CN216963106U - Soft scope sterilization system - Google Patents

Abstract

The utility model discloses a soft endoscope sterilization system, which comprises: the multilayer disinfection box storage rack is used for simultaneously storing a plurality of soft endoscope disinfection boxes; the hydrogen peroxide atomization chamber is connected with each disinfection box arranged on the multilayer disinfection box shelf and is used for generating hydrogen peroxide gas after atomization based on hydrogen peroxide liquid so as to sterilize the endoscope surface and/or the endoscope pipeline of the soft endoscope in each disinfection box by using the hydrogen peroxide gas; and the hydrogen peroxide decomposition system is connected with the hydrogen peroxide atomization chamber, and outputs the hydrogen peroxide gas to the sterilization system after being decomposed by the hydrogen peroxide decomposition system through each disinfection box. According to the soft endoscope sterilization system, the special soft endoscope sterilization boxes can be placed in the sterilization system, so that the soft endoscope sterilization boxes can be independently sterilized at the same time, hydrogen peroxide is adopted for sterilization, no harmful residue exists, and the consumption of hydrogen peroxide is greatly reduced due to relative immersion sterilization.

Description

Soft scope sterilization system

Technical Field

The utility model relates to the technical field of soft endoscope sterilization, in particular to a soft endoscope sterilization system.

Background

The soft endoscope is used as an extension of eyes and hands of doctors, and the modern endoscope not only can carry out accurate diagnosis, but also can carry out under-lens minimally invasive treatment and minimally invasive surgery, and is particularly widely applied to the digestive soft endoscope. Along with the higher and higher utilization rate of the soft endoscope, the disinfection requirement on the soft endoscope is more and more urgent, and the requirement on the disinfection efficiency is higher and higher. In addition, the unevenness of the surface of the endoscope pipeline directly causes the formation of bacterial biofilm, which causes great difficulty in the disinfection of the soft endoscope.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention provides a soft endoscope sterilization system that overcomes or at least partially solves the above problems, comprising:

the multi-layer disinfection box shelf is used for simultaneously storing a plurality of soft endoscope disinfection boxes;

the hydrogen peroxide atomization chamber is connected with each disinfection box arranged on the multilayer disinfection box shelf and is used for generating hydrogen peroxide gas after atomization based on hydrogen peroxide liquid so as to sterilize the endoscope surface and/or the endoscope pipeline of the soft endoscope in each disinfection box by using the hydrogen peroxide gas;

and the hydrogen peroxide decomposition system is connected with the hydrogen peroxide atomization chamber, and outputs the hydrogen peroxide gas to the sterilization system after being decomposed by the hydrogen peroxide decomposition system through each disinfection box.

Optionally, a micro compressed air pump is arranged between each sterilizing box and the hydrogen peroxide atomizing chamber, and a first control valve is arranged between the micro compressed air pump and the hydrogen peroxide atomizing chamber and used for controlling the hydrogen peroxide gas to control the hydrogen peroxide gas to be input or stop being input into the sterilizing box.

Optionally, the sterilization system further includes an air filtration system disposed at an air inlet of the sterilization system and communicated with each of the sterilization boxes.

Optionally, the air filtration system is connected to the micro compressed air pumps correspondingly arranged in the disinfection boxes, and a second control valve is arranged on a connecting pipeline between the air filtration system and the micro compressed air pumps, and is used for controlling the input or stop of the purified air to the disinfection boxes.

Optionally, a first air inlet valve is arranged between the micro compressed air pump and the sterilizing box and used for controlling the hydrogen peroxide gas to be input or stopping inputting the hydrogen peroxide gas into the inner cavity of the sterilizing box;

and a second air inlet valve is arranged between the miniature compressed air pump and the disinfection box and is used for controlling the hydrogen peroxide gas to be input or stop being input into an endoscope pipeline of the soft endoscope in the disinfection box.

