CN109529249A - A kind of method of V class chemical poison in elimination enclosed environment - Google Patents

Abstract

The present invention provides a kind of methods of V class chemical poison in elimination enclosed environment, are related to disinfection field, solve the problems, such as to be difficult to remove in enclosed environment such as instrument and equipment surface, complicated chamber and/or gap etc. V class chemical poison.This method includes being placed in atomizing module in the closed disinfection space for being placed with instrument to be sterilized or communicating therewith, and the first heating component is arranged in atomizing module, and the second heating component is arranged in its exit；The peroxide being placed in the first reagent container is passed through in atomizing module, and the first heating component is atomized and/or is vaporized, and is stopped in disinfection space；The nitrogenous compound being placed in the second reagent container is passed through disinfection space, stops wherein；Repetition is passed through above-mentioned two compound and the completion disinfection that stays for some time；Remaining reagent processing module is opened, remaining reagent is purified.The present invention can surface effectively in deblocking environment such as instrument and equipment, complicated chamber and/or gap etc. V class chemical poison, and efficiently, environmental protection.

Description

A kind of method of V class chemical poison in elimination enclosed environment

Technical field

The present invention relates to disinfection technology fields, more particularly, to a kind of method of V class chemical poison in elimination enclosed environment.

Background technique

V class chemical poison is a kind of nerve toxicant, including one replace amido and include contain an internal amino First phosphonothiolic acid ethyl ester, it is o- for example including o- ethyl-S- (2- diisopropylamine ethyl) first phosphine sulfide acetoacetic ester (war agent VX) Isobutyl group-S- (2- diethyl) ethyl first phosphonothiolic acid ethyl ester, and neighbour's S- diethyl first phosphonothiolic acid ethyl ester.Phosphonothiolic acid ethyl ester Form the toxic hydrolysate containing phosphono thiolic acid.Typically if VX is a kind of transparent, amber, tasteless, oily liquid Body, it can be mixed and dissolved in all solvents with water, and volatility is very weak.

Traditional technology when eliminating V class chemical poison be usually be rinsed by water-based agent, although can remove to The V class chemical poison on processing equipment surface, but usually require the auxiliary such as the container of a large amount of pipelines of outfit, storage reagent and water and set It is standby, it has not been convenient to it is mobile, therefore be typically all to be performed disinfection work in fixed disinfection station point；Secondly, equipment to be processed usually contains There are more complicated chamber and/or gap, these complicated chambers and/or gap inner space are tortuous, and bore is narrow, so that liquid Reagent can not completely arrive at instrument and equipment internal cavities and/or gap, and there are disinfection blind areas；Again, certain valuable precisions Instrument and equipment can not be carried out rushing disinfection with water-based agent；Finally, will cause after water-based agent disinfection different degrees of secondary Pollution and corrosion.

Therefore, it is badly in need of a kind of maneuverability, does not will cause secondary pollution and corrosion, can especially eliminates in enclosed environment such as The sterilization method of the V class chemical poison of equipment containing complicated chamber and/or gap.

Summary of the invention

The purpose of the present invention is to provide a kind of methods of V class chemical poison in elimination enclosed environment, to solve existing skill It can not be effectively to instrument and equipment airtight chamber and/or seam using the method that liquid reagent eliminates V class chemical poison present in art The technical issues of gap carries out disinfection and be easy to cause secondary pollution and corrosion；It is preferred in many technical solutions provided by the invention Many technical effects elaboration as detailed below that technical solution can be generated.

To achieve the above object, the present invention provides following technical schemes:

A kind of method for eliminating V class chemical poison in enclosed environment provided by the invention, comprising the following steps:

S1: equipment to be sterilized being placed in closed disinfection space, by atomizing module be placed in disinfection space or with disappear Malicious space is connected to, and is provided with the first heating component in atomizing module, the exit of atomizing module is provided with the second heating component；

S2: first heating component begins heat to the atomization and/or vapourizing temperature of peroxide reagent, and described second Heating component begins to warm up and to preferable reaction temperature；

S3: after reaching above-mentioned atomization and/or vapourizing temperature and preferable reaction temperature, the mistake that is placed in the first reagent container Oxide reagent is passed through in the atomizing module, first heating component by the peroxide reagent heating atomization and/or The peroxide reagent after vaporization, atomization and/or vaporization is passed through the disinfection space and stays for some time；

S4: when the nitrogenous compound reagent being placed in the second reagent container is passed through to the disinfection space and stops one section Between；

S5: it is repeated once step S2-S4 step.

