CN214330097U - Automatic nucleic acid detection integration shelter laboratory goes up and down - Google Patents

Abstract

The utility model relates to an automatic nucleic acid testing integration shelter laboratory goes up and down belongs to nucleic acid testing equipment field, this nucleic acid testing integration shelter laboratory goes up and down automatically, including the cabin body, from left to right be equipped with reagent preparation district in proper order in it, sample preparation district and amplification analysis district, one side in reagent preparation district is equipped with between first buffering and the second buffering, one side in sample preparation district is equipped with between washing and disappearing, one side in amplification analysis district is equipped with between the third buffering, with through between first buffering, between the second buffering, reagent preparation district advances respectively between the third buffering, sample preparation district and amplification analysis district, reagent preparation district and sample preparation district, sample preparation district and amplification analysis district, sample preparation district and washing and disappearing between, be equipped with the transmission window between washing and the amplification analysis district respectively, internal gas pressure in the cabin body is less than the external world. The shelter laboratory effectively utilizes the space in the shelter body, the mutual interference of all the areas in the shelter laboratory is extremely low, the biological pollution risk is greatly reduced, and the detection protection strength is strong.

Description

Automatic nucleic acid detection integration shelter laboratory goes up and down

Technical Field

The utility model relates to a nucleic acid testing equipment field especially relates to an automatic nucleic acid testing integration shelter laboratory goes up and down.

Background

Traditional nucleic acid detection laboratory generally establishes at hospital or disease control center, and to the proruption epidemic situation condition, it can not satisfy in time detection demand, therefore often takes to establish the mode of interim laboratory in the epidemic situation place emergent, and interim laboratory is built consuming time longer easily and is delayed the detection to delay prevention and control opportunity, can not satisfy the user demand completely. Although the mobile nucleic acid detection laboratory can solve the problems, the space utilization rate is not high, and the biological pollution risk is high.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a remedy prior art not enough, provide an automatic nucleic acid detection integration shelter laboratory goes up and down, effectively utilized cabin body inner space, each regional interference each other is extremely low in it, very big reduction the biological pollution risk, it is stronger to detect the protection dynamics.

The utility model discloses a solve the technical scheme that above-mentioned technical problem adopted and be:

an automatic lifting integrated shelter laboratory for nucleic acid detection comprises a shelter body, a reagent preparation area, a sample preparation area and an amplification analysis area are sequentially distributed in the shelter body from left to right, a first buffer room and a second buffer room are arranged at one side of the reagent preparation area, a decontamination room is arranged at one side of the sample preparation area, a third buffer room is arranged at one side of the amplification analysis area so as to pass in and out the reagent preparation area through the first buffer room, a sample preparation area is accessed through a second buffer room, an amplification analysis area is accessed through a third buffer room, a transfer window is respectively arranged between the reagent preparation area and the sample preparation area, between the sample preparation area and the amplification analysis area, between the sample preparation area and the decontamination area, and between the decontamination area and the amplification analysis area, and the air pressure in the cabin body is not more than the air pressure outside the cabin body;

the washing and disinfecting room, the first buffer room, the second buffer room and the third buffer room are arranged on one side of the cabin body, and the reagent preparation area and the transfer window between the sample preparation areas and the amplification and analysis areas are respectively close to the other side of the cabin body.