Optionally, the sterilization system further includes a heating air chamber, which is communicated with the hydrogen peroxide atomization chamber and is disposed between the hydrogen peroxide atomization chamber and the first control valve, and the heating air chamber is used for heating the hydrogen peroxide gas flowing to each sterilization box.

Optionally, a heating thermostat is arranged in the soft endoscope disinfection box, so that the inside of the soft endoscope disinfection box is kept at a constant temperature.

Optionally, a micro vacuum air pump is arranged between each sterilizing box and the hydrogen peroxide decomposition system;

a first exhaust valve is arranged between the micro vacuum air pump and the disinfection box and used for controlling the output of the hydrogen peroxide gas or stopping the output and input of the hydrogen peroxide gas into the internal cavity of the disinfection box;

and a second exhaust valve is arranged between the micro vacuum air pump and the disinfection box and is used for controlling the output or stopping the output and the input of the hydrogen peroxide gas into an endoscope pipeline of the soft endoscope in the disinfection box.

Optionally, the endoscope pipeline of the soft endoscope in the disinfection box comprises a water injection pipeline, a gas injection pipeline, a biopsy pipeline and a suction pipeline.

Optionally, the internal cavity of the disinfection box is externally connected with a pressure sensor, and the pressure sensor and the connecting pipeline of the disinfection box are provided with a sensor valve for assisting in performing leakage detection on the disinfection box.

The soft endoscope sterilization system can be internally provided with a plurality of special soft endoscope sterilization boxes to simultaneously and independently sterilize the soft endoscope sterilization boxes, adopts hydrogen peroxide gas for sterilization, has no harmful residues, is relatively immersed for sterilization, greatly reduces the consumption of hydrogen peroxide, and can not be influenced by other sterilization boxes in the sterilization and sterilization process of each sterilization box. In addition, the soft endoscope sterilization system of the embodiment utilizes hydrogen peroxide gas to carry out high-level disinfection on the surface of the endoscope pipeline and the outer surface of the endoscope, and preserves the disinfected endoscope, thereby avoiding secondary pollution. Through putting into soft scope disinfection box with soft scope, both disinfection convenient and fast, the transport of being convenient for again, great improvement the cyclic utilization rate of scope.

The foregoing description is only an overview of the technical solutions of the present invention, and the embodiments of the present invention are described below in order to make the technical means of the present invention more clearly understood and to make the above and other objects, features, and advantages of the present invention more clearly understandable.

The above and other objects, advantages and features of the present invention will become more apparent to those skilled in the art from the following detailed description of specific embodiments thereof, taken in conjunction with the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model. In the drawings:

FIG. 1 is a schematic diagram of a soft endoscope sterilization system according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of a flexible endoscope according to another embodiment of the present invention;

FIG. 3 is a schematic view showing the construction of a soft endoscope sterilizing case according to an embodiment of the present invention;

figure 4 is a schematic structural view of a flexible endoscope according to an embodiment of the present invention;

the system comprises a hydrogen peroxide atomization chamber, a first control valve, a multi-layer disinfection box shelf, a soft endoscope disinfection box, a hydrogen peroxide decomposition system, a miniature compressed air pump, a first air inlet valve, a second air inlet valve, a heating air chamber, a vacuum air pump, a first exhaust valve, a second exhaust valve, a pressure sensor, an air filtration system and a second control valve, wherein the hydrogen peroxide atomization chamber is 10, the first control valve is 11, the multi-layer disinfection box shelf is 20, the soft endoscope disinfection box is 21, the hydrogen peroxide decomposition system is 30, the miniature compressed air pump is 40, the first air inlet valve is 41, the second air inlet valve is 42, the heating air chamber is 50, the miniature vacuum air pump is 60, the first exhaust valve is 61, the second exhaust valve is 62, the pressure sensor is 70, the pressure sensor is 71, the pressure sensor valve is 80, and the second control valve is 81.

