harness via hole.

Alternatively, the harness via and the duct via 4031 may be provided at intervals in the height direction of the outlet box 40, and the harness via may be provided below the duct via 4031. When the harness opening door 409 opens the harness through hole, the harness 411 of the electrical box 4022 may extend into the operation space 19 through the harness through hole to be electrically connected with the electrical equipment in the air film structure virus detection laboratory 10, so as to supply power to the electrical equipment in the air film structure virus detection laboratory 10. The electric box 4022 can be electrically connected with the electric equipment in the air film structure virus detection laboratory 10 by the arrangement, so that electric quantity can be provided for the electric equipment in the air film structure virus detection laboratory 10.

Optionally, the air film structure virus detection laboratory 10 can be provided with the main power supply outside, the main power supply can be connected with the electronic box 4022 electricity, the main power supply can be for the power supply of electronic box 4022, the setting can be constantly for the power supply of electronic box 4022 like this to make the electronic box 4022 have sufficient electric quantity for the power consumption equipment power supply in the air film structure virus detection laboratory 10, so that the power consumption equipment in the air film structure virus detection laboratory 10 can work for a long time.

Optionally, the main power supply can supply power for new fan 4021 to guarantee that new fan 4021 can continuously work, or electronic box 4022 can also supply power for new fan 4021 to guarantee that new fan 4021 can continuously work.

Alternatively, as a third embodiment of the present invention, as shown in fig. 10 and 11, a lamp socket 417 may be disposed on a side wall of the box 401 opposite to the inflatable membrane 1, the lamp socket 417 may be disposed on an upper end of the side wall of the box 401 opposite to the inflatable membrane 1, and the lamp socket 417 may supply power to the lighting device in the air-supported virus detection laboratory and the lighting lamp 4034 in the box 401.

As some embodiments of the present invention, as shown in fig. 12, one side of the first isolation board 4024 near the buffer room 404 may be provided with a lamp control switch 4032 and a charging socket 4033, the charging socket may be used to charge an electric device such as a mobile phone, and the lamp control switch may be used to control the on/off of the illumination lamp 4034 in the box 401.

Alternatively, as shown in fig. 12, the illumination lamp 4034 may be configured as a recessed downlight, which may be disposed within the first spacer plate 4024, and which may be used to illuminate the interior of the housing 401.

In some embodiments of the utility model, as shown in fig. 6, can be provided with the pencil on the second division board 4025 and dodge hole 410, the quantity that the pencil dodged hole 410 can set up to a plurality ofly, and the pencil dodges hole 410 can be used for dodging pencil 411, in other words, pencil 411 can dodge in hole 410 stretches into transition space 407 through the pencil. The wiring harness 411 may be the wiring harness 411 of the electric box 4022. Set up like this and can avoid second division board 4025 separation pencil 411 to make pencil 411 can stretch into transition space 407, can be convenient for be in the same place pencil 411 and the consumer electrical connection in the gas membrane structure virus detection laboratory 10, be favorable to gas membrane structure virus detection laboratory 10's quick building.

In some embodiments of the present invention, as shown in fig. 1, 2 and 6, a hanging rod 412 may be disposed in the transition space 407, and the hanging rod 412 may be used for combing the wire harness 411. Optionally, a connecting column may be disposed between the hanging rod 412 and the second isolation plate 4025, the number of the connecting columns may be set to be multiple, one end of the connecting column may be connected to the hanging rod 412, and the other end of the connecting column may be connected to the second isolation plate 4025.

The central axis of the hanging rod 412 can be perpendicular to the first isolation plate 4024, and the central axis of the hanging rod 412 can be parallel to the horizontal plane, and the number of the hanging rods 412 can be set to be multiple. In the height direction of the outlet box 40, a plurality of hanging bars 412 may be provided at intervals in the height direction of the outlet box 40, and the plurality of hanging bars 412 may be used for combing the wire harness 411. So set up can make arranging neatly of pencil 411 to can be convenient for comb, accomodate pencil 411, be favorable to the quick of air film structure virus detection laboratory 10 to build and dismantle.

