CN-224220452-U - Multi-mode sterilization-based full-flow intelligent processor for tracheotomy sleeve

Abstract

The utility model discloses a multi-mode sterilization-based full-flow intelligent processor for a tracheotomy sleeve, which comprises a machine shell, wherein a soaking cabin, a boiling cabin and a drying cabin are sequentially arranged in the machine shell from top to bottom, a control panel and a power switch are arranged at the top of the machine shell, the soaking cabin is provided with a first cabin door and a first liquid inlet, a stirring device, a concentration sensor and an automatic liquid supplementing device are arranged in the soaking cabin, the boiling cabin is provided with a second cabin door and a second liquid inlet, a heating disc is arranged in the boiling cabin, one side of the boiling cabin is connected with a micro vacuum pump, the drying cabin is provided with a third cabin door and a first liquid outlet, a hot air nozzle is arranged in the drying cabin, and the hot air nozzle is connected with a blower positioned at one side of the drying cabin. The utility model breaks through the technical limitation of the traditional single sterilization mode by constructing a three-dimensional action mechanism of chemical decomposition, physical inactivation and mechanical stripping, adopts a three-cabin integrated structure, can realize quick sterilization, and greatly improves the cleaning efficiency of the lumen of the tracheostomy tube.

Inventors

• ZENG MIN
• Ye Chengling
• QU CHENGLIN
• WANG SHIHUI

Assignees

• 复旦大学附属肿瘤医院

Dates

Publication Date

20260512

Application Date

20250416

Claims (6)

1. 1. The utility model provides a full flow intelligent processor of tracheotomy sleeve based on multi-mode sterilization, its characterized in that, including the casing, from top to bottom has arranged in proper order in the casing and has soaked cabin, boiling cabin and dry cabin, the top of casing is equipped with control panel and switch, it has first hatch door and first inlet to soak the cabin, dispose agitating unit, concentration sensor and automatic fluid infusion ware in the soaking cabin, the boiling cabin has second hatch door and second inlet, the boiling inboard disposes the heating plate, one side of boiling cabin is connected with the micro vacuum pump, the dry cabin has third hatch door and first outlet, be provided with the hot blast nozzle in the dry cabin, the hot blast nozzle is connected and is located the air-blower of dry cabin one side.
2. 2. The multi-mode sterilization-based tracheostomy tube full-flow intelligent processor according to claim 1, wherein the stirring device is a physical stirring blade or a magnetic stirrer, and the automatic fluid infusion device is an electromagnetic valve arranged at the first fluid inlet.
3. 3. The multi-modal sterilization-based tracheostomy tube full-flow intelligent processor as set forth in claim 1, wherein the soaking compartment, the boiling compartment and the drying compartment are each provided with lumen-adapting brackets.
4. 4. The multi-modal sterilization-based tracheostomy tube full-flow intelligent processor as recited in claim 3, wherein a HEPA filter screen is configured between the lumen adapter bracket in the dry cabin and the hot air nozzle.
5. 5. The multi-modal sterilization-based tracheostomy tube full-flow intelligent processor of claim 1, wherein the soaking compartment, the boiling compartment, and the drying compartment are each configured with an ultraviolet self-cleaner.
6. 6. The multi-modal sterilization-based tracheostomy tube full-flow intelligent processor as set forth in claim 1 wherein the boiling compartment is configured with a second outlet and an emergency drainage system employing a dual-loop power pump.

Description

Multi-mode sterilization-based full-flow intelligent processor for tracheotomy sleeve Technical Field The utility model belongs to the technical field of tracheotomy tube sterilization, and particularly relates to a full-flow intelligent processor for a tracheotomy tube based on multi-mode sterilization. Background The tracheotomy tube is used as a core medical appliance for maintaining the smooth airway of critical patients, the sterilization quality of the tracheotomy tube directly influences the incidence rate of respiratory tract infection, and the traditional sterilization mode of manual cleaning and open boiling is generally adopted in the clinic at present, so that the problems of incomplete sterilization, long time consumption, biomembrane residue and the like exist. According to statistics, the relevant infection rate of the domestic three-stage hospital tracheotomy is as high as 12-18%, wherein nearly four cases are not thoroughly and directly related to sleeve disinfection, and the severe reality that the traditional disinfection technology is difficult to meet the modern hospital infection prevention and control requirements is exposed. In the prior art, metal sleeve disinfection faces multiple technical elbow pulling, firstly, a pretreatment link depends on manual scrubbing, effective cleaning is difficult to achieve for sleeves with inner diameters smaller than or equal to 6mm, residual protein secretion easily forms a biological film protection layer, the permeation efficiency of a subsequent sterilizing agent is reduced by more than 60%, secondly, the conventional boiling equipment generally has the problems of large temperature fluctuation (+/-3-5 ℃) and steam escape, the conventional boiling equipment cannot achieve the standard of maintaining the constant temperature of 98 ℃ required by the disinfection technical specification for 15 minutes, the heat-resistant pathogen inactivation effect is poor, thirdly, a natural airing mode is adopted in the drying link, gram-negative bacilli are easily bred in a wet pipe cavity, the secondary pollution risk of medical instruments which are not sufficiently dried is improved by 3.2 times by American CDC research, fourthly, the emergency rescue scene lacks a rapid sterilization scheme, the conventional high-pressure steam equipment easily causes the material fatigue of the metal sleeve due to the overhigh temperature (more than or equal to 134 ℃), the treatment period is longer than 45 minutes, and the clinical instant multiplexing requirement is difficult to be satisfied. Disclosure of utility model In view of the above, the utility model aims to provide a multi-mode sterilization-based full-flow intelligent processor for tracheostomy tubes, which solves the defects in the prior art. In order to achieve the above purpose, the utility model is realized by the following technical scheme: The utility model provides a full flow intelligent processor of tracheotomy sleeve based on multi-mode sterilization, wherein, including the casing, from top to bottom has arranged in proper order in the casing and has soaked cabin, boiling cabin and dry cabin, the top of casing is equipped with control panel and switch, it has first hatch door and first inlet to soak the cabin, dispose agitating unit, concentration sensor and automatic fluid infusion ware in the soaking cabin, the boiling cabin has second hatch door and second inlet, the boiling inboard disposes the heating plate, one side of boiling cabin is connected with the micro vacuum pump, the dry cabin has third hatch door and first outlet, be provided with the hot blast nozzle in the dry cabin, the hot blast nozzle is connected and is located the air-blower of dry cabin one side. The multi-mode sterilization-based full-flow intelligent processor for the tracheostomy tube, wherein the stirring device is a physical stirring blade or a magnetic stirrer, and the automatic fluid infusion device is an electromagnetic valve arranged at the first fluid inlet. The multi-mode sterilization-based full-flow intelligent tracheostomy tube processor, wherein the soaking cabin, the boiling cabin and the drying cabin are all provided with lumen adapting brackets. The multi-mode sterilization-based full-flow intelligent tracheostomy tube processor, wherein a HEPA filter screen is arranged between a lumen adapting support in the drying cabin and the hot air nozzle. The multi-mode sterilization-based tracheostomy tube full-flow intelligent processor, wherein the soaking cabin, the boiling cabin and the drying cabin are all provided with ultraviolet self-cleaners. The multi-mode sterilization-based tracheostomy tube full-flow intelligent processor, wherein the boiling cabin is provided with a second liquid outlet and an emergency drainage system, and the emergency drainage system adopts a double-loop power pump. The technical scheme of the utility model has the beneficial effects that: By constructing a three-dimensional action m