Detailed Description

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used merely for convenience of description and simplification of the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Fig. 1 is a schematic structural diagram of a soft endoscope sterilization system according to an embodiment of the present invention, and as shown in fig. 1, the soft endoscope sterilization system according to the embodiment may include a hydrogen peroxide atomization chamber 10, a multi-layered sterilization box shelf 20, and a hydrogen peroxide decomposition system 30. Wherein, the multi-layer disinfection box shelf 20 is used for simultaneously storing a plurality of soft endoscope disinfection boxes (disinfection boxes for short) 21. The hydrogen peroxide atomization chamber 10 is connected with the sterilization boxes 21 arranged on the multi-layer sterilization box shelf 20, and is used for generating hydrogen peroxide gas after atomization is performed on the basis of hydrogen peroxide liquid, so that the hydrogen peroxide gas is used for sterilizing the endoscope surface and/or the endoscope pipeline of the soft endoscope in each sterilization box 21. And a hydrogen peroxide decomposition system 30 connected to the hydrogen peroxide atomization chamber, and outputting the hydrogen peroxide gas to the sterilization system after being decomposed by the hydrogen peroxide decomposition system 30 via each of the sterilizing cassettes 21.

Inside a plurality of special soft endoscope disinfection boxes 21 of placing of soft endoscope sterilization system of this embodiment to disinfect alone a plurality of soft endoscope disinfection boxes 21 simultaneously, adopt hydrogen peroxide gas body disinfection, no harmful residue, relative submergence is disinfected simultaneously, hydrogen peroxide consumption significantly reduces, and carry out the sterile in-process of disinfecting at each disinfection box 21, can not receive the influence of other disinfection boxes 21. In addition, this embodiment disinfection box 21 has an internal cavity, soft scope can set up in internal cavity, and each scope pipeline of soft scope can also connect the disinfection box, therefore, the soft scope sterilization system of this embodiment utilizes hydrogen peroxide gas to input when disinfecting the internal cavity of box 21, can disinfect the surface of soft scope, through with hydrogen peroxide gas input soft scope's scope pipeline after, can carry out high level disinfection to the endoscope pipeline, and preserve the scope after the disinfection, avoid its secondary pollution. Through putting into soft scope disinfection box 21 with soft scope in, both disinfect convenient and fast, be convenient for transport again, great improvement the cyclic utilization rate of scope. The sterilization system of this embodiment can utilize the orderly coordination cooperation between each cavity and each valve according to self internal frame framework, can carry out three operating function of malleation air blowing, negative pressure suction and blow/bleed circulation to the internal cavity of each soft scope disinfection box 21 and the scope pipeline of soft scope.

It should be noted that the soft endoscope placed in the soft endoscope sterilizing case 21 is cleaned and dried, as shown in fig. 2 and 3, the endoscope channels of the soft endoscope may include a water injection channel, a gas injection channel, a biopsy channel, and a suction channel. Fig. 2 shows a schematic diagram of a biopsy pipeline and an aspiration pipeline in the soft endoscope, and fig. 3 shows a schematic diagram of switching between an injection pipeline and an injection pipeline in the soft endoscope. After the cleaned and dried soft endoscope is placed into the special soft endoscope disinfection box 21, the connection between each pipeline of the endoscope and the inside of the endoscope disinfection box 21 is as shown in fig. 4.

In the sterilization system of this embodiment, when the hydrogen peroxide atomization chamber can be connected to each soft endoscope sterilization box 21 through a quick-insertion loose-joint plug, optionally, a soft lens external loose joint for connecting an internal cavity of the sterilization box 21 is provided on the sterilization box 21, that is, a female head of the quick-insertion loose-joint plug, the hydrogen peroxide atomization chamber has a connection pipeline, the connection pipeline has a male head of the quick-insertion loose-joint plug, and when the male head and the female head are connected together, the connection pipeline of the hydrogen peroxide atomization chamber is connected to the internal cavity of the sterilization box 21; when the male head and the female head are disconnected, the pipeline is blocked, optionally, a layer of filter membrane is arranged in the female head end, and bacteria, viruses and the like with the outer diameter can be prevented from entering the disinfection box 21, so that secondary pollution caused by the endoscope is prevented. In a similar way, the soft lens inside that is provided with on the disinfection box 21 and is used for connecting the soft lens pipeline is inserted alive, and gas is female equally, and hydrogen peroxide atomizer chamber can be through another connecting line that has public head to realize hydrogen peroxide atomizer chamber 10 and the connection of the scope pipeline of soft scope. Each sterilization case 21 in this embodiment is connected in the same manner.

