CN215584921U - Integrated transmission type protective appliance fumigating device - Google Patents

Integrated transmission type protective appliance fumigating device Download PDF

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Publication number
CN215584921U
CN215584921U CN202121858793.2U CN202121858793U CN215584921U CN 215584921 U CN215584921 U CN 215584921U CN 202121858793 U CN202121858793 U CN 202121858793U CN 215584921 U CN215584921 U CN 215584921U
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pipeline
disinfection
valve
communicated
compressed air
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祁建城
吴金辉
张宗兴
衣颖
张恩雷
张金明
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Institute of Medical Support Technology of Academy of System Engineering of Academy of Military Science
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Institute of Medical Support Technology of Academy of System Engineering of Academy of Military Science
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Abstract

The utility model discloses an integrated transmission type protective device fumigating device, which relates to the technical field of biological safety disinfection equipment and comprises a disinfection chamber, a generating device, a disinfectant storage tank and a first pipeline, wherein the disinfection chamber is used for placing protective devices to be disinfected, the generating device is arranged on the first pipeline, both ends of the first pipeline are communicated with the disinfection chamber, the disinfectant storage tank is used for containing disinfectant, the disinfectant storage tank is communicated with the generating device, disinfectant in the disinfectant storage tank generates disinfection gas under the action of the generating device, and get into the disinfection room through first pipeline and disinfect to treat disinfection protection device, the disinfection room includes first pass gate and second pass gate, and first pass gate is connected with clean district, and the second pass gate is connected with contaminated area, and first pass gate and second pass gate can realize interlocking sealed, and first pass gate and second pass gate can not open simultaneously. The utility model can realize full-automatic comprehensive disinfection of the protective device to be disinfected, and simplify the disinfection process and the transmission process.

Description

Integrated transmission type protective appliance fumigating device
Technical Field
The utility model relates to the technical field of biosafety disinfection equipment, in particular to an integrated transmission type fumigation device for a protective apparatus.
Background
Sterilization of protective devices is a necessary prerequisite for repeated use. Taking a positive pressure biological protective hood as an example, the positive pressure biological protective hood is reusable personal protective equipment and can provide high-level safety protection for the head and the respiratory tract of a person. In the process of operating pathogenic microorganisms, the positive pressure biological protective hood is extremely easy to be polluted by the pathogenic microorganisms, and generally needs to be disinfected in all directions after being used, so that the hood can be safely used by other people again. Malleation biological protection hood mainly comprises the hood cover body, air supply line, power air supply filter equipment, and the mode such as mainly soak, spray, clean with the antiseptic solution disinfects earlier stage, simultaneously for cleaing away remaining antiseptic solution, still need wash, dry, disinfect with the clear water, and the process is loaded down with trivial details unusually, and in disinfection process, has operating personnel exposure risk. Meanwhile, in some biological safety protection facilities, such as a negative pressure isolation ward, a biological product workshop and the like, personnel enter and exit the biological safety protection facilities through independent passages, the positive pressure biological protection hood is usually put on or taken off in different rooms, and complex article transfer processes are needed for repeated use of the hood.
Therefore, aiming at the difficult problems of disinfection and transmission in the safe repeated use of the positive pressure biological protective hood, the development of an integrated transmission type fumigation device for protective instruments is urgently needed.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide an integrated transmission type protective appliance fumigating device, which is used for solving the problems in the prior art, realizing full-automatic comprehensive disinfection of a protective appliance to be disinfected and simplifying the disinfection process and the transmission process.