After outburst epidemic situation of a certain scale, the shelter laboratory is transported to an epidemic situation point through the transport vehicle, risk personnel can be detected in time, and prevention and control measures can be implemented well. When the shelter laboratory is used, firstly, the first step of treatment is carried out in the reagent preparation area, then, the nucleic acid amplification solution is transmitted to the sample preparation area through the transmission window between the reagent preparation area and the sample preparation area for the second step of treatment, and then, the sample is transmitted to the amplification analysis area through the transmission window between the sample preparation area and the amplification analysis area for the third step of treatment so as to finish the detection and analysis of nucleic acid. In order to isolate biological pollution as much as possible, the air pressure in the cabin body is not higher than the external air pressure, especially is lower than the external air pressure, so that the overflow of risk gas can be prevented as much as possible; in order to further reduce the external risk of biological pollution, a first buffer room is arranged before a reagent preparation area enters, a second buffer room is arranged before a sample preparation area enters, and a third buffer room is arranged before an amplification analysis area enters, so that the risk of direct contact and diffusion of gas inside and outside a cabin body can be reduced as a transition room on one hand, and preliminary disinfection treatment and other operations are carried out when the transition room enters and exits on the other hand, thereby preventing the leakage of the biological pollution gas as much as possible; in order to further reduce the leakage risk of the biological pollution gas, a decontamination room is arranged to treat waste garbage, and a transfer window is arranged between the decontamination room and the sample preparation area and between the decontamination room and the amplification analysis area respectively, because the leakage risk is larger in the operation process of the two spaces, the experimental garbage needs to be treated carefully; the operation area and the inlet and outlet positions are arranged in a side-by-side mode, and the leakage of biological pollution gas is prevented. This application shelter laboratory, compact structure, space utilization is high, and interference is extremely low between each district each other, very big reduction the biological pollution risk, it is stronger to detect the protection dynamics.

In particular, in the case of use, various instruments are provided in the reagent preparation region, the sample preparation region, and the amplification analysis region, respectively, as required.

Furthermore, in order to better prevent the leakage of the bio-polluted gas, the air pressure of the reagent preparation area is respectively greater than the air pressure of the first buffer room and the air pressure of the sample preparation area, so that the gas in the sample preparation area with higher bio-pollution risk can be prevented from entering the reagent preparation area as much as possible, the external gas in the first buffer room can be prevented from entering the reagent preparation area as much as possible, and the cleanness of the air in the reagent preparation area is ensured; the air pressure of the sample preparation area is less than that of the second buffer, and the air pressure of the amplification analysis area is less than that of the third buffer, so that external air can be prevented from entering the sample preparation area and the amplification analysis area to the greatest extent; the air pressure of the decontamination room is smaller than the air pressure of the sample preparation area and the air pressure of the amplification analysis area, so that the air in the two spaces can enter the decontamination room for unified treatment.

Specifically, under the conditions, the pressure difference between the reagent preparation area and the outside of the chamber is +10 +/-5 Pa, the pressure difference between the sample preparation area and the outside of the chamber is-10 +/-5 Pa, the pressure difference between the amplification analysis area and the outside of the chamber is-20 +/-5 Pa, the pressure difference between the first buffer space and the outside of the chamber is-5 +/-5 Pa, the pressure difference between the second buffer space and the outside of the chamber is-5 +/-5 Pa, the pressure difference between the third buffer space and the outside of the chamber is-5 +/-5 Pa, and the pressure difference between the decontamination space and the outside of the chamber is-30 +/-5 Pa. The air pressure in the decontamination room is the lowest, and the biological pollution gas can be treated through the decontamination room.

Further, first safety doors are respectively arranged on the cabin bodies corresponding to the first buffer room, the second buffer room, the third buffer room and the decontamination room, and second safety doors are respectively arranged between the first buffer room and the reagent preparation area, between the second buffer room and the sample preparation area, and between the third buffer room and the amplification analysis area;

and a third safety door is also arranged on the cabin body corresponding to the sample preparation area, and the third safety door is not opened generally and needs to be opened again in special needs.

Furthermore, a fresh air cabin is further arranged at one end, close to the amplification analysis area, of the cabin body, and the fresh air cabin is used for placing an air conditioner outdoor unit, a motor and other equipment.

Furthermore, in order to transport the shelter laboratory to an epidemic situation point more conveniently and timely, four corners of the shelter body are respectively provided with a lifting assembly assisting the shelter body to be loaded and unloaded, the lifting assembly comprises a transverse moving frame, a first hydraulic driving piece and a second hydraulic driving piece, a placing groove is formed in the side part of the shelter body to place the transverse moving frame, and the transverse moving frame can be driven by the first hydraulic driving piece to have a first state of locally moving to the outside of the placing groove and a second state of completely being in the placing groove;

the lateral shifting frame includes support body and vertical sleeve pipe, and when the lateral shifting frame was in first state, vertical sleeve pipe was arranged in outside the arrangement groove, vertical sleeve pipe includes the outer tube of being connected with the support body and locates the inner tube in the outer tube, the inner tube can be driven in order to go up and down for the outer tube by the second hydraulic drive spare.