As shown in fig. 1, a micro compressed air pump 40 is disposed between each sterilizing box 21 and the hydrogen peroxide atomizing chamber 10, and a first control valve 11 is disposed between the micro compressed air pump 40 and the hydrogen peroxide atomizing chamber 10, and is used for controlling the hydrogen peroxide gas to control the hydrogen peroxide gas to be input into the sterilizing box 21 or stop inputting the hydrogen peroxide gas into the sterilizing box. That is, only when the control valve 11 is opened, the hydrogen peroxide gas generated in the hydrogen peroxide atomization chamber 10 can be supplied to the sterilization case 21.

A first air inlet valve 41 is arranged between the miniature compressed air pump 40 and the sterilizing box 21 and is used for controlling the input of the hydrogen peroxide gas or stopping the input of the hydrogen peroxide gas into the inner cavity of the sterilizing box 21; a second air inlet valve 42 is arranged between the micro compressed air pump 40 and the sterilizing box 21 and is used for controlling the hydrogen peroxide gas to be input or stopping inputting the hydrogen peroxide gas into an endoscope pipeline of the soft endoscope in the sterilizing box 21.

The diameter of the biopsy pipeline and the suction pipeline of the soft endoscope is 3mm to 5mm or even smaller, the diameter of the water injection pipeline and the gas injection pipeline is 1/15 of the biopsy/gas suction pipeline, hydrogen peroxide gas is injected into the endoscope pipeline only by positive pressure, the disinfection inside the pipeline is incomplete, the hydrogen peroxide gas is pumped into the endoscope pipeline by negative pressure, and the endoscope pipeline can be thoroughly disinfected: the air inlet of the machine pressurizes the hydrogen peroxide gas through the miniature compression air pump 40, and then the air outlet forms certain vacuum through the miniature vacuum air pump 60, so that the hydrogen peroxide gas can sufficiently disinfect the tail end of a pipeline.

Optionally, the sterilization system further includes a heating air chamber 50, which is communicated with the hydrogen peroxide atomization chamber 10 and is disposed between the hydrogen peroxide atomization chamber 10 and the first control valve 11, wherein the heating air chamber 50 is used for heating the hydrogen peroxide gas flowing to each of the sterilization cases 21. The hydrogen peroxide liquid forms hydrogen peroxide aerial fog less than 5 mu m in the hydrogen peroxide atomizer chamber 10, through compressed gas pump sending to soft scope disinfection box 21 and scope pipeline, designs the heating chamber simultaneously between the connecting line of hydrogen peroxide atomizer chamber 10 and soft scope disinfection box 21, heats hydrogen peroxide aerial fog in advance, prevents that condensate water in the pipeline from getting into disinfection box 21. In practical application, the heating air chamber 50 can be started in advance to heat the pipeline, the heating air chamber 50 can be started in the process of sterilizing the soft endoscope through preheating for a certain time, the temperature of the soft endoscope is kept between 40 and 50 degrees, and the condition of hydrogen peroxide gas condensing in the pipeline of the endoscope is greatly reduced, so that the corrosion to the inner wall of the pipeline is reduced, and the service life of the soft endoscope is prolonged.

In addition, a heating and thermostatic device is arranged inside the soft endoscope sterilizing box 21 of the embodiment, so that the inside of the soft endoscope sterilizing box is kept at a constant temperature. It should be noted that, when the heating thermostat device disposed inside the soft endoscope sterilization box operates, the temperature inside the sterilization box can be kept consistent with the heating temperature of the heating air chamber, so as to prevent the heated hydrogen peroxide gas from entering the inner pipeline of the sterilization box and condensing. Optionally, a temperature sensor can be arranged inside the disinfection box, the temperature sensor is connected with the heating and constant temperature device, and the temperature inside the disinfection box can be detected by the temperature sensor and the communication between the temperature sensor and the heating and constant temperature device, so that the inside of the soft endoscope disinfection box can be kept constant. In practical applications, electromagnetic heating, infrared heating, or resistance heating may be used, which is not limited in this embodiment.