In order to achieve the purpose, the utility model provides the following scheme:
the utility model provides an integrated transmission type protective device fumigating device, which comprises a disinfection chamber, a generating device, a disinfectant storage tank and a first pipeline, wherein the disinfection chamber is used for placing a protective device to be disinfected, the generating device, the disinfectant storage tank and the first pipeline are all positioned outside the disinfection chamber, the generating device is arranged on the first pipeline, two ends of the first pipeline are communicated with the disinfection chamber, the disinfectant storage tank is used for containing disinfectant, the disinfectant storage tank is communicated with the generating device, disinfectant in the disinfectant storage tank generates disinfection gas under the action of the generating device and enters the disinfection chamber through the first pipeline to disinfect the protective device to be disinfected, the disinfection chamber comprises a first transmission door and a second transmission door, the first transmission door is connected with a cleaning area, and the second transmission door is connected with a pollution area, the first transfer door and the second transfer door are capable of an interlocking seal.
Preferably, still be provided with disinfection air outlet valve, first circulating fan, disinfection admission valve on the first pipeline, disinfection air outlet valve with first circulating fan sets up generating device with between the gas outlet of first pipeline, the disinfection admission valve sets up generating device with between the air inlet of first pipeline.
Preferably, the integrated transfer type protective apparatus fumigating device further comprises a second pipeline, a residue removing tank and a residue removing valve are arranged on the second pipeline, one end of the second pipeline is communicated with the air outlet of the first pipeline, and the other end of the second pipeline is communicated with the first pipeline between the disinfection air outlet valve and the generating device;
a metering pump is arranged between the disinfectant storage tank and the generating device, a weighing sensor is also arranged below the disinfectant storage tank, and the weighing sensor is used for weighing the weight of the disinfectant in the disinfectant storage tank.
Preferably, the integrated transfer type protective apparatus fumigation device further comprises a circulating pipeline, two ends of the circulating pipeline are both communicated with the disinfection chamber, and an air outlet valve, a second circulating fan, a circulating valve and a pipeline heater are sequentially arranged on the circulating pipeline from an air outlet of the circulating pipeline to an air inlet of the circulating pipeline;
the air inlet of the circulation pipeline is communicated with a main pipe in the disinfection chamber, the main pipe is connected with a plurality of branch pipes, each branch pipe is provided with a plurality of vent holes, and the to-be-disinfected protective device is positioned outside the branch pipe;
the pipeline heater is provided with a pipeline temperature sensor, and the pipeline temperature sensor is used for measuring the temperature of the pipeline heater.
Preferably, the integrated transmission type protective apparatus fumigating device further comprises an air supply pipeline, one end of the air supply pipeline is used for being communicated with an air supply device, the other end of the air supply pipeline is communicated with the disinfection chamber, and an air supply valve and an air supply filter are sequentially arranged on the air supply pipeline along the air supply direction.
Preferably, the integrated transfer type protective apparatus fumigating device further comprises an exhaust pipeline, one end of the exhaust pipeline is used for being communicated with the atmosphere, the other end of the exhaust pipeline is communicated with the disinfection chamber, and an exhaust valve, an exhaust filter and an exhaust hand valve are sequentially arranged on the exhaust pipeline along the exhaust direction;
the exhaust pipeline is communicated with the air supply pipeline through a disinfection pipeline, and a disinfection verification port and a terminal disinfection hand valve are arranged on the disinfection pipeline.
Preferably, the integrated transfer type protective device fumigating device further comprises a compressed air main pipeline and a first compressed air branch pipeline, one end of the compressed air main pipeline is used for being communicated with compressed air, the other end of the compressed air main pipeline is communicated with one end of the first compressed air branch pipeline, the other end of the first compressed air branch pipeline is communicated with the disinfection chamber, and a first pressure reducing valve, a first filter and a compressed air electromagnetic valve are arranged on the first compressed air branch pipeline along the direction of the compressed air.
Preferably, the integrated transfer type protective device fumigating device further comprises a second compressed air branch pipeline, one end of the second compressed air branch pipeline is communicated with the other end of the compressed air main pipeline, a second pressure reducing valve and a second filter are arranged on the second compressed air branch pipeline along the direction of compressed air, the first transfer door and the second transfer door are inflatable sealing doors, the first transfer door is communicated with the other end of the second compressed air branch pipeline through a first branch, a first inflation valve and a first pressure gauge are arranged on the first branch, the second transfer door is communicated with the other end of the second compressed air branch pipeline through a second branch, and a second inflation valve and a second pressure gauge are arranged on the second branch.