Before the transportation, start lifting unit, make the bottom of the cabin body be higher than the face of placing on the transport vechicle, it is specific, stretch out the arrangement groove outside to first state through first hydraulic drive piece drive lateral shifting frame part earlier, later stretch out through the relative outer tube of second hydraulic drive piece drive inner tube, to making the cabin body rise and satisfy required height. The transport vehicle backs from one end of the cabin body to enter the lower part of the cabin body, the inner pipes on two sides of the cabin body are arranged on two sides of the transport vehicle, and then the lifting assembly is reversely retracted according to the lifting process to complete the loading process. Because the lifting component is completely arranged in the arrangement groove after being folded, the space of the large cabin can be made as much as possible on the premise of not influencing the transportation. After the square cabin is transported to a destination, the transport vehicle can be driven to move to a position where the square cabin is accurately unloaded and then is stopped, the lifting assembly is started according to the lifting process before loading, then the transport vehicle is driven to leave, and finally the lifting assembly is completely retracted to complete the unloading process. The unloading position is more adjustable by adopting the moving unloading of the vehicle. Adopt above-mentioned structure loading and unloading, the process is simple, and the security is high.

Further, vertical bushing connect in the outer end of support body sets up like this, satisfies the flexible use of vertical bushing of realization under less removal stroke at lateral shifting frame, and the structure of lateral shifting frame can be done compacter, uses more stably.

Further, the outer side of the cabin body is also provided with a heat insulation layer, the heat insulation layer can be made of a rubber coating plate, the thickness of the heat insulation layer is set to be about 2mm, the heat absorption of the heat insulation layer is low, and the overhigh temperature in the cabin body can be avoided in summer; can keep warm in winter.

The utility model adopts the above technical scheme, the advantage that has is:

1. according to the shelter laboratory, nucleic acid detection is completed through a reagent preparation area, a sample preparation area and an amplification analysis area which are sequentially provided with a transmission window; the air pressure in the cabin body is not more than the air pressure outside the cabin body, and the first buffer room, the second buffer room and the third buffer room are arranged as transition rooms, so that the leakage of biological pollution gas can be prevented as far as possible; the waste in the two areas can be respectively treated in time by arranging the decontamination rooms which are respectively communicated with the sample preparation area and the amplification analysis area through the transmission windows, so that the interference between the two areas is reduced; by arranging the main operation area close to the transfer window and the two sides of the in-out area subdivision body, the biological pollution gas is prevented from leaking out more favorably.

2. The air pressure of the reagent preparation area is respectively greater than the air pressure of the first buffer room and the air pressure of the sample preparation area, so that the air in the sample preparation area with higher biological pollution risk can be prevented from entering the reagent preparation area as much as possible, and the external air in the first buffer room can be prevented from entering the reagent preparation area as much as possible, thereby ensuring the cleanness of the air in the reagent preparation area; the air pressure of the sample preparation area is smaller than that of the second buffer, and the air pressure of the amplification analysis area is smaller than that of the third buffer, so that external air can be prevented from entering the sample preparation area and the amplification analysis area to the greatest extent; the air pressure of the decontamination room is less than the air pressure of the sample preparation area and the air pressure of the amplification analysis area, so that the air in the two spaces can enter the decontamination room for unified treatment, and the biological pollution gas is prevented from leaking out of the cabin body.

3. This application shelter laboratory is guaranteeing that it has great space and not influencing under the prerequisite of its transportation, can assist the loading and unloading of shelter from the transport vechicle with the lifting unit that the cooperation of the cabin body set up, and the loading and unloading process is simple, and the uninstallation position is easily transferred, and the security of uninstallation has improved greatly. In addition, compared with hoisting, the moving of the device is more flexible.

Drawings

Fig. 1 is a schematic view of an internal structure of a pitch angle cabin according to an embodiment of the present invention;

FIG. 2 is a schematic view of one of the structures from the right perspective of FIG. 1;

FIG. 3 is a partial schematic view of the cross-sectional structure taken along line B-B in FIG. 2;

FIG. 4 is a partial cross-sectional structural view of FIG. 2;

fig. 5 is a schematic view of the lateral moving frame of fig. 2 fully retracted.