In addition, a micro vacuum air pump 60 is arranged between each sterilizing box 21 and the hydrogen peroxide decomposition system 30; a first exhaust valve 61 is arranged between the micro vacuum air pump 60 and the sterilizing box 21 and used for controlling the output or stopping the output and input of the hydrogen peroxide gas into the inner cavity of the sterilizing box 21; a second exhaust valve 62 is arranged between the micro vacuum air pump 60 and the sterilizing box 21 and is used for controlling the output or stopping the output of the hydrogen peroxide gas to the endoscope pipeline of the soft endoscope in the sterilizing box 21.

When the soft endoscope sterilization system according to the embodiment sterilizes each soft endoscope in the sterilization case 21, the first exhaust valve 61 and the second exhaust valve 62 connected with the negative pressure vacuum cavity can be closed firstly, the first air inlet valve 41 and the second air inlet valve 42 connected with the positive pressure hydrogen peroxide gas and the first control valve 11 are opened, the positive pressure hydrogen peroxide gas is rapidly filled into the soft endoscope disinfection box 21 and the inner pipeline of the soft endoscope, the exhaust valve on the left side is opened and closed at a certain frequency, so that hydrogen peroxide gas can fully contact the surface of the pipeline in the soft endoscope, dead-angle-free disinfection treatment is thoroughly carried out, and meanwhile, the modes of frequent pressurization, inflation, pressure release and exhaust are utilized, the vibration impact is formed on the inner wall of the pipeline, the formation of a bacterial biofilm on the inner wall is avoided, and the soft endoscope sterilization solution has higher efficiency and better sterilization effect.

As shown in fig. 1, a pressure sensor 70 is externally connected to an internal cavity of the sterilizing box 21, and a sensor valve is arranged on a connecting pipeline between the pressure sensor 70 and the sterilizing box 21, so as to assist in performing leakage detection on the sterilizing box 21.

That is, the sterilization system of the present embodiment can perform leak detection for each endoscope: form airtight pipeline through dedicated quick connector butt joint, after the sterilization process, close first exhaust valve 61 and second exhaust valve 62, open pressure sensor valve 71, pressure sensor 70 pressure numerical value should correspond normal atmospheric pressure this moment, inject into the inside pipeline of soft scope with clean cold air through miniature compression air pump 40, form certain malleation, close the air inlet valve, if keep the certain time pressure value unchanged, then the scope does not have the seepage.

Optionally, the sterilization system of the present embodiment further includes an air filtering system 80 disposed at an air inlet of the sterilization system and communicated with each of the sterilization cases 21. The air filtering system 80 is connected to the micro compressed air pump 40 correspondingly arranged to each disinfection box 21, and a second control valve 81 is arranged on a connecting pipeline between the air filtering system 80 and the micro compressed air pump 40, and is used for controlling the purified air to be input or stop being input into the disinfection box 21.

After the soft endoscope disinfection process, the first control valve 11, the first air inlet valve 41 and the second air inlet valve 42 from the hydrogen peroxide to the micro compressed air pump 40 are closed, the second control valve 81 of the air filtering system 80 is opened, clean air is circularly introduced into the soft endoscope disinfection box 21, residual hydrogen peroxide and moisture are taken away, the drying of an internal pipeline is accelerated, and simultaneously the discharged gas containing the residual hydrogen peroxide is decomposed and harmlessly through a hydrogen peroxide analysis net (containing hydrogen peroxide decomposition enzyme).