Preferably, a temperature sensor and a VHP sensor are arranged in the disinfection chamber, the temperature sensor is used for measuring the temperature in the disinfection chamber, and the VHP sensor is used for measuring the concentration of the disinfection solution in the disinfection chamber and the humidity in the disinfection chamber.
Compared with the prior art, the utility model has the following technical effects:
the integrated transmission type protective appliance fumigating device can realize full-automatic comprehensive disinfection of the protective appliance to be disinfected, does not need to be soaked, and simplifies the process; in addition, the first transfer gate and the second transfer gate are arranged, so that the transfer process is simple, and a complex transfer flow is not needed.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.
FIG. 1 is a schematic diagram of the external structure of an integrated transmission type fumigator of a protective apparatus of the present invention;
FIG. 2 is a front view of the internal structure of the integrated transfer-type protective equipment fumigation device of the present invention;
FIG. 3 is a side view of the internal structure of the integrated transfer-type protective equipment fumigation device of the present invention;
FIG. 4 is a top view of the internal structure of the integrated transfer-type fumigator of a protective apparatus of the present invention;
FIG. 5 is a schematic diagram of an integrated transfer-type fumigator apparatus of a protective device of the present invention;
wherein: 100-integrated transfer type protective apparatus fumigation device, 1-disinfection chamber, 2-generating device, 3-disinfectant storage tank, 4-first pipeline, 5-disinfection air outlet valve, 6-first circulating fan, 7-disinfection air inlet valve, 8-second pipeline, 9-residue removing tank, 10-residue removing valve, 11-metering pump, 12-weighing sensor, 13-circulating pipeline, 14-air outlet valve, 15-second circulating fan, 16-circulating valve, 17-pipeline heater, 18-main pipe, 19-branch pipe, 20-pipeline temperature sensor, 21-air supply pipeline, 22-air supply valve, 23-air supply filter, 24-air exhaust pipeline, 25-air exhaust valve, 26-air exhaust filter and 27-air exhaust hand valve, 28-a disinfection pipeline, 29-a disinfection verification hand valve, 30-a terminal disinfection hand valve, 31-a compressed air main pipeline, 32-a first compressed air branch pipeline, 33-a compressed air hand valve, 34-a first pressure reducing valve, 35-a first filter, 36-a compressed air electromagnetic valve, 37-a second compressed air branch pipeline, 38-a second pressure reducing valve, 39-a second filter, 40-a first branch pipeline, 41-a first inflation valve, 42-a first pressure gauge, 43-a second branch pipeline, 44-a second inflation valve, 45-a second pressure gauge, 46-a temperature sensor, 47-a VHP sensor, 48-a pressure difference sensor, 49-a to-be-disinfected protective device, 50-a first transfer valve and 51-an air supply hand valve.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without inventive effort based on the embodiments of the present invention, are within the scope of the present invention.
The utility model aims to provide an integrated transmission type protective appliance fumigating device, which is used for solving the problems in the prior art, realizing full-automatic comprehensive disinfection of a protective appliance to be disinfected and simplifying the disinfection process and the transmission process.
In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.