In the figure, 1, a cabin body, 2, a reagent preparation area, 3, a sample preparation area, 4, an amplification analysis area, 5, a first buffer room, 6, a second buffer room, 7, a decontamination room, 8, a third buffer room, 9, a transmission window, 10, a fresh air cabin, 11, a placing groove, 12, a rack body, 13, a vertical sleeve, 131, an outer pipe, 132, an inner pipe, 14, an ultra-clean workbench, 15, a medical refrigerator, 16, a vortex mixer, 17, a biological safety cabinet, 18, a nucleic acid extraction instrument, 19, a virus inactivation instrument, 20, a dry fire extinguishing box, 21, a mini centrifuge, 22, a fluorescence quantitative PCR instrument, 23, a printer, 24 and an autoclave.

Detailed Description

In order to clearly illustrate the technical features of the present invention, the present invention is explained in detail by the following embodiments with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, however, the present application may be practiced in other ways than those described herein, and therefore the scope of the present application is not limited by the specific embodiments disclosed below.

In addition, in the description of the present application, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", and the like, indicate orientations and positional relationships based on those shown in the drawings, are only for convenience of description and simplicity of description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present application.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

In this application, unless otherwise specifically stated or limited, the terms "mounted," "connected," "fixed," and the like are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally formed, and their specific meanings in this application will be understood by those skilled in the art as appropriate. In the description herein, reference to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., means 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 application. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

As shown in fig. 1, in the embodiment, the automatic lifting integrated shelter laboratory for nucleic acid detection comprises a shelter body 1, a reagent preparation area 2, a sample preparation area 3 and an amplification analysis area 4 are sequentially distributed in the shelter body 1 from left to right, a first buffer room 5 and a second buffer room 6 are arranged on one side of the reagent preparation area 2, a decontamination room 7 is arranged on one side of the sample preparation area 3, a third buffer room 8 is arranged on one side of the amplification analysis area 4, so that the reagent preparation area 2 is accessed through the first buffer room 5, the sample preparation area 3 is accessed through the second buffer room 6, and the amplification analysis area 4 is accessed through the third buffer room 8, transfer windows 9 are respectively arranged between the reagent preparation area 2 and the sample preparation area 3, between the sample preparation area 3 and the amplification analysis area 4, between the sample preparation area 3 and the decontamination room 7, between the decontamination room 7 and the amplification analysis area 4, the air pressure in the cabin 1 is not more than the air pressure outside the cabin 1;

the washing and disinfecting room 7, the first buffer room 5, the second buffer room 6 and the third buffer room 8 are arranged on one side of the chamber body 1, the reagent preparation area and the transmission window between the sample preparation area 3, the sample preparation area 3 and the transmission window between the amplification analysis area 4 are respectively close to the other side of the chamber body 1.

After outburst epidemic situation of a certain scale, the shelter laboratory is transported to an epidemic situation point through the transport vehicle, risk personnel can be detected in time, and prevention and control measures can be implemented well. When the shelter laboratory is used, firstly, the first step of treatment is carried out in the reagent preparation area 2, then, the nucleic acid amplification solution is transmitted to the sample preparation area 3 through the transmission window between the reagent preparation area 2 and the sample preparation area 3 for the second step of treatment, and then, the sample is transmitted to the amplification analysis area 4 through the transmission window between the sample preparation area 3 and the amplification analysis area 4 for the third step of treatment so as to finish the detection and analysis of nucleic acid. In order to isolate biological pollution as much as possible, the air pressure in the cabin body is not higher than the external air pressure, especially is lower than the external air pressure; in order to further reduce the external risk of biological pollution, a first buffer room 5 is arranged before the reagent preparation area 2 enters, a second buffer room 6 is arranged before the sample preparation area 3 enters, and a third buffer room 8 is arranged before the amplification analysis area 4 enters, so that the risk of direct contact and diffusion of the gas inside and outside the cabin body 1 can be reduced as a transition room on one hand, and preliminary disinfection treatment and other operations are carried out as the transition room when the transition room enters and exits, thereby preventing the leakage of the biological pollution gas as much as possible; in order to further reduce the leakage risk of the biological pollution gas, a decontamination room 7 is arranged to treat the waste garbage, and a transmission window is arranged between the decontamination room 7 and the sample preparation area 3 and between the decontamination room 7 and the amplification analysis area 4 respectively, because the leakage risk is greater in the operation process of the two spaces, the waste experiment needs to be carefully treated; the operation area and the inlet and outlet positions are arranged in a side-by-side mode, and the leakage of biological pollution gas is prevented. This application shelter laboratory, compact structure, space utilization is high, and interference is extremely low between each district each other, very big reduction the biological pollution risk, it is stronger to detect the protection dynamics.

