CN215255076U - Inflatable negative-pressure sampling cabin for new coronary pneumonia - Google Patents

Abstract

The utility model provides a new pneumonia sample cabin of canopy of inflatable negative pressure, include: the cabin body comprises an inner cabin body and an outer cabin body, the inner part of the inner cabin body comprises a waiting room, a buffering room and an operating room, and the buffering room is positioned in the operating room and is internally provided with a biological safety cabinet, a refrigerator, a sterilizing pot and a hand washing sink; pressure sensors for monitoring the pressure in the waiting room, the buffering room and the operating room and collecting pressure data are respectively fixed in the waiting room, the buffering room and the operating room, a temperature sensor is arranged on the inner chamber body, and a processor for controlling the temperature sensors adjusts the pressure in the chamber body according to the monitored temperature and pressure data; the support frame of the cabin body comprises a plurality of ventilation pipelines which are used for supporting the cabin body after ventilation. The equipment can be used after being used for landing and inflated, and is small in size and convenient to carry when not inflated, so that the technical problem that a remote area lacking medical equipment and an area requiring a large amount of medical equipment cannot be used for sampling new coronary pneumonia in time to detect nucleic acid is solved.

Description

Inflatable negative-pressure sampling cabin for new coronary pneumonia

Technical Field

The utility model relates to a medical equipment art field especially relates to a new pneumonia sample cabin of guan of inflatable negative pressure.

Background

Actively participating in supporting epidemic prevention and control work, because it is respiratory infectious diseases, in order to prevent large-area infection, the infected person needs to be isolated, and the method of screening the infected person is denucleated acid detection, the nucleic acid detection is a key ring for preventing new coronavirus infection, when the nucleic acid detection is carried out, the new coronavirus sampling needs to be carried out, and the new coronavirus sampling needs certain medical environment and medical equipment, so that the sampling and the detection need to be carried out in a hospital, but the new coronavirus sampling can not be carried out in time for carrying out the nucleic acid detection in areas lacking remote medical equipment and areas needing a large amount of medical equipment, so that the design of a movable nucleic acid detection cabin with high integration level is particularly important.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a new coronary pneumonia sample cabin of inflatable negative pressure solves the area that lacks medical equipment remote area and a large amount of medical equipment demand among the prior art, thereby can not in time carry out the technical problem that new coronary pneumonia sample carried out nucleic acid and detects.

In order to achieve the above object, the utility model provides an inflatable negative pressure new crown pneumonia sample cabin, include: the cabin body is in a negative pressure state when in use, the cabin body comprises an inner cabin body and an outer cabin body, the inner part of the inner cabin body comprises a waiting room, a buffering room and an operating room, and the buffering room is positioned in the operating room and internally provided with a biological safety cabinet, a refrigerator, a sterilization pot and a hand washing basin; pressure sensors for monitoring the pressure in the waiting room, the buffer room and the operation room and collecting pressure data are respectively fixed in the waiting room, the buffer room and the operation room, a temperature sensor is also fixed on the inner chamber body, and a processor for controlling the temperature sensor adjusts the pressure in the chamber body according to the monitored temperature and the pressure data; the supporting frame of the cabin comprises a plurality of ventilation pipelines, and the ventilation pipelines are used for supporting the cabin after being ventilated; the cabin body further comprises a plurality of openable doorways, and the openable doorways are arranged on the layer cavity formed by the inner cabin body and the outer cabin body.

Preferably, the inner cabin body and the outer cabin body are both provided with air ducts.

Preferably, the aeration conduit comprises at least 20 vertical conduits which, in use, are perpendicular to the ground.

Preferably, the vertical pipes are uniformly distributed on the inner and outer cabins.

Preferably, the doorway for the enclosure is provided on the inner and outer enclosures adjacent the ventilation duct.

Preferably, the cabin is a net cloth cabin.

Preferably, the cabin comprises a pure water subsystem and a sewage treatment system.

Preferably, the enclosure comprises an air conditioning system and an exhaust gas treatment system.

Preferably, an audible and visual alarm is further mounted in the cabin body.

Preferably, the pressure data detected in the chamber body is on a liquid crystal display.