As shown in fig. 1-5: the embodiment provides an integrated transfer type protective device fumigating device 100, which comprises a disinfection chamber 1, a generating device 2, a disinfectant storage tank 3 and a first pipeline 4, wherein the disinfection chamber 1 is used for placing a protective device 49 to be disinfected, the generating device 2, the disinfectant storage tank 3 and the first pipeline 4 are all positioned outside the disinfection chamber 1, the generating device 2 is arranged on the first pipeline 4, two ends of the first pipeline 4 are communicated with the disinfection chamber 1, the disinfectant storage tank 3 is used for containing disinfectant, the disinfectant storage tank 3 is communicated with the generating device 2, the disinfectant in the disinfectant storage tank 3 generates disinfection gas under the action of the generating device 2 and enters the disinfection chamber 1 through the first pipeline 4 to disinfect the protective device 49 to be disinfected, the disinfection chamber 1 comprises a first transfer door 50 and a second transfer door, the first transfer door 50 is connected with a cleaning area, the second transfer door is connected with a pollution area, the first transfer door 50 and the second transfer door are capable of an interlocking seal, and the first transfer door 50 and the second transfer door are not simultaneously openable.
In this embodiment, the generator 2 is a flash evaporator.
In this embodiment, the protective device 49 to be sterilized is a head cap, and a charging device is provided in the sterilizing chamber 1 for charging the head cap, and the sterilizing stage is not charged.
The disinfectant used in this example was hydrogen peroxide solution.
In this embodiment, the first pipeline 4 is further provided with a disinfection air outlet valve 5, a first circulating fan 6 and a disinfection air inlet valve 7, the disinfection air outlet valve 5 and the first circulating fan 6 are arranged between the air outlets of the generating device 2 and the first pipeline 4, and the disinfection air inlet valve 7 is arranged between the air inlets of the generating device 2 and the first pipeline 4.
In this embodiment, the integrated transfer type fumigation device 100 for protective equipment further comprises a second pipeline 8, the second pipeline 8 is provided with a residue removing tank 9 and a residue removing valve 10, one end of the second pipeline 8 is communicated with the gas outlet of the first pipeline 4, and the other end of the second pipeline 8 is communicated with the first pipeline 4 between the disinfection gas outlet valve 5 and the generating device 2; be provided with measuring pump 11 between antiseptic solution storage tank 3 and generating device 2, the below of antiseptic solution storage tank 3 still is provided with weighing sensor 12, and weighing sensor 12 is used for weighing the weight of the antiseptic solution in antiseptic solution storage tank 3, and generating device 2 is provided with generating device temperature sensor for measure the flash distillation temperature.
In this embodiment, the integrated transfer type fumigation device 100 for protective equipment further comprises a circulation pipeline 13, both ends of the circulation pipeline 13 are communicated with the disinfection chamber 1, and an air outlet valve 14, a second circulation fan 15, a circulation valve 16 and a pipeline heater 17 are sequentially arranged on the circulation pipeline 13 from an air outlet of the circulation pipeline 13 to an air inlet of the circulation pipeline 13; the air inlet of the circulating pipeline 13 is communicated with a main pipe 18 in the disinfection chamber 1, the main pipe 18 is connected with a plurality of branch pipes 19, each branch pipe 19 is provided with a plurality of vent holes, and the to-be-disinfected protective device 49 is positioned outside the branch pipe 19; the pipe heater 17 is provided with a pipe temperature sensor 20, and the pipe temperature sensor 20 is used for measuring the temperature of the pipe heater 17.
In this embodiment, the integrated transfer type fumigation device 100 for protective equipment further includes an air supply pipeline 21, one end of the air supply pipeline 21 is used for being communicated with an air supply device, the other end of the air supply pipeline 21 is communicated with the disinfection chamber 1, and the air supply pipeline 21 is sequentially provided with an air supply valve 22 and an air supply filter 23 along an air supply direction.
In this embodiment, the integrated transfer type fumigator 100 of the protective device further includes an exhaust duct 24, one end of the exhaust duct 24 is used for communicating with the atmosphere, the other end of the exhaust duct 24 is communicated with the circulation duct 13 between the circulation valve 16 and the second circulation fan 15, an exhaust valve 25, an exhaust filter 26 and an exhaust hand valve 27 are sequentially arranged on the exhaust duct 24 along the exhaust direction, the exhaust duct 24 is communicated with the air supply duct 21 through a disinfection duct 28, and a disinfection verification port and a terminal disinfection hand valve 30 are arranged on the disinfection duct 28.