Wherein, various instruments are respectively arranged in the reagent preparation area, the sample preparation area and the amplification analysis area according to needs, and various articles are also arranged in the first buffer room, the second buffer room, the third buffer room and the decontamination room according to needs. For example, a clean bench 14 is provided in the reagent preparation area, and a medical refrigerator 15, a vortex mixer 16, a mini centrifuge, and the like are placed therein; the sample preparation area is provided with a biological safety cabinet 17, a nucleic acid extractor 18, a virus inactivation instrument 19, a seat, a medical refrigerator, a dry fire extinguishing box 20, a mini centrifuge 21 and other equipment; the amplification analysis area is provided with a fluorescent quantitative PCR instrument 22, a mini centrifuge, a printer 23, a seat and other equipment; the washing and disinfecting room is internally provided with high-pressure sterilizer 24 and other required equipment for safely treating the medical garbage; and articles such as a hand washing pool, disinfectant and the like are arranged in each buffer room according to actual requirements. It should be noted that the placement position of each device is not limited to the position shown in fig. 1.

Further, in order to prevent the leakage of the bio-contamination gas, the pressure in the reagent preparation area 2 is higher than the pressure in the first buffer space 5, the pressure in the sample preparation area 3 is lower than the pressure in the second buffer space 6, and the pressure in the amplification analysis area 4 is lower than the pressure in the third buffer space 8. The air pressure of the reagent preparation area 2 is respectively greater than the air pressure of the first buffer room 5 and the air pressure of the sample preparation area 3, so that the air in the sample preparation area 3 with a high biological pollution risk can be prevented from entering the reagent preparation area 2 as much as possible, the external air of the first buffer room 5 can be prevented from entering the reagent preparation area 2 as much as possible, and the cleanness of the air in the reagent preparation area 2 is ensured; the gas pressure of the sample preparation area 3 is less than that of the second buffer room 6, and the gas pressure of the amplification analysis area 4 is less than that of the third buffer room 8, so that the external gas can be prevented from entering the sample preparation area 3 and the amplification analysis area 4 as much as possible; the air pressure of the decontamination room 7 is less than the air pressure of the sample preparation area 3 and the air pressure of the amplification analysis area 4, so that the air in the two spaces can enter the decontamination room 7 for unified treatment. On the basis of meeting the above conditions, the pressure difference between the reagent preparation area 2 and the outside of the chamber body 1 is +10 +/-5 Pa, the pressure difference between the sample preparation area 3 and the outside of the chamber body 1 is-10 +/-5 Pa, the pressure difference between the amplification analysis area 4 and the outside of the chamber body 1 is-20 +/-5 Pa, the pressure difference between the first buffer room 5 and the outside of the chamber body 1 is-5 +/-5 Pa, the pressure difference between the second buffer room 6 and the outside of the chamber body 1 is-5 +/-5 Pa, the pressure difference between the third buffer room 8 and the outside of the chamber body 1 is-5 +/-5 Pa, and the pressure difference between the decontamination room 7 and the outside of the chamber body 1 is-30 +/-5 Pa. The air pressure in the decontamination chamber 7 is the lowest and biological contamination gas can be treated through the decontamination chamber 7.

