CN217715295U - Intelligent control modular negative pressure isolation ward - Google Patents

Intelligent control modular negative pressure isolation ward Download PDF

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Publication number
CN217715295U
CN217715295U CN202221863618.7U CN202221863618U CN217715295U CN 217715295 U CN217715295 U CN 217715295U CN 202221863618 U CN202221863618 U CN 202221863618U CN 217715295 U CN217715295 U CN 217715295U
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China
Prior art keywords
air
isolation ward
oxygen
ward body
air suction
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CN202221863618.7U
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Chinese (zh)
Inventor
潘奕鹏
黄华强
陈竟超
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Fujian Anden Technology Co ltd
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Fujian Anden Technology Co ltd
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Abstract

The utility model discloses an intelligent control modular negative pressure isolation ward, wherein an isolation ward body comprises an air compressor which is arranged outside the isolation ward body and is provided with an air suction opening for extracting air, a plurality of runners for flowing gas are arranged in the wall body of the isolation ward body, and each runner is provided with an air suction opening extending to the surface of the inner end of the isolation ward body; the isolation ward body also comprises an oxygen machine and an oxygen supply ventilation plate, when the air compressor and the oxygen machine are started to work, air in the isolation ward body and gas exhaled by a patient can be adsorbed into the air compressor by the air exhaust ports which are uniformly distributed on the periphery of the inner end of the isolation ward body and are communicated with the flow channel; the oxygen machine can provide oxygen into the isolation ward body through the oxygen supply pipe, so that the oxygen is discharged outwards along the oxygen supply ventilating plate, and air discharged downwards from the oxygen supply ventilating plate can flow along with the negative pressure adsorption of the air suction port to form air circulation.

Description

Intelligent control modular negative pressure isolation ward
Technical Field
The utility model relates to a field specifically is intelligent control module negative pressure isolation ward.
Background
With the global outbreak of new coronary pneumonia virus, the problem of medical resource shortage is a great problem in people, at present, a collective isolation ward is generally adopted for accommodating patients with new coronary pneumonia, and because new coronary pneumonia can be infected by aerogel, and when air is not circulated, aerogel can float in the air for a long time, before the propagation mode is not found in the early stage, a plurality of cases are propagated by aerogel from channels such as sewer, ventilation pipeline and the like, therefore, a negative pressure isolation ward capable of forming air circulation flow is needed, so that air exhaled by people in the ward can be rapidly pumped away, and harmful germs and viruses can be adsorbed and filtered.
SUMMERY OF THE UTILITY MODEL
The utility model provides a module negative pressure isolation ward is controlled to intelligence, it has overcome the not enough that describe in the background art.
The utility model provides an adopted technical scheme of its technical problem is:
the intelligent control modularized negative pressure isolation ward comprises an isolation ward body, wherein the isolation ward body comprises an air compressor, the air compressor is installed outside the isolation ward body, the air compressor is provided with an air suction opening for extracting air, a plurality of runners for gas to flow are arranged in a wall body of the isolation ward body, and each runner is provided with an air suction opening extending to the surface of the inner end of the isolation ward body; keep apart the ward body and still include oxygen machine and oxygen suppliment ventilative board, the oxygen machine is installed in the isolation ward body outside, the inboard upper end at isolation ward body is installed to the oxygen suppliment ventilative board, the oxygen machine through one support the pipe with the oxygen suppliment ventilative board is linked together.
A preferred technical scheme is as follows: the air exhaust ports are uniformly distributed on the peripheral surface of the inner end of the isolation ward body, and the setting heights of all the air exhaust ports are lower than that of the oxygen supply ventilating plate.
A preferred technical scheme is as follows: the isolation ward body further comprises a communicating pipe, the outline of the communicating pipe corresponds to the outline of the flow channel, and the communicating pipe is installed in the flow channel.
A preferred technical scheme is as follows: the surface of the communicating pipe, which is close to the surface of each air suction opening, is provided with an air suction pipe, the air suction pipes penetrate through the air suction openings and extend outwards, each air suction pipe is communicated with the communicating pipe, and the communicating pipe is communicated with the air suction opening of the air compressor.
Compared with the background technology, the technical scheme has the following advantages:
when the air compressor and the oxygen machine are started to work, air in the isolation ward body and gas exhaled by a patient can be adsorbed into the air compressor by the air exhaust ports which are uniformly distributed on the periphery of the inner end of the isolation ward body and are communicated with the flow channel; the oxygen machine can provide oxygen into the isolation ward body through the oxygen supply pipe, so that the oxygen is discharged outwards along the oxygen supply ventilating plate, and the oxygen supply ventilating plate is arranged on the upper side of the inner end of the isolation ward body and is positioned above the air exhaust opening, so that the air discharged downwards along the oxygen supply ventilating plate can flow along with the negative pressure adsorption of the air exhaust opening, and the circulation of the air is formed.
Drawings
The present invention will be further described with reference to the accompanying drawings and examples.
Fig. 1 is a schematic view of the overall structure of the present invention.
Fig. 2 is a partial sectional view of the present invention.
Fig. 3 is a schematic view of the structural outline of the communication pipe.
In the figure: the isolation ward body 1, an air compressor 11, an oxygen machine 12, a feeding pipe 121, an oxygen supply ventilating plate 13, an air exhaust port 14, a communicating pipe 15, an air exhaust pipe 151 and a controller 16.
Detailed Description
As shown in fig. 1-3, the intelligent control modularized negative pressure isolation ward comprises an isolation ward body 1, and is characterized in that: the isolation ward body 1 comprises an air compressor 11, the air compressor 11 is installed outside the isolation ward body 1, the air compressor 11 is provided with an air suction opening for sucking air, a plurality of flow channels for air to flow are arranged in the wall body of the isolation ward body 1, and each flow channel is provided with an air suction opening 14 extending to the inner end surface of the isolation ward body 1; the isolation ward body 1 further comprises an oxygen machine 12 and an oxygen supply ventilating plate 13, the oxygen machine 12 is installed outside the isolation ward body 1, the oxygen supply ventilating plate 13 is installed at the upper end of the inner side of the isolation ward body 1, the oxygen machine 12 is communicated with the oxygen supply ventilating plate 13 through a supply pipe 121, the air pumping ports 14 are uniformly distributed on the peripheral surface of the inner end of the isolation ward body 1, the setting height of all the air pumping ports 14 is lower than that of the oxygen supply ventilating plate 13, the isolation ward body 1 further comprises a controller 16, when the negative pressure isolation ward is used for isolating a patient, the air compressor 11 and the oxygen machine 12 can be respectively controlled to work through the controller 16, as the air compressor 11 is communicated with a flow passage in the isolation ward body 1, and the oxygen machine 12 is respectively connected with each oxygen supply plate 13 through a supply pipe 121, therefore, when the air compressor 11 and the oxygen machine 12 are both started to work, the air in the isolation ward body 1 and the gas exhaled by the patient can be adsorbed into the air compressor 11 by the air exhaust ports 14 which are uniformly distributed around the inner end of the isolation ward body 1 and are communicated with the flow channel, the air outlet of the air compressor 11 is externally connected with the air purifier for purification, bacteria and germs in the air are adsorbed and purified, the oxygen machine 12 can provide oxygen into the isolation ward body 1 through the oxygen supply pipe 121, so that the oxygen is discharged outwards along the oxygen supply air permeable plate 13, because the oxygen supply air permeable plate 13 is arranged at the upper side of the inner end of the isolation ward body 1 and is positioned above the air exhaust ports 14, the air discharged downwards along the oxygen supply air permeable plate 13 can flow along with the negative pressure adsorption of the air exhaust ports 14, and the circulation of the air is formed, avoid the bacterium in the air and by the long-time stop of aerogel of human exhalation in isolation ward body 1, consequently form isolation ward body 1 solitary air circulation route, and every air compressor machine 11 all external air purifier, consequently can effectually avoid the propagation of bacterium and germ, avoid appearing because of the same set of air cycle device of function in the isolation ward of collective or hotel formula, thereby lead to the virus along with the aerogel in the air inflow air cycle device, cause the problem of collective infection.
A preferred embodiment: the isolation ward body 1 further comprises a communication pipe 15, the outline of the communication pipe 15 corresponds to the outline of the flow passage, and the communication pipe 15 is installed in the flow passage; the surface of the communicating pipe 15 close to the surface of each air suction port 14 is provided with an air suction pipe 151, the air suction pipe 151 penetrates through the air suction ports 14 to extend outwards, each air suction pipe 151 is communicated with the communicating pipe 15, and the communicating pipe 15 is communicated with the air suction port of the air compressor 11, so that negative pressure is generated after the air suction port of the air compressor 11 is communicated with the communicating pipe 15 in use, and air is directly sucked through the air suction pipe 151.
The above description is only a preferred embodiment of the present invention, and therefore the scope of the present invention should not be limited by this description, and all equivalent changes and modifications made within the scope and the specification of the present invention should be covered by the present invention.