In this embodiment, the integrated transfer type fumigation apparatus 100 for a protective device further includes a main compressed air pipeline 31 and a branch compressed air pipeline 32, one end of the main compressed air pipeline 31 is used for communicating with compressed air, the other end of the main compressed air pipeline 31 is communicated with one end of the branch compressed air pipeline 32, the other end of the branch compressed air pipeline 32 is communicated with the air supply pipeline 21 between the air supply valve 22 and the air supply filter 23, the main compressed air pipeline 31 is provided with a hand compressed air valve 33, and the branch compressed air pipeline 32 is provided with a first pressure reducing valve 34, a first filter 35 and a solenoid compressed air valve 36 along the direction of compressed air.
In this embodiment, the integrated transfer type fumigator 100 of the protective device further includes a second compressed air branch pipeline 37, one end of the second compressed air branch pipeline 37 is communicated with the other end of the main compressed air pipeline 31, a second pressure reducing valve 38 and a second filter 39 are disposed on the second compressed air branch pipeline 37 along the direction of compressed air, the first transfer door 50 and the second transfer door are both inflatable sealing doors, the first transfer door 50 is communicated with the other end of the second compressed air branch pipeline 37 through a first branch 40, the first branch 40 is provided with a first inflation valve 41 and a first pressure gauge 42, the second transfer door is communicated with the other end of the second compressed air branch pipeline 37 through a second branch 43, and the second branch 43 is provided with a second inflation valve 44 and a second pressure gauge 45. When the first transfer door 50 is closed, the first inflation valve 41 is opened; when the second transfer door is closed, the second inflation valve 44 is opened; the first transfer door 50 and the second transfer door are interlocked and cannot be opened simultaneously.
In this embodiment, a temperature sensor 46 and a VHP sensor 47 are provided in the sterilization chamber 1, the temperature sensor 46 is used for measuring the temperature in the sterilization chamber 1, and the VHP sensor 47 is used for measuring the concentration of the sterilization liquid in the sterilization chamber 1 and the humidity in the sterilization chamber 1.
In the present embodiment, both the air supply filter 23 and the air discharge filter 26 are HEPA filters, and both the air supply filter 23 and the air discharge filter 26 are provided with the differential pressure sensor 48.
By adopting the integrated transmission type protective apparatus fumigating device 100 of the embodiment, the full-automatic comprehensive disinfection of the protective apparatus 49 to be disinfected can be realized, the soaking is not needed, and the process is simplified; moreover, the first transfer gate 50 and the second transfer gate are arranged, so that the transfer process is simple and a complex transfer flow is not needed.
