CN109395110B

CN109395110B - Disinfection method of disinfection cabinet

Info

Publication number: CN109395110B
Application number: CN201710702079.6A
Authority: CN
Inventors: 陈明; 杨历; 陈松军; 高丹; 茅忠群; 诸永定; 李斌
Original assignee: Ningbo Fotile Kitchen Ware Co Ltd
Current assignee: Ningbo Fotile Kitchen Ware Co Ltd
Priority date: 2017-08-16
Filing date: 2017-08-16
Publication date: 2023-06-20
Anticipated expiration: 2037-08-16
Also published as: CN109395110A

Abstract

The utility model relates to a disinfection cabinet and a disinfection method, comprising a disinfection cabinet shell (1) and an inner container (2) arranged in the shell (1); the method is characterized in that: a connecting pipeline (3) is arranged between the shell (1) and the liner (2), and a heating device (4) and a fan (8) are arranged in the connecting pipeline (3); the outlet of the connecting pipeline (3) is communicated with the inner cavity (21) of the inner container (2); the outlet of the sprayer (5) is communicated with the connecting pipeline (3); the heating device (4) heats the water mist and/or air in the connecting pipeline (3) to 60-125 ℃, and then the water mist and/or air is sent into the inner cavity (21) by the fan (8).

Description

Disinfection method of disinfection cabinet

Technical Field

The utility model relates to the field of disinfection cabinets, in particular to a disinfection cabinet and a disinfection method.

Background

The sterilizing cabinet is widely applied to the fields of tableware sterilization, medical instrument sterilization and the like in daily life. Common sterilization methods are ozone sterilization, ultraviolet sterilization and steam sterilization.

Wherein ozone disinfection is a biochemical disinfection mode, ozone can oxidize and penetrate cell walls of bacteria, destroy organelles of the bacteria, decompose macromolecular polymers such as DNA, RNA, proteins, lipids, polysaccharides and the like, and inactivate and kill the bacteria; the greater the ozone concentration in the disinfection cabinet, the higher the relative temperature, and the better the disinfection effect; however, when the concentration is too high, the breathing of the person is uncomfortable. Ultraviolet sterilization is to kill microorganisms by ultraviolet rays with the wavelength of 240-260 nm; however, the places where ultraviolet rays cannot be directly irradiated cannot be disinfected, and the ultraviolet rays are easily absorbed and reflected by tableware, so that the single disinfection effect is not good, and therefore, the ultraviolet ray disinfection is usually combined with the ozone disinfection.

Steam sterilization is a physical sterilization method that uses steam generated by a steam generator to sterilize items. Because the penetrability of pure steam is strong, protein and protoplasm colloid are used for denaturation and solidification under the damp-heat condition, an enzyme system is easy to destroy, and the steam enters cells to be condensed into water, so that potential heat can be released to raise the temperature, and the sterilizing power is further enhanced. However, in the conventional steam sterilization method, the steam temperature is generally about 50℃and the sterilization time is long.

CN204582017U discloses a common air pressure high temperature steam sterilizing cabinet, the utility model discloses a common air pressure high temperature steam sterilizing cabinet, comprising a cabinet body, wherein the cabinet body is internally provided with an inner container and a steam generating component respectively, a heating element is arranged in an inner cavity of the inner container, an air inlet is arranged on the inner container at a position corresponding to the heating element, an air outlet of the steam generating component is connected with the air inlet of the inner container through a steam conveying pipe, a fan is also arranged on the cabinet body, an air inlet of the fan is communicated with the inner cavity of the inner container, and an air outlet of the fan is communicated with the atmosphere. The utility model can generate steam at 120 ℃, heat the articles in the sterilizing cabinet, and has good heating effect.

However, the utility model adopts a steam generator, which has high energy consumption and large occupied space.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a disinfection cabinet with low energy consumption, small occupied space and good disinfection effect aiming at the current state of the art.

The utility model aims to solve the other technical problem of providing a disinfection method with low power consumption and good disinfection effect aiming at the current state of the art.

The technical scheme adopted for solving the technical problems is as follows: the disinfection cabinet comprises a disinfection cabinet shell and an inner container arranged in the shell;

the method is characterized in that:

a connecting pipeline is arranged between the shell and the inner container, and a heating device for heating water mist and/or air in the connecting pipeline and a fan for sending the heated water mist and/or air into the inner cavity of the inner container are arranged in the connecting pipeline; the outlet of the connecting pipeline is communicated with the inner cavity of the inner container; the outlet of the sprayer is communicated with the connecting pipeline.