Overall, the soft endoscope sterilization system of this embodiment is through putting into soft endoscope disinfection box 21, and disinfection convenient and fast promptly is convenient for carry again, great improvement the cyclic utilization rate of endoscope. In addition, the embodiment adopts hydrogen peroxide gas for disinfection, so that no harmful residue is generated, and the consumption of hydrogen peroxide is greatly reduced compared with that of immersion disinfection; in addition, the hydrogen peroxide gas is pressurized by the micro compression air pump 40, and then a certain vacuum is formed by the micro vacuum air pump 60, so that the hydrogen peroxide gas can sufficiently sterilize the end of the pipeline.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the utility model. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (10)

1. A soft endoscope sterilization system, comprising:

the multi-layer disinfection box shelf is used for simultaneously storing a plurality of soft endoscope disinfection boxes;

the hydrogen peroxide atomization chamber is connected with each disinfection box arranged on the multilayer disinfection box shelf and is used for generating hydrogen peroxide gas after atomization based on hydrogen peroxide liquid so as to sterilize the endoscope surface and/or the endoscope pipeline of the soft endoscope in each disinfection box by using the hydrogen peroxide gas;

and the hydrogen peroxide decomposition system is connected with the hydrogen peroxide atomization chamber, and outputs the hydrogen peroxide gas to the sterilization system after being decomposed by the hydrogen peroxide decomposition system through each disinfection box.

2. A sterilization system according to claim 1, wherein a micro compressed air pump is provided between each sterilization box and the hydrogen peroxide atomization chamber, and a first control valve is provided between the micro compressed air pump and the hydrogen peroxide atomization chamber, for controlling the hydrogen peroxide gas to control the hydrogen peroxide gas to input or stop inputting the hydrogen peroxide gas into the sterilization box.

3. A sterilization system according to claim 2, further comprising an air filtration system disposed at an air inlet of the sterilization system and in communication with each of the sterilization cases.

4. A sterilization system according to claim 3, wherein said air filtration system is connected to said micro compressed air pump corresponding to each said sterilization box, and a second control valve is disposed on the connecting pipeline of said air filtration system and said micro compressed air pump for controlling the purified air to be input or stop being input into said sterilization box.

5. A sterilization system according to claim 2,

a first air inlet valve is arranged between the miniature compressed air pump and the disinfection box and used for controlling the hydrogen peroxide gas to be input or stopping inputting the hydrogen peroxide gas into the inner cavity of the disinfection box;

and a second air inlet valve is arranged between the miniature compressed air pump and the disinfection box and is used for controlling the hydrogen peroxide gas to be input or stop being input into an endoscope pipeline of the soft endoscope in the disinfection box.

6. A sterilization system according to claim 5, further comprising a heating plenum in communication with the hydrogen peroxide atomization chamber and disposed between the hydrogen peroxide atomization chamber and the first control valve, the heating plenum being configured to heat the hydrogen peroxide gas flowing to each of the sterilization cases.

7. A sterilization system according to claim 6, wherein a heating thermostat is provided inside the soft endoscope sterilization case to keep the inside of the soft endoscope sterilization case at a constant temperature.

8. A sterilization system according to claim 1 wherein a micro vacuum air pump is provided between each sterilization box and the hydrogen peroxide decomposition system;

a first exhaust valve is arranged between the micro vacuum air pump and the disinfection box and used for controlling the output of the hydrogen peroxide gas or stopping the output and input of the hydrogen peroxide gas into the internal cavity of the disinfection box;

and a second exhaust valve is arranged between the micro vacuum air pump and the disinfection box and is used for controlling the output or stopping the output and the input of the hydrogen peroxide gas into an endoscope pipeline of the soft endoscope in the disinfection box.

9. A sterilization system according to any of claims 1-8, wherein the endoscope lines of the soft endoscope in the sterilization case comprise a water injection line, a gas injection line, a biopsy line and a suction line.

10. A sterilization system according to claim 8, wherein the internal cavity of the sterilization box is externally connected with a pressure sensor, and a sensor valve is arranged on a connecting pipeline between the pressure sensor and the sterilization box for assisting leakage detection of the sterilization box.

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