Clinical isolation and protection device for infectious diseases

A protective device and clinical technology, applied in the field of medical protective gear, can solve the problems of inconvenient rescue operations and physiological activities, and achieve the effects of improving efficiency, expanding contact area, and avoiding high energy consumption.

Inactive Publication Date: 2022-07-29
NINGBO WOMEN & CHILDREN HOSPITAL
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] Nowadays, when hospital doctors treat patients with infectious diseases, they usually need to be strictly isolated; especially when infectious diseases have droplets, contact, and aerosol transmission routes, medical staff, patients, and hospital wards often need to be strictly isolated In order to prevent medical staff from being infected by close contact with patients, multiple protective measures need to be taken. Although the effect is relatively obvious, it will bring great inconvenience to medical staff's rescue operations and physiological activities. For the treatment of infectious patients, to reduce the isolation cost and infection risk of such people, and to improve the operation convenience of medical staff, it is necessary to design a clinical isolation and protection device for infectious diseases to solve the above problems

Method used

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  • Clinical isolation and protection device for infectious diseases
  • Clinical isolation and protection device for infectious diseases
  • Clinical isolation and protection device for infectious diseases

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0032] A clinical isolation protection device for infectious diseases, comprising a hospital bed 11 provided with a number of legs, an isolation cover 12, an air intake assembly 3, a feeding assembly 4, a purification mechanism 5 and a number of operating assemblies 6; A sealing groove matched with the bottom surface of the cover 12; a number of operation holes are respectively opened on the peripheral side and the top surface of the isolation cover 12; a number of operation components 6 are fixedly connected in the operation holes; a side surface of the isolation cover 12 is provided with a mounting groove; The air intake assembly 3 is connected; the purification mechanism 5 and the isolation cover 12 are fixedly connected and communicated through the connecting pipe 7; one side of the isolation cover 12 away from the air intake assembly 3 is provided with a door hole; the door hole is provided with a feeding assembly 4.

[0033] To further optimize the scheme, the purificatio...

Embodiment 2

[0051] The only difference between the purification mechanism of this embodiment and the first embodiment is that the isolation cover 12 is of a split design; the isolation cover 12 includes an inner sliding cover 121 and an outer sliding cover 122 ; the bottom surface of the inner sliding cover 121 is fixed with an inner isolation frame 131 and The outer isolation frame 132; the outer sliding cover 122 is covered on the outer wall of the inner sliding cover 121 and is slidably connected with the outer wall of the inner sliding cover 121. The side of the outer sliding cover 122 close to the inner sliding cover 121 is fixed with the sealing frame 14; the sealing frame 14 The inner side is fixed with a melt-blown cloth layer 15; the melt-blown cloth layer 15 is in sliding contact with the outer wall of the inner sliding cover 121; the top surface of the inner sliding cover 121 is fixedly connected with the lifting mechanism (not shown in the drawings); the inner isolation frame 13...

Embodiment 3

[0054] The only difference between the feeding assembly 4 of this embodiment and the first embodiment is that the door panel 41, the rubber strip 42 and the handle are eliminated; the blocking bar 81 is fixed in the door hole; The two end faces of the door frame 82 are fixedly connected with the inner wall of the isolation cover 12; the inner side wall of the door frame 82 is arranged opposite to the blocking bar 81; The plate 88, the door frame 82, the blocking bar 81 and one side wall of the isolation cover 12 form a channel cavity; the channel cavity is provided with a feeding box 83; the feeding box 83 is a hollow cube structure; There are a feeding port 84 and a discharging port 85; the feeding port 84 and the discharging port 85 are connected; Gas leakage; the discharge port 85 is arranged correspondingly to the inner side of the door frame 82 , so that the door frame 82 can completely seal and block the discharge port 85 and prevent the leakage of the gas in the isolati...

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PUM

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Abstract

The invention discloses a clinical isolation and protection device for infectious diseases. The clinical isolation and protection device comprises a sickbed, an isolation cover, an air inlet assembly, a feeding assembly, a purification mechanism and a plurality of operation assemblies. A sealing groove matched with the bottom surface of the isolation cover is formed in the top surface of the sickbed; the peripheral side and the top surface of the isolation cover are fixedly connected with a plurality of operation assemblies respectively; a mounting groove is formed in one side surface of the isolation cover; an air inlet assembly is fixedly connected in the mounting groove; the purification mechanism is fixedly connected and communicated with the isolation hood through a connecting pipe; a door hole is formed in one side of the isolation hood away from the air inlet assembly; and a feeding assembly is arranged in the door hole. According to the invention, the isolation cost and the infection risk of critically ill people can be reduced, and the operation convenience of medical personnel is improved.

Description

technical field [0001] The invention relates to the technical field of medical protective gear, in particular to a clinical isolation protective device for infectious diseases. Background technique [0002] Nowadays, when hospital doctors treat patients with infectious diseases, they usually need to strictly isolate the patients; especially when there are infectious diseases with droplet, contact, and aerosol transmission routes, medical staff, patients, and hospital wards often need to be strictly isolated. In order to prevent medical staff from being infected by close contact with patients, multiple protective measures need to be taken. Although the effect is obvious, it brings great inconvenience to medical staff's rescue operations and physiological activities. For the treatment of infectious patients, to reduce the isolation cost and infection risk of such people, and to improve the operational convenience of medical staff, it is necessary to design a clinical isolation...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61G10/00A61G7/05B01D46/00B01D46/88
CPCA61G10/005A61G7/05B01D46/0028B01D46/88
Inventor 王磊徐亚男宓寅严枫黄科杰
Owner NINGBO WOMEN & CHILDREN HOSPITAL
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