Claims (4)

1. Intelligent control modularized negative pressure isolation ward, including isolation ward body (1), its characterized in that: the isolation ward body (1) comprises an air compressor (11), the air compressor (11) is installed outside the isolation ward body (1), the air compressor (11) is provided with an air extraction opening used for extracting air, a plurality of flow channels for air to flow are arranged in the wall body of the isolation ward body (1), and each flow channel is provided with an air extraction opening (14) extending to the inner end surface of the isolation ward body (1);
keep apart ward body (1) still includes oxygen machine (12) and oxygen suppliment air permeable plate (13), install in isolation ward body (1) the outside oxygen machine (12), the inboard upper end at isolation ward body (1) is installed in oxygen suppliment air permeable plate (13), oxygen machine (12) support pipe (121) through one with oxygen suppliment air permeable plate (13) are linked together.
2. The intelligent-control modular negative-pressure isolation ward of claim 1, wherein: the air extraction openings (14) are uniformly distributed on the peripheral surface of the inner end of the isolation ward body (1), and the setting heights of all the air extraction openings (14) are lower than the setting height of the oxygen supply ventilating plate (13).
3. The intelligent-control modular negative-pressure isolation ward of claim 1, wherein: the isolation ward body (1) further comprises a communicating pipe (15), the outline of the communicating pipe (15) corresponds to the outline of the runner, and the communicating pipe (15) is installed in the runner.
4. The intelligent-control modular negative-pressure isolation ward of claim 3, wherein: the surface of the communicating pipe (15) close to the surface of each air suction opening (14) is provided with an air suction pipe (151), the air suction pipes (151) penetrate through the air suction openings (14) to extend outwards, each air suction pipe (151) is communicated with the communicating pipe (15), and the communicating pipe (15) is communicated with the air suction openings of the air compressor (11).
CN202221863618.7U 2022-07-19 2022-07-19 Intelligent control modular negative pressure isolation ward Active CN217715295U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202221863618.7U CN217715295U (en) 2022-07-19 2022-07-19 Intelligent control modular negative pressure isolation ward

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202221863618.7U CN217715295U (en) 2022-07-19 2022-07-19 Intelligent control modular negative pressure isolation ward

Publications (1)

Publication Number Publication Date
CN217715295U true CN217715295U (en) 2022-11-01

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202221863618.7U Active CN217715295U (en) 2022-07-19 2022-07-19 Intelligent control modular negative pressure isolation ward

Country Status (1)

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CN (1) CN217715295U (en)

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