Further, the cabin bodies 1 corresponding to the first buffer room 5, the second buffer room 6, the third buffer room 8 and the washing and disinfecting room 7 are respectively provided with a first safety door, and a second safety door is respectively arranged between the first buffer room 5 and the reagent preparation area 2, between the second buffer room 6 and the sample preparation area 3, and between the third buffer room 8 and the amplification and analysis area 4;

and a third safety door is also arranged on the cabin body 1 corresponding to the sample preparation area 3, and the third safety door is not opened generally and needs to be opened again in special needs.

Furthermore, a fresh air cabin 10 is further arranged at one end of the cabin body 1 close to the amplification analysis area 4, and the fresh air cabin 10 is used for placing an air conditioner outdoor unit, a motor and other equipment.

As shown in fig. 2-5, in one embodiment, in order to transport the shelter labs to epidemic situation more conveniently and timely, the four corners of the cabin body 1 are respectively provided with a lifting assembly for assisting the loading and unloading thereof, the lifting assembly comprises a transverse moving frame, a first hydraulic driving member and a second hydraulic driving member, the side part of the cabin body is provided with a placement groove 11 for placing the transverse moving frame, and the transverse moving frame can be driven by the first hydraulic driving member to have a first state of partially moving to the outside of the placement groove and a second state of completely being in the placement groove 11; the transverse moving frame comprises a frame body 12 and a vertical sleeve 13, when the transverse moving frame is in a first state, the vertical sleeve 13 is arranged outside the arrangement groove, the vertical sleeve 13 comprises an outer tube 131 connected with the frame body 12 and an inner tube 132 arranged in the outer tube, and the inner tube 132 can be driven by a second hydraulic driving piece to lift relative to the outer tube 131.

Before the transportation, start lifting unit, make the bottom of the cabin body 1 be higher than the place the face on the transport vechicle until, specifically, it stretches out outside the arrangement groove 11 to first state through first hydraulic drive spare drive lateral shifting frame part earlier, later stretches out through the relative outer tube 131 of second hydraulic drive spare drive inner tube 132, to making the cabin body 1 rise and satisfy required height. The transport vehicle backs up from one end of the cabin body 1 to enter the lower part of the cabin body 1, the inner pipes 132 on the two sides of the cabin body 1 are positioned on the two sides of the transport vehicle at the moment, and then the lifting assembly is reversely retracted according to the lifting process to complete the loading process. Because the lifting component is completely arranged in the arrangement groove 11 after being folded, the space of the large cabin can be made as much as possible on the premise of not influencing the transportation. After the square cabin is transported to a destination, the transport vehicle can be driven to move to a position where the square cabin is accurately unloaded and then is stopped, the lifting assembly is started according to the lifting process before loading, then the transport vehicle is driven to leave, and finally the lifting assembly is completely retracted to complete the unloading process. The unloading position is more adjustable by adopting the moving unloading of the vehicle. Adopt above-mentioned structure loading and unloading, the process is simple, and the security is high.

Wherein, first hydraulic drive spare and second hydraulic drive spare can adopt flexible jar class drive structure of hydraulic pressure, perhaps sets up hydraulic pressure oil circuit etc. and it is prior art, and technical personnel in the field can set up the installation according to actual demand, therefore here does not give unnecessary details one by one, and its affiliated part hydraulic pump and hydraulic pressure oil pipe can be placed in new trend cabin. The fresh air cabin is provided with a cabin door and an air outlet.

As shown in fig. 2, further, the vertical sleeve 13 is connected to the outer end of the frame body 12, so that the vertical sleeve 13 can be used in a telescopic manner when the transverse moving frame meets a small moving stroke, and the structure of the transverse moving frame can be more compact and more stable in use.

In one embodiment, the outer side of the cabin body is also provided with a heat insulation layer, the heat insulation layer can be a rubber coating plate, the thickness of the heat insulation layer is set to be about 2mm, the heat absorption of the heat insulation layer is low, and the overhigh temperature in the cabin body can be avoided in summer; can keep warm in winter.

The above-mentioned specific embodiments can not be regarded as the restriction to the scope of protection of the utility model, to technical personnel in this technical field, it is right the utility model discloses any replacement improvement or transform that embodiment made all fall within the scope of protection of the utility model.

The parts of the present invention not described in detail are the known techniques of those skilled in the art.