Compared with the prior art, the beneficial effects of the utility model are as follows: the sampling cabin adopts an inflation mode, a waiting room, a buffer room and an operation room are arranged in the cabin body, a biological safety cabinet, a refrigerator, a sterilization pot and other sampling equipment and a negative pressure environment are arranged in the operation room, the temperature and the pressure in the cabin body are monitored and adjusted, the internal pressure is ensured to be in a negative pressure state all the time, a complete sampling cabin capable of working independently is formed, the sampling cabin can be moved freely and used after landing and inflating, when the sampling cabin is not inflated, the sampling cabin is small in size and convenient to carry, and for people in remote areas or areas with large sampling requirements, the sampling cabin does not need to be carried out in hospitals, the technical problems that the remote areas lack medical equipment and areas with large quantities of medical equipment requirements cannot be used for sampling new coronary pneumonia in time, and therefore nucleic acid detection can be carried out are solved.

Drawings

Fig. 1 is a schematic view of the overall structure of the inflatable negative pressure new coronary pneumonia sampling cabin.

Reference numerals:

1. waiting room; 11. a stool; 12. a sample sampling window; 2. a buffer room; 21. a rack; 3. an operation room; 31. a pass-through window; 32. washing hands in a sink; 33. sterilizing the pan; 34. a refrigerator; 35. a biological safety cabinet.

Detailed Description

The embodiments described below are only a part of the embodiments of the present invention, and not all of them. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The following embodiment of the present invention relates to an inflatable negative pressure sampling cabin for new coronary pneumonia, and please refer to fig. 1 specifically.

An inflatable negative pressure new crown pneumonia sampling cabin, comprising: the cabin body is in a negative pressure state during use, the cabin body comprises an inner cabin body and an outer cabin body, the inner part of the inner cabin body comprises a waiting room 1, a buffering room 2 and an operating room 3, and the buffering room 2 is positioned in the operating room 3 and is communicated with the operating room 3 through a doorway; a biological safety cabinet 35, a refrigerator 34, a sterilizing pan 33 and a hand washing sink 32 are arranged in the operation room 3; a plurality of pressure sensors are respectively fixed in the waiting room 1, the buffer room 2 and the operating room 3, and are respectively a first pressure sensor, a second pressure sensor and a third pressure sensor, and the first pressure sensor, the second pressure sensor and the third pressure sensor are respectively used for monitoring the pressure in the waiting room 1, the buffer room 2 and the operating room 3 and collecting pressure data, wherein the pressure in the operating room 3 is less than the pressure in the waiting room 1 and the buffer room 2; the inner chamber body is also fixedly provided with a temperature sensor, and a processor for controlling the temperature sensor adjusts the pressure in the chamber body according to the monitored temperature and the monitored pressure data; the supporting frame of the cabin comprises a plurality of ventilation pipelines, and the ventilation pipelines are used for supporting the cabin after being ventilated; the cabin body further comprises a plurality of openable doorways, and the openable doorways are arranged on the layer cavity formed by the inner cabin body and the outer cabin body.

It should be noted that the outer chamber body is provided with a plurality of air inlets and air outlets for filling the layer cavities formed in the outer chamber body and the inner chamber body.

In this embodiment, four stools 11 are arranged in the waiting interval, and a sample sampling window 12 is arranged opposite to the four stools 11; a storage rack 21 is arranged in the buffer area; the operation room 3 is provided with a transfer window 31, and the bed bottom window is opposite to the biological complete cabinet.

It should be noted that, because the cabin body may be placed on an open field, and is irradiated directly by the sun, the temperature of the temperature cabin body may change, thereby affecting the pressure inside the cabin body, bringing the temperature factor into the basis for adjustment of the processor, and comprehensively considering the adjustment amount of the pressure according to the real-time temperature and pressure data, thereby adjusting the pressure inside the cabin body, and making the adjustment of the pressure more meet the requirements of the actual use scene.

Specifically, the inner cabin body and the outer cabin body are all provided with vent pipes, the vent pipes comprise at least 20 vertical pipes, the vertical pipes are perpendicular to the ground when in use, in the embodiment, the vertical pipes are 20, 10 of the vertical pipes are uniformly distributed on the inner cabin body, 10 of the vertical pipes are uniformly distributed on the outer cabin body, the pipes on the inner cabin body and the outer cabin body are distributed on the side faces, close to each other, of the inner cabin body and the outer cabin body, the vertical pipes on the inner cabin body and the outer cabin body are distributed in a staggered mode, so that the vent pipes are more uniformly supported, and the stability of the cabin body is enhanced.

Particularly, the doorway of the cabin body is arranged on the inner cabin body and the outer cabin body which are close to the ventilation pipeline, so that a certain buffering effect can be achieved on the inner cabin body and the outer cabin body, and the inner cabin body and the outer cabin body are not prone to toppling over and are more stable.