The embodiment provides a disinfection method adopting an integrated transfer type protective apparatus fumigation device 100, which comprises the following stages:
the first stage, including the ventilation process and the dehumidification process, firstly, the ventilation process is carried out, then the ventilation process and the dehumidification process are alternately carried out until the temperature sensor 46 detects the temperature in the disinfection chamber 1 and the VHP sensor 47 detects that the humidity in the disinfection chamber 1 reaches a set value, and meanwhile, the generating device 2 works to preheat;
during the air exchange process, compressed air enters the disinfection chamber 1 through the compressed air hand valve 33, the first pressure reducing valve 34, the first filter 35, the compressed air electromagnetic valve 36 and the air supply filter 23 in sequence, and is exhausted through the air outlet valve 14, the exhaust valve 25, the exhaust filter 26 and the exhaust hand valve 27 in sequence, so that air exchange is realized;
during the dehumidification process, the first pressure reducing valve 34 and the exhaust valve 25 are closed, the circulating valve 16 is opened, the second circulating fan 15 works, the pipeline heater 17 works to realize heating internal circulation, and the heated gas enters the disinfection chamber 1 through the main pipe 18 and each branch pipe 19;
in the second stage, the dehumidification process is continued, meanwhile, the disinfection air outlet valve 5 is opened, the first circulating fan 6 works, the generating device 2 is opened to vaporize the disinfectant to form disinfection gas, the disinfection air inlet valve 7 is opened, the metering pump 11 is started, the metering pump 11 works according to a working set value and working time, the disinfection gas enters the disinfection chamber 1, and simultaneously, under the action of the circulating pipeline 13, the disinfection gas enters each branch pipe 19 through the main pipe 18 to disinfect the interior of the protective device 49 to be disinfected;
in the third stage, the working frequency of the first circulating fan 6 and the second circulating fan 15 is changed according to a set value, and the working set value of the metering pump 11 is changed, so that the sterilizing gas in the sterilizing chamber 1 is more uniform;
in the fourth stage, the disinfection gas outlet valve 5 is closed, the residue removing valve 10 is opened, the metering pump 11 and the generating device 2 stop working, the disinfection gas in the disinfection chamber 1 sequentially passes through the residue removing tank 9, the residue removing valve 10 and the disinfection gas inlet valve 7 under the action of the first circulating fan 6, at the moment, the circulating pipeline 13 is continuously opened, and the working frequency of the second circulating fan 15 changes in real time until the concentration of the disinfection gas in the disinfection chamber 1 is reduced to a certain value;
in the fifth stage, when the VHP sensor 47 detects that the concentration of the sterilizing gas in the sterilizing chamber 1 has decreased to a certain value, the circulation line 13 is closed, the air discharge valve 25 and the air supply valve 22 are opened, and the gas is introduced into the sterilizing chamber 1 through the air supply hand valve 51, the air supply valve 22 and the air supply filter 23 in order, and then discharged through the air discharge valve 14, the air discharge valve 25, the air discharge filter 26 and the air discharge hand valve 27.
In this embodiment, the air supply hand valve 51 is normally open during the entire sterilization process.
When judging whether the air supply filter 23 and the air exhaust filter 26 need to be replaced, the method comprises the following steps:
in the first stage, before starting, the biological bacteria sheets are put into a disinfection verification port, the air supply hand valve 51 and the air exhaust hand valve 27 are closed, and the terminal disinfection hand valve 30 and the disinfection verification hand valve 29 of the disinfection verification port are opened; the preparation phase comprises a heating process, the heating process is the same as the dehumidification process in the disinfection method, and meanwhile, the generating device 2 works to preheat;
during the heating process, the first pressure reducing valve 34 and the exhaust valve 25 are closed, the circulating valve 16 is opened, the second circulating fan 15 works, the pipeline heater 17 works to realize heating internal circulation, and the heated gas enters the disinfection chamber 1 through the main pipe 18 and each branch pipe 19;
in the second stage, the circulating valve 16, the air exhaust hand valve 27 and the air supply hand valve 51 are closed, and the terminal disinfection hand valve 30 and the air supply valve 22 are opened; meanwhile, the disinfection air outlet valve 5 is opened, the first circulating fan 6 works, the generating device 2 is opened to realize vaporization of the disinfectant to form disinfection gas, the disinfection air inlet valve 7 is opened, the metering pump 11 is started, the metering pump 11 works according to a working set value and working time, and the disinfection gas enters the disinfection chamber 1; the direction of the sterilisation gas then comprises two lines: disinfection circuit and major cycle circuit, the disinfection circuit is: the disinfection air outlet valve 5, the first circulating fan 6, the generating device 2, the disinfection air inlet valve 7 and the disinfection chamber 1, the large circulation circuit is: an air outlet valve 14, a second circulating fan 15, an exhaust valve 25, an exhaust filter 26, a terminal disinfection hand valve 30, an air supply valve 22, an air supply filter 23 and a disinfection chamber 1;