The disinfection method of the disinfection cabinet is characterized by comprising the following steps:

when disinfection is needed, the sprayer works to spray water mist into the connecting pipeline, the heating device works to heat the water mist and/or air in the connecting pipeline to 60-125 ℃, and then the water mist and/or air is sent into the inner cavity by the fan to disinfect articles placed in the inner cavity.

The sprayer in the scheme can be any one of the prior art according to the need, preferably, the sprayer can comprise a water tank and an ultrasonic oscillator arranged in the water tank, an outlet of the water tank is communicated with the connecting pipeline, and a liquid level sensor is arranged in the water tank;

the liquid level sensor, the heating device, the ultrasonic oscillator and the blower fan are all in electric signal connection with a control circuit of the disinfection cabinet.

The heating device in each of the above aspects is preferably a PTC heater. The heating device has good constant temperature effect and good use safety.

As an improvement, a temperature sensor and a humidity sensor can be arranged in the inner cavity;

the humidity sensor and the temperature sensor are electrically connected with a control circuit of the disinfection cabinet.

In order to facilitate the exhaust of the waste gas, an exhaust fan for extracting the gas in the inner cavity and exhausting the gas out of the disinfection cabinet can be arranged between the shell and the inner container.

The disinfection method of the disinfection cabinet in the above schemes is characterized by comprising the following steps:

the control circuit judges the data transmitted by the liquid level meter;

when water exists in the water tank, the control circuit starts the sprayer, the heating device and the fan to work; the sprayer sprays into the connecting pipeline, the heating device heats the water mist and air in the connecting pipeline to 60-90 ℃, and then the water mist and the air are sent into the inner cavity by the fan to disinfect articles placed in the inner cavity;

when the humidity sensor detects that the humidity in the inner cavity reaches RH100, the control circuit turns off the sprayer; when the humidity in the inner cavity is smaller than RH90, the control circuit starts the sprayer to work;

when the temperature sensor detects that the temperature in the inner cavity is higher than 90 ℃, the control circuit turns off the heating device; when the temperature in the inner cavity is lower than 60 ℃, the control circuit starts the heating device to work;

the temperature of the inner cavity is constant at 60-90 ℃ and the humidity is constant at RH 90-RH 100 for a period of time, thus completing the disinfection task;

when the liquid level meter detects that no water exists in the water tank, the control circuit starts the heating device and the fan to work, and air in the connecting pipeline is heated to 115-125 ℃ and then enters the inner cavity to disinfect articles in the inner cavity;

when the temperature sensor detects that the temperature in the inner cavity is higher than 125 ℃, the control circuit turns off the heating device; when the temperature in the inner cavity is lower than 115 ℃, the control circuit starts the heating device to work;

the temperature in the inner cavity is kept constant at 115-125 ℃ for 30 minutes, so that the disinfection task is completed;

after the disinfection task is completed, the control circuit turns off the heating device and starts the exhaust fan to work;

when the temperature sensor detects that the temperature of the inner cavity is less than or equal to 50 ℃ and the humidity is less than or equal to RH20, the control circuit stops the fan and the exhaust fan.

When water in the water tank is detected, the heating device heats the water mist and air in the connecting pipeline to 62-65 ℃;

the temperature in the inner cavity is constant at 62-65 ℃ and the constant temperature time is 25-35 minutes.

When water in the water tank is detected, the heating device heats the water mist and air in the connecting pipeline to 75-90 ℃;

the temperature in the inner cavity is constant at 75-90 ℃ and the constant temperature time is 10-30 seconds.

Compared with the prior art, the disinfection cabinet and the disinfection method provided by the utility model can be selected from wet disinfection or dry disinfection according to actual conditions; the wet disinfection is adopted, the water mist is heated into steam with the temperature of 60-90 ℃, the heating speed is high, the energy consumption is low, and the steam or the superheated steam is a wet heat disinfection, so that the disinfection effect is good; the dry method is adopted for sterilization, the air is heated first, the heated air enters the cavity to sterilize the articles, the energy saving and consumption reduction effects are good, no dead angle exists in sterilization, and the drying temperature is more uniform.