Specifically, the cabin body is a net clamping cloth cabin body, the cabin body is formed by processing high-quality net clamping cloth, is airtight and waterproof, isolates air, and can be continuously used in rainy days.

Specifically, the cabin body includes pure water subsystem, sewage treatment system, the cabin body includes air conditioning system and tail gas treatment system, and air conditioning system and tail gas treatment system adopt independent new trend system, tail gas treatment system, accord with biological safety demand, and the air of being in the cabin body is handled the back and is like external emission again, thereby increases the infection area with the source of infection outside the cabin body is taken out to the air when avoiding the air directly to discharge.

Specifically, an audible and visual alarm is further installed in the cabin body of the air conditioning system so as to achieve the functions of fire prevention and theft prevention.

Specifically, the pressure data detected in the cabin body are all on the liquid crystal display, so that a worker can manually monitor the environment in the cabin body according to the data on the display; meanwhile, when the monitored environmental data are obviously not in accordance with actual values, the sensor for detecting the environmental data can be overhauled, for example, when the temperature in the cabin body is detected to be 180 ℃, the sensor is obviously not in accordance with the actual data, and the temperature sensor and the controller thereof can be overhauled.

In the embodiment, the sampling cabin adopts an inflation mode, the waiting room 1, the buffer room 2 and the operating room 3 are arranged in the cabin body, the biological safety cabinet 35, the refrigerator 34, the sterilization pot 33 and other sampling equipment and a negative pressure environment are arranged in the operating room 3, the temperature and the pressure in the cabin body are monitored and adjusted, the internal pressure is ensured to be in a negative pressure state all the time, the pressure forms a complete sampling cabin, the sampling cabin can be moved freely and can be used after landing and inflating, when the sampling cabin is not inflated, the sampling cabin is small in size and convenient to carry, people in remote areas or areas with large sampling requirements do not need to go to a hospital for sampling, and the technical problem that the remote areas lack of medical equipment and the areas with large quantity of medical equipment requirements cannot be timely sampled for nucleic acid detection is solved.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and is not intended to limit the scope of the invention, which is defined by the appended claims.

Claims (9)

1. The utility model provides a new coronary pneumonia of inflatable negative pressure sample cabin which characterized in that includes: the cabin body is in a negative pressure state when in use, the cabin body comprises an inner cabin body and an outer cabin body, the inner part of the inner cabin body comprises a waiting room, a buffering room and an operating room, and the buffering room is positioned in the operating room and internally provided with a biological safety cabinet, a refrigerator, a sterilization pot and a hand washing basin;

pressure sensors for monitoring the pressure in the waiting room, the buffer room and the operation room and collecting pressure data are respectively fixed in the waiting room, the buffer room and the operation room, a temperature sensor is also fixed on the inner chamber body, and a processor for controlling the temperature sensor adjusts the pressure in the chamber body according to the monitored temperature and the pressure data;

the supporting frame of the cabin comprises a plurality of ventilation pipelines, and the ventilation pipelines are used for supporting the cabin after being ventilated;

the cabin body also comprises a plurality of doorway capable of being closed and opened, and the doorway capable of being closed and opened is arranged on a layer cavity formed by the inner cabin body and the outer cabin body;

the cabin body also comprises an air conditioning system and a tail gas treatment system.

2. The inflatable negative pressure neocoronary pneumonia sampling cabin of claim 1, wherein the inner cabin body and the outer cabin body are both provided with vent pipes.

3. The inflatable negative pressure neo-coronary pneumonia sampling capsule of claim 1 or 2, wherein said vent conduit comprises at least 20 vertical conduits, said vertical conduits being in use perpendicular to the ground.

4. The inflatable negative pressure neocoronary pneumonia sampling cabin of claim 3, wherein the vertical pipes are evenly distributed on the inner cabin body and the outer cabin body.

5. The inflatable negative pressure neo-coronary pneumonia sampling capsule of claim 1, wherein the doorway of said capsule is disposed on an inner and outer capsule proximal to said vent conduit.

6. The inflatable negative pressure neocoronary pneumonia sampling cabin of claim 1, wherein the cabin is a mesh fabric cabin.

7. The inflatable negative pressure neo-coronary pneumonia sampling capsule of claim 6, wherein said capsule comprises a pure water subsystem, a sewage treatment system.

8. The inflatable negative pressure new crown pneumonia sampling cabin of claim 1, wherein an audible and visual alarm is further installed in the cabin body.

9. The inflatable negative pressure neo-coronary pneumonia sampling capsule of claim 1, wherein the pressure data detected inside said capsule is on a liquid crystal display.

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