In some embodiments of the utility model, as shown in fig. 3, fig. 4, fig. 8 and fig. 10, box 401 can be provided with the electronic box access hole, the electronic box access hole can correspond the setting with new fan 4021, electronic box 4022 in the inter-equipment 402, electronic box access hole department can be provided with electronic box access door 413, electronic box access door 413 can be used for opening or closing the electronic box access hole.

It will be appreciated that in normal use, the electrical cabinet access door 413 may close an electrical cabinet access opening. When the new fan 4021 and/or the electrical box 4022 needs to be overhauled and replaced, the electrical box access opening can be opened by rotating or sliding the electrical box access door 413 so as to overhaul and replace the new fan 4021 and/or the electrical box 4022. Moreover, the electrical box access hole can be formed in the outer side wall of the box body 401, so that the electrical box access hole is reasonable in forming position, and the new fan 4021 and/or the electrical box 4022 can be conveniently overhauled, replaced and debugged.

As a second embodiment of the present invention, as shown in fig. 9, an aviation plug 418 may be disposed on an electrical box 4022, and specifically, the aviation plug 418 may be disposed on one side of the electrical box 4022 close to the operation space 19.

In the second embodiment of the present invention, as shown in fig. 8 and 10, a cable wiring aerial plug 415 may be disposed on a side wall of the box 401, optionally, a side wall of the box 401 opposite to the inflatable membrane 1 may be provided with a cable wiring aerial plug 415, and the number of the cable wiring aerial plugs 415 may be set to be plural. For example, the number of the cable wiring aerial plugs 415 may be six, alternatively, a plurality of the cable wiring aerial plugs 415 may be disposed at a lower end of a side wall of the box body 401 opposite to the inflatable membrane 1, or a plurality of the cable wiring aerial plugs 415 may be disposed at an upper end of a side wall of the box body 401 opposite to the inflatable membrane 1, and the cable wiring aerial plugs 415 may be used to connect the electric box 4022 and electric equipment in the operation space 19.

Further, in the third embodiment of the present invention, as shown in fig. 10, a power supply aviation plug 416 may be disposed on a side wall of the box 401, optionally, the power supply aviation plug 416 may be disposed on one side of the second mounting hole 4027 close to the operation space 19, and the power supply aviation plug 416 may be disposed below the electrical box access door 413, and the power supply aviation plug 416 may be used to connect the main power supply and the electrical box 4022.

In some embodiments of the present invention, as shown in fig. 13 and 14, the side wall of the box 401 opposite to the inflatable membrane 1 may be provided with a mounting portion 311, the mounting portion 311 may protrude from the box 401, the mounting portion 311 may be used to mount the inflatable membrane 1, further, the mounting portion 311 may define a groove portion 316 with an opening facing the box 401, and at least a part of the structure of the inflatable membrane 1 may be disposed in the groove portion 316.

Alternatively, the mounting portion 311 may be a steel ring, and the steel ring may be used to mount the inflatable membrane 1, for example, the inflatable membrane 1 may be mounted on the steel ring by bundling, and of course, the inflatable membrane 1 may also be mounted on the steel ring by other manners, which is not limited in this application. Through setting up installation department 311, can be convenient for link together membrane 1 and box 401 of inflating to, can guarantee the fastness of connection of membrane 1 and box 401 of inflating, can avoid membrane 1 and box 401 to separate.

In some embodiments of the present invention, as shown in fig. 3, 4, 8, 10 and 12, the box 401 may be provided with a sealing member 312, the sealing member 312 may be used to seal the gap between the box 401 and the inflatable membrane 1, optionally, the inflatable membrane 1 may be provided with a fitting member fitting with the sealing member 312, and the gap between the box 401 and the inflatable membrane 1 may be sealed by the fitting of the sealing member 312 and the fitting member.

For example, the sealing element 312 and the mating element may be configured as hook and loop fasteners (hook and loop fasteners), so as to reliably seal the gap between the box 401 and the inflatable membrane 1, and prevent the external air from entering the operation space 19 through the gap between the box 401 and the inflatable membrane 1, thereby preventing the dust, particles and other substances in the external air from entering the operation space 19, and preventing the dust, particles and other substances in the external air from affecting the ongoing test in the operation space 19.