Claims (8)

1. An automatic lifting integrated shelter laboratory for nucleic acid detection is characterized by comprising a shelter body, a reagent preparation area, a sample preparation area and an amplification analysis area are sequentially distributed in the capsule body from left to right, a first buffer room and a second buffer room are arranged at one side of the reagent preparation area, a decontamination room is arranged at one side of the sample preparation area, a third buffer room is arranged at one side of the amplification analysis area so as to pass in and out the reagent preparation area through the first buffer room, a sample preparation area is accessed through a second buffer room, an amplification analysis area is accessed through a third buffer room, a transfer window is respectively arranged between the reagent preparation area and the sample preparation area, between the sample preparation area and the amplification analysis area, between the sample preparation area and the decontamination area, and between the decontamination area and the amplification analysis area, and the air pressure in the cabin body is not more than the air pressure outside the cabin body;

the washing and disinfecting room, the first buffer room, the second buffer room and the third buffer room are arranged on one side of the cabin body, and the reagent preparation area and the transfer window between the sample preparation areas and the amplification and analysis areas are respectively close to the other side of the cabin body.

2. The automated lifting integrated shelter laboratory for nucleic acid detection according to claim 1, wherein the air pressure of said reagent preparation area is higher than the air pressure of said first buffer room and the air pressure of said sample preparation area, respectively, the air pressure of said sample preparation area is lower than the air pressure of said second buffer room, the air pressure of said amplification analysis area is lower than the air pressure of said third buffer room, and the air pressure of said decontamination area is lower than the air pressures of said sample preparation area and said amplification analysis area.

3. The automated nucleic acid testing integrated shelter laboratory of claim 2, wherein the pressure difference between the reagent preparation area and the outside of the shelter is +10 ± 5Pa, the pressure difference between the sample preparation area and the outside of the shelter is-10 ± 5Pa, the pressure difference between the amplification analysis area and the outside of the shelter is-20 ± 5Pa, the pressure difference between the first buffer room and the outside of the shelter is-5 ± 5Pa, the pressure difference between the second buffer room and the outside of the shelter is-5 ± 5Pa, the pressure difference between the third buffer room and the outside of the shelter is-5 ± 5Pa, and the pressure difference between the decontamination room and the outside of the shelter is-30 ± 5 Pa.

4. The automatic lifting integrated shelter laboratory for nucleic acid detection according to claim 1, wherein the first safety doors are respectively arranged on the corresponding shelter bodies of the first buffer room, the second buffer room, the third buffer room and the washing and disinfecting room, and a second safety door is respectively arranged between the first buffer room and the reagent preparation area, between the second buffer room and the sample preparation area, and between the third buffer room and the amplification analysis area;

and a third safety door is also arranged on the cabin body corresponding to the sample preparation area.

5. The automatic lifting integrated shelter laboratory for nucleic acid detection according to claim 1, wherein a fresh air shelter is further arranged at one end of the shelter body close to the amplification and analysis area.

6. The automatic lifting integrated shelter laboratory for nucleic acid detection according to claim 1, wherein four corners of the shelter body are respectively provided with a lifting assembly for assisting the loading and unloading of the shelter body, the lifting assembly comprises a transverse moving frame, a first hydraulic driving member and a second hydraulic driving member, a placing groove is formed in the side portion of the shelter body for placing the transverse moving frame, and the transverse moving frame can be driven by the first hydraulic driving member to have a first state of partially moving to the outside of the placing groove and a second state of completely being in the placing groove;

the lateral shifting frame includes support body and vertical sleeve pipe, and when the lateral shifting frame was in first state, vertical sleeve pipe was arranged in outside the arrangement groove, vertical sleeve pipe includes the outer tube of being connected with the support body and locates the inner tube in the outer tube, the inner tube can be driven in order to go up and down for the outer tube by the second hydraulic drive spare.

7. The automated lifting nucleic acid detection integrated shelter laboratory of claim 6, wherein the vertical sleeve is connected to the outer end of the rack body.

8. The automatic lifting nucleic acid detection integrated shelter laboratory of claim 1, wherein the outer side of the shelter body is further provided with a heat insulation layer.

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