Drawings

Fig. 1 is a perspective view showing an assembled structure (with a top plate opened) of embodiment 1 of the present utility model;

FIG. 2 is a longitudinal cross-sectional view of FIG. 1;

fig. 3 is a top view of fig. 1.

Detailed Description

The utility model is described in further detail below with reference to the embodiments of the drawings.

Example 1

As shown in fig. 1 to 3, the sterilizer comprises:

the shell 1 is a shell of the disinfection cabinet;

the inner container 2 is arranged in the shell 1, and an inner cavity 21 of the inner container 2 is a disinfection place; a temperature sensor (not shown) and a humidity sensor (not shown) are provided in the inner chamber 21.

A discharge fan 9 for extracting the gas in the inner cavity 21 and discharging the gas out of the disinfection cabinet is arranged between the shell 1 and the liner 2. The discharge fan 9 in this embodiment is a centrifugal fan.

The connecting pipeline 3 is arranged in the cavity between the shell 1 and the liner 2, and two ports of the connecting pipeline are communicated with the inner cavity 21; a heating device 4 is arranged in the connecting pipeline 3 near the outlet, the heating device in the embodiment is a PTC heater, and a fan 8 is also arranged in the connecting pipeline 3; the outlet of the connecting pipeline 3 is communicated with the inner cavity 21 of the inner container 2.

A sprayer 5 for converting water into droplets and spraying into the connection pipe 3; the ultrasonic device comprises a water tank 51 and an ultrasonic oscillator 52 arranged in the water tank 51, wherein an outlet of the water tank 51 is communicated with a connecting pipeline 3, and a liquid level sensor for detecting the water level in the water tank 51 is arranged in the water tank 51.

The liquid level sensor, the heating device 4, the ultrasonic oscillator 52, the fan 8, the discharge fan 9, the humidity sensor and the temperature sensor are all in electric signal connection with a control circuit of the disinfection cabinet.

The disinfection method of the disinfection cabinet comprises the following steps:

firstly, the control circuit judges the data transmitted by the liquid level meter;

when water in the water tank 51 is detected, the control circuit starts the sprayer 5, the heating device 4 and the fan to work; the sprayer sprays into the connecting pipeline, the heating device 4 heats the water mist and air in the connecting pipeline 3 to a set temperature, the temperature is 75-90 ℃ in the embodiment, and then the water mist and air are sent into the inner cavity 21 by the fan 8 to disinfect articles placed in the inner cavity;

when the humidity sensor detects that the humidity in the inner cavity 21 reaches RH100, the control circuit turns off the sprayer 5; when the humidity in the inner cavity 21 is smaller than RH90, the control circuit starts the sprayer 5 to work;

when the temperature sensor detects that the temperature in the inner cavity is higher than 90 ℃, the control circuit turns off the heating device 4; when the temperature in the inner cavity 21 is lower than 75 ℃, the control circuit starts the heating device to work;

the temperature of the inner cavity 21 is kept constant at 75-90 ℃ and the humidity is kept constant at RH 90-RH for 10015-20 seconds, thus completing the disinfection task.

When the liquid level meter detects that no water exists in the water tank, the control circuit starts the heating device 4 and the fan 8 to work, heats the air in the connecting pipeline to 115-125 ℃ and then enters the inner cavity 21 to disinfect articles in the inner cavity;

when the temperature sensor detects that the temperature in the inner cavity is higher than 125 ℃, the control circuit turns off the heating device 4; when the temperature in the inner cavity 21 is lower than 115 ℃, the control circuit starts the heating device 4 to work;

the temperature in the inner cavity 21 is kept constant at 115-125 ℃ for 30 minutes, and the disinfection task is completed.

when the temperature sensor detects that the temperature of the inner cavity is less than or equal to 50 ℃ and the humidity is less than or equal to RH20, the control circuit stops the fan 8 and the exhaust fan 9.

Example 2

When water in the water tank 51 is detected, the control circuit starts the sprayer 5, the heating device 4 and the fan to work; the sprayer sprays into the connecting pipeline, the heating device 4 heats the water mist and air in the connecting pipeline 3 to 62-65 ℃, and then the water mist and air are sent into the inner cavity 21 by the fan 8 to disinfect articles placed in the inner cavity;

when the temperature sensor detects that the temperature in the inner cavity is higher than 65 ℃, the control circuit turns off the heating device 4; when the temperature in the inner cavity 21 is lower than 62 ℃, the control circuit starts the heating device to work;

the temperature of the inner cavity 21 is constant at 62-65 ℃ and the humidity is constant at 90-100 RH for 25-35 minutes, thus completing the disinfection task.