Moreover, the gas in the operation space 19 can be prevented from flowing into the outside through the gap between the box body 401 and the inflatable membrane 1, so that the pathogenic microorganisms in the operation space 19 can be effectively prevented from diffusing outwards, and the use safety performance of the gas-membrane structure virus detection laboratory 10 can be improved.

It can be understood that the above-described devices disposed in the device room 402 may be prefabricated and fixed in the device room 402, for example, the devices may be fixed in the device room 402 by a buckle, or may be fixed in the device room 402 by a bolt connection, so that when the gas membrane structure virus detection laboratory 10 is transported, the devices do not need to be additionally packed, the transportation space may be saved, and the construction process of the gas membrane structure virus detection laboratory 10 may be simplified, the construction time of the gas membrane structure virus detection laboratory 10 may be saved, and the rapid construction of the gas membrane structure virus detection laboratory 10 may be facilitated.

Alternatively, the height of the trash can 4023 may be set to 770mm, the height of the fresh air fan 4021 may be set to 1173mm, the height of the box 401 may be set to 2100mm, the width of the box 401 may be set to 1800mm, the depth of the box 401 may be set to 1200mm, and the widths of the emergency escape door 405 and the inner opening/closing door 406 may be set to 750mm, it being understood that the dimensions described in this paragraph are merely exemplary descriptions and do not represent that the structure of the outlet box 40 is necessarily limited to the dimensions described in this paragraph.

Further, as shown in fig. 4 to 7, the outlet box 40 may further include a plurality of sliding wheels 317, the number of the sliding wheels 317 may be set to be plural, and the plurality of sliding wheels 317 may be all disposed below the box body 401, and by providing the plurality of sliding wheels 317, the outlet box 40 may be conveniently carried, so that labor intensity in building and disassembling the gas membrane structure virus detection laboratory 10 may be reduced, and building and disassembling the gas membrane structure virus detection laboratory 10 may be convenient.

Optionally, when transporting the air film structure virus detection laboratory 10, the sample transfer box 50 may be placed in the buffer room 404 to transport the sample transfer box 50, so that the transportation difficulty of the air film structure virus detection laboratory 10 may be further reduced, and the air film structure virus detection laboratory 10 may be more conveniently transported.

According to the utility model discloses gas membrane structure virus detection laboratory 10, including the export case 40 of gas membrane structure virus detection laboratory 10 of above-mentioned embodiment, through setting up equipment room 402, can set up equipment (new fan 4021, electronic box 4022 etc.) in equipment room 402 to can improve the prefabrication degree and the modularization degree of export case 40, be favorable to gas membrane structure virus detection laboratory 10's quick construction, and, can reduce the transportation degree of difficulty of gas membrane structure virus detection laboratory 10.

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

In the description of the present invention, "the first feature" and "the second feature" may include one or more of the features.

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

In the description of the present invention, the first feature "on" or "under" the second feature may include the first and second features being in direct contact, and may also include the first and second features being in contact with each other not directly but through another feature therebetween.

In the description of the invention, the first feature being "on", "above" and "above" the second feature includes the first feature being directly above and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature.

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

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

Claims (16)

1. An export case of air film structure virus detection laboratory, air film structure virus detection laboratory (10) are including aerifing membrane (1), aerify membrane (1) and form operating space (19) after aerifing, export case (40) are located the tip of operating space (19), its characterized in that, export case (40) include:

the box body (401) is internally provided with a buffer room (404) and an equipment room (402), the box body (401) is provided with an emergency escape door (405) and an inner opening and closing door (406), the emergency escape door (405) and the inner opening and closing door (406) correspond to the buffer room (404), and the inner opening and closing door (406) is used for communicating or separating the buffer room (404) and the operation space (19);

the fresh air machine (4021), the fresh air machine (4021) is arranged in the equipment room (402), and the fresh air machine (4021) is used for extracting gas from the operation space (19);

the electric box (4022), the electric box (4022) is arranged in the equipment room (402), and the electric box (4022) is used for supplying power to electric equipment of the gas film structure virus detection laboratory (10);

a waste transfer bin (4023), the waste transfer bin (4023) being disposed in the equipment room (402), the waste transfer bin (4023) having an inner door (40232) facing the buffer room (404) and an outer door (40231) facing the outside of the cabinet (401).