in the third stage, the working frequency of the first circulating fan 6 and the second circulating fan 15 is changed according to a set value, and the working set value of the metering pump 11 is changed, so that the sterilizing gas in the sterilizing chamber 1 is more uniform;
a fourth stage: the sterilizing gas outlet valve 5 is closed, the residue removing valve 10 is opened, the metering pump 11 and the generating device 2 stop working, the sterilizing gas in the sterilizing chamber 1 sequentially passes through the residue removing tank 9, the residue removing valve 10 and the sterilizing gas inlet valve 7 under the action of the first circulating fan 6, at the moment, the large circulating line is continuously opened, and the working frequency of the second circulating fan 15 is changed in real time until the concentration of the sterilizing gas in the sterilizing chamber 1 is reduced to a certain value;
in the fifth stage, after the VHP sensor 47 detects that the concentration of the sterilizing gas in the sterilizing chamber 1 is reduced to a certain value, the terminal sterilizing hand valve 30 is closed, the air supply hand valve 51 and the air exhaust hand valve 27 are opened, the gas enters the sterilizing chamber 1 through the air supply hand valve 51, the air supply valve 22 and the air supply filter 23 in sequence, then is discharged through the air outlet valve 14, the air exhaust valve 25, the air exhaust filter 26 and the air exhaust hand valve 27, the biological bacterial piece at the terminal sterilization verification port is taken out, and if the sterilization effect of the biological bacterial piece is not good, the air supply filter 23 and the air exhaust filter 26 cannot be replaced; if the sterilization effect is good, the device can be replaced.
The principle and the implementation mode of the present invention are explained by applying specific examples in the present specification, and the above descriptions of the examples are only used to help understanding the method and the core idea of the present invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, the specific embodiments and the application range may be changed. In view of the above, the present disclosure should not be construed as limiting the utility model.

Claims (9)

1. The utility model provides an integrated transmission's protective apparatus fumigation apparatus which characterized in that: comprises a disinfection chamber, a generating device, a disinfectant storage tank and a first pipeline, wherein the disinfection chamber is used for placing protective devices to be disinfected, the generating device, the disinfectant storage tank and the first pipeline are all positioned outside the disinfection room, the generating device is arranged on the first pipeline, both ends of the first pipeline are communicated with the sterilizing chamber, the disinfectant storage tank is used for containing disinfectant and is communicated with the generating device, the disinfectant in the disinfectant storage tank generates disinfectant gas under the action of the generating device, and enters the disinfection room through the first pipeline to disinfect the protection device to be disinfected, the disinfection room comprises a first transfer door and a second transfer door, the first transfer door is connected with the clean area, the second transfer door is connected with the contaminated area, and the first transfer door and the second transfer door can realize interlocking sealing.
2. The integrated transfer-type protective equipment fumigation device of claim 1, wherein: still be provided with disinfection air outlet valve, first circulating fan, disinfection admission valve on the first pipeline, the disinfection air outlet valve with first circulating fan sets up generating device with between the gas outlet of first pipeline, the disinfection admission valve sets up generating device with between the air inlet of first pipeline.
3. The integrated transfer-type protective equipment fumigation device of claim 2, wherein: the integrated transfer type protective apparatus fumigating device also comprises a second pipeline, wherein a residue removing tank and a residue removing valve are arranged on the second pipeline, one end of the second pipeline is communicated with the air outlet of the first pipeline, and the other end of the second pipeline is communicated with the first pipeline between the disinfection air outlet valve and the generating device;
a metering pump is arranged between the disinfectant storage tank and the generating device, a weighing sensor is also arranged below the disinfectant storage tank, and the weighing sensor is used for weighing the weight of the disinfectant in the disinfectant storage tank.