The remainder was the same as in example 1.

Claims

1. A disinfection method of a disinfection cabinet comprises a disinfection cabinet shell (1) and an inner container (2) arranged in the shell (1);

the method is characterized in that:

a connecting pipeline (3) is arranged between the shell (1) and the inner container (2), and a heating device (4) for heating water mist and/or air in the connecting pipeline (3) and a fan (8) for sending the heated water mist and/or air into an inner cavity (21) of the inner container (2) are arranged in the connecting pipeline (3); the outlet of the connecting pipeline (3) is communicated with the inner cavity (21) of the inner container (2);

the outlet of the sprayer (5) is communicated with the connecting pipeline (3); the sprayer (5) comprises a water tank (51) and an ultrasonic oscillator (52) arranged in the water tank (51), an outlet of the water tank (51) is communicated with the connecting pipeline (3), and a liquid level sensor is arranged in the water tank (51);

the liquid level sensor, the heating device (4), the ultrasonic oscillator (52) and the fan (8) are all in electric signal connection with a control circuit of the disinfection cabinet;

the control circuit judges the data transmitted by the liquid level sensor;

when water exists in the water tank (51), the control circuit starts the sprayer (5), the heating device (4) and the fan to work; the sprayer sprays into the connecting pipeline, the heating device (4) heats the water mist and air in the connecting pipeline (3) to 60-90 ℃, and then the water mist and the air are sent into the inner cavity (21) by the fan (8) to disinfect articles placed in the inner cavity;

when the liquid level sensor detects that no water exists in the water tank, the control circuit starts the heating device (4) and the fan (8) to work, and air in the connecting pipeline is heated to 115-125 ℃ and then enters the inner cavity (21) to disinfect articles in the inner cavity.

2. A disinfection method of a disinfection cabinet according to claim 1, characterized in that said heating means (4) is a PTC heater.

3. A disinfection method as claimed in any one of claims 1 or 2, and wherein a temperature sensor and a humidity sensor are provided in said inner chamber (21);

4. A disinfection method of a disinfection cabinet according to claim 3, characterized in that a discharge fan (9) for extracting the gas in the inner cavity (21) and discharging it outside the disinfection cabinet is arranged between the housing (1) and the inner container (2).

5. A disinfection method using a disinfection cabinet as claimed in claim 4, comprising the steps of:

when the water tank (51) is filled with water, and the humidity sensor detects that the humidity in the inner cavity (21) reaches RH100, the control circuit turns off the sprayer (5); when the humidity in the inner cavity (21) is smaller than RH90, the control circuit starts the sprayer (5) to work;

when the temperature sensor detects that the temperature in the inner cavity is higher than 90 ℃, the control circuit turns off the heating device (4); when the temperature in the inner cavity (21) is lower than 60 ℃, the control circuit starts the heating device to work;

the temperature of the inner cavity (21) is constant at 60-90 ℃ and the humidity is constant at RH 90-RH 100 for a period of time, thus completing the disinfection task;

when the liquid level sensor detects that no water exists in the water tank, and when the temperature sensor detects that the temperature in the inner cavity is higher than 125 ℃, the control circuit turns off the heating device (4); when the temperature in the inner cavity (21) is lower than 115 ℃, the control circuit starts the heating device (4) to work;

the temperature in the inner cavity (21) is kept constant at 115-125 ℃ for 25-35 minutes, so that the disinfection task is completed;

after the disinfection task is completed, the control circuit turns off the heating device (4) and starts the discharge fan to work;

when the temperature sensor detects that the temperature of the inner cavity is less than or equal to 50 ℃ and the humidity is less than or equal to RH20, the control circuit stops the fan (8) and the discharge fan (9).

6. The disinfection method as claimed in claim 5, characterized in that when water is detected in said tank (51), said heating means (4) heat the mist and air in said connection duct (3) to 62-65 ℃;

the temperature in the inner cavity (21) is constant at 62-65 ℃ and the constant temperature time is 25-35 minutes.

7. The disinfection method as claimed in claim 5, characterized in that when water is detected in said tank (51), said heating means (4) heat the mist and air in said connecting duct (3) to 75-90 ℃;

the temperature in the inner cavity (21) is constant at 75-90 ℃ and the constant temperature time is 10-30 seconds.