2. The outlet box of air film structure virus detection laboratory according to claim 1, characterized in that a first isolation plate (4024) is provided in the box body (401), and the first isolation plate (4024) divides the inside of the box body (401) into a first space and a second space, and the first space is configured as the buffer room (404).

3. The outlet box of the air film structure virus detection laboratory according to claim 2, characterized in that a second isolation plate (4025) is arranged in the box body (401), and the second isolation plate (4025) is arranged in the second space to divide the second space into the equipment room (402) and the transition space (407);

the first separator plate (4024) and the second separator plate (4025) are perpendicular to each other.

4. The outlet box of the air film structure virus detection laboratory according to claim 2, wherein a plurality of support plates (4026) are arranged in the second space, and the support plates (4026) are sequentially spaced in a height direction of the outlet box (40).

5. The outlet box of the air film structure virus detection laboratory according to any one of claims 1 to 4, wherein in the height direction of the outlet box (40), the electric box (4022), the fresh air fan (4021) and the garbage transfer box (4023) are sequentially arranged at intervals, and the garbage transfer box (4023) is arranged on the bottom wall of the box body (401).

6. The outlet box of the air film structure virus detection laboratory according to claim 2, wherein the first isolation plate (4024) is provided with a first mounting hole, the box body (401) is provided with a second mounting hole (4027) opposite to the first mounting hole, and the garbage transfer box (4023) is mounted to the first mounting hole and the second mounting hole (4027).

7. The outlet box of the air film structure virus detection laboratory according to claim 3, wherein the second isolation plate (4025) is provided with a third mounting hole (4028), and an electric air valve (4029) of the fresh air fan (4021) is mounted to the third mounting hole (4028) and extends into the transition space (407).

8. The outlet box of the air film structure virus detection laboratory according to claim 7, characterized in that the side wall of the box body (401) opposite to the inflatable film (1) is provided with an air duct through hole, the air duct through hole corresponds to the transition space (407), and the air duct through hole is provided with an air duct opening door (408) for opening or closing the air duct through hole.

9. The exit box of air-borne structure virus detection laboratory of claim 3, characterized in that the side wall of said box body (401) opposite to said inflatable membrane (1) is provided with a harness through hole corresponding to said transition space (407), said harness through hole being provided with a harness opening door (409) for opening or closing said harness through hole.

10. The outlet box of the gas film structure virus detection laboratory according to claim 9, wherein a harness avoidance hole (410) is formed in the second isolation plate (4025), and the harness avoidance hole (410) is used for avoiding the harness (411).

11. The air-film structure virus detection laboratory outlet box according to claim 9, characterized in that a hanging rod (412) for carding the wiring harness (411) is arranged in the transition space (407).

12. The outlet box of the gas film structure virus detection laboratory according to claim 9, wherein the box body (401) is provided with an electric box access hole, the electric box access hole is arranged corresponding to the fresh air fan (4021) and the electric box (4022) in the equipment room (402), and the electric box access hole is provided with an electric box access door (413) for opening or closing the electric box access hole.

13. The exit box of air film structure virus detection laboratory of claim 1, characterized in that the lateral wall of the box body (401) is provided with cable wiring aviation plug (415) and/or power supply aviation plug (416).

14. The outlet box of the air film structure virus detection laboratory according to claim 1, wherein a side wall of the box body (401) opposite to the air film (1) is provided with a mounting part (311) protruding out of the box body (401), and the mounting part (311) is used for mounting the air film (1).

15. The outlet box of the air-film structure virus detection laboratory according to claim 14, characterized in that the box body (401) is provided with a sealing member (312), and the sealing member (312) is used for sealing a gap between the box body (401) and the inflatable film (1).

16. An air film structure virus detection laboratory, characterized by comprising an outlet box (40) of an air film structure virus detection laboratory (10) according to any one of claims 1 to 15.

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