4. The integrated transfer-type protective equipment fumigation device of claim 1, wherein: the integrated transmission type protective apparatus fumigation device further comprises a circulating pipeline, wherein two ends of the circulating pipeline are communicated with the disinfection chamber, and an air outlet valve, a second circulating fan, a circulating valve and a pipeline heater are sequentially arranged on the circulating pipeline from an air outlet of the circulating pipeline to an air inlet of the circulating pipeline;
the air inlet of the circulation pipeline is communicated with a main pipe in the disinfection chamber, the main pipe is connected with a plurality of branch pipes, each branch pipe is provided with a plurality of vent holes, and the to-be-disinfected protective device is positioned outside the branch pipe;
the pipeline heater is provided with a pipeline temperature sensor, and the pipeline temperature sensor is used for measuring the temperature of the pipeline heater.
5. The integrated transfer-type protective equipment fumigation device of claim 1, wherein: the integrated transmission type protective apparatus fumigating device further comprises an air supply pipeline, one end of the air supply pipeline is used for being communicated with an air supply device, the other end of the air supply pipeline is communicated with the disinfection chamber, and an air supply valve and an air supply filter are sequentially arranged on the air supply pipeline along the air supply direction.
6. The integrated transfer-type protective equipment fumigation device of claim 5, wherein: the integrated transfer type protective apparatus fumigating device also comprises an exhaust pipeline, wherein one end of the exhaust pipeline is used for being communicated with the atmosphere, the other end of the exhaust pipeline is communicated with the disinfection chamber, and an exhaust valve, an exhaust filter and an exhaust hand valve are sequentially arranged on the exhaust pipeline along the exhaust direction;
the exhaust pipeline is communicated with the air supply pipeline through a disinfection pipeline, and a disinfection verification port and a terminal disinfection hand valve are arranged on the disinfection pipeline.
7. The integrated transfer-type protective equipment fumigation device of claim 1, wherein: the integrated transfer type protective appliance fumigating device further comprises a compressed air main pipeline and a first compressed air branch pipeline, one end of the compressed air main pipeline is used for being communicated with compressed air, the other end of the compressed air main pipeline is communicated with one end of the first compressed air branch pipeline, the other end of the first compressed air branch pipeline is communicated with the disinfection chamber, and a first pressure reducing valve, a first filter and a compressed air electromagnetic valve are arranged on the first compressed air branch pipeline along the direction of the compressed air.
8. The integrated transfer-type protective equipment fumigation device of claim 7, wherein: the integrated transfer type protective device fumigating device further comprises a second compressed air branch pipeline, one end of the second compressed air branch pipeline is communicated with the other end of the compressed air main pipeline, a second pressure reducing valve and a second filter are arranged on the second compressed air branch pipeline along the direction of compressed air, a first transfer door and a second transfer door are inflatable sealing doors, the first transfer door is communicated with the other end of the second compressed air branch pipeline through a first branch, a first inflation valve and a first pressure meter are arranged on the first branch, the second transfer door is communicated with the other end of the second compressed air branch pipeline through a second branch, and a second inflation valve and a second pressure meter are arranged on the second branch.
9. The integrated transfer-type protective equipment fumigation device of claim 1, wherein: be provided with temperature sensor and VHP sensor in the disinfection room, temperature sensor is used for measuring temperature in the disinfection room, the VHP sensor is used for measuring the concentration of antiseptic solution in the disinfection room with humidity in the disinfection room.
CN202121858793.2U 2021-08-10 2021-08-10 Integrated transmission type protective appliance fumigating device Active CN215584921U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202121858793.2U CN215584921U (en) 2021-08-10 2021-08-10 Integrated transmission type protective appliance fumigating device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202121858793.2U CN215584921U (en) 2021-08-10 2021-08-10 Integrated transmission type protective appliance fumigating device

Publications (1)

Publication Number Publication Date
CN215584921U true CN215584921U (en) 2022-01-21

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CN202121858793.2U Active CN215584921U (en) 2021-08-10 2021-08-10 Integrated transmission type protective appliance fumigating device

Country Status (1)

Country Link
CN (1) CN215584921U (en)

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