Preferably, heating is provided in first heating component and second heating component in step sl Device.

Preferably, second heating component further includes Diffusion fan, and the reagent is under the action of the Diffusion fan It blasts in the disinfection space.

Preferably, the atomizing module is connected with control module, and the control module includes controller and radiator fan, institute Controller is stated to be electrically connected with first heating component and second heating component.

Preferably, the exit of first reagent container is provided with reagent pump, the reagent pump can adjust rotating forward and Reversion, in step s3, the reagent pump forward direction work, the peroxide reagent enters in the atomizing module, in step After S5, the reagent pump reverse operation, the peroxide reagent is flowed back in first reagent container.

Preferably, after step s 5, further include step S6: after the completion of disinfection reactions, opening remaining reagent processing module Purified treatment is carried out to the remaining reagent of the disinfection space.

It preferably, include filter device and draft fan in the remaining reagent processing module, the filter device includes There are air inlet and air outlet, under draft fan effect, air-flow is from the air inlet through the filter device and from institute State gas outlet discharge.

It preferably, further include sensing component in the atomizing module described in step S1, the sensing component and the control Device electrical connection, the sensing component includes reagent concentration sensor group, temperature sensor group and humidity sensor, wherein

The reagent concentration sensor group is located at the inside of the atomizing module, for sensing reagent in the atomizing module Concentration；

The temperature sensor group is distributed in the inside of the atomizing module, for sensing the ring inside the atomizing module Border temperature；

The humidity sensor is located at the inside of the atomizing module, for sensing the environmental wet in the atomizing module Degree.

Preferably, the temperature sensor group includes the first temperature sensor and second temperature sensor, wherein described the One temperature sensor arranges that the second temperature sensor is located at second heating component close to first heating component On, so that first heating component and second heating component can be based on first temperature sensor and described second The sensing value of temperature sensor adjusts heating temperature.

Preferably, further include step S7 after the step S6: the reagent concentration sensor group is to the peroxidating The concentration of object reagent and the nitrogenous compound reagent is detected, and after concentration is down to predetermined value, closes the remaining reagent Processing module and the atomizing module, disinfection process terminate.

The method of chemistry V class chemical poison in elimination enclosed environment provided by the invention has such as compared with prior art It is lower the utility model has the advantages that

1, it is connected with atomizing module with disinfection space, mist is first converted by liquid by atomizing module by peroxide reagent Change and/or vapor state, are distributed in inside disinfection space, compared to the direct spray disinfectant of liquid reagent, above-mentioned sterilization method energy It enough drives the reagent of atomization and/or vapor state to reach required disinfection space using the flowing of gas, realizes in disinfection space As the surface of instrument and equipment, complicated chamber and/or gap carry out disinfection.The present invention fully considers the chemical characteristic of disinfection reagent, Such as surface of instrument and equipment, complicated chamber and/or gap etc. V class chemical poison, and efficient, ring in effective deblocking environment It protects.

2, step S2- step S4 is repeated, the activity of peroxide reagent and nitrogenous compound reagent can be sufficiently excited, Disinfection reagent is set sufficiently to react with V class chemical poison, Disinfection Effect is more preferable.

3, after the completion of the process of disinfection, remaining reagent processing module can effectively be carried out reagent remaining in air Purification reduces secondary pollution and corrosion.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention for those of ordinary skill in the art without creative efforts, can be with It obtains other drawings based on these drawings.

State diagram when Fig. 1 is a kind of sterilizing cabin disinfection of preferred embodiment of the present invention；

Fig. 2 is a kind of state diagram of the sterilizing cabin remaining reagent processing module work of preferred embodiment of the present invention；

Fig. 3 is the disinfection status diagram of atomizing module and disinfection space cooperation；

Fig. 4 is the schematic diagram of the filtration condition of atomizing module and disinfection space cooperation；

Fig. 5 is a kind of relational graph of preferred embodiment of inductive component of the present invention.

1- spray chamber in figure；The gas outlet 11-；2- atomizing component；21- Reagent Tube；The first heating component of 22-；23- reagent Pump；The second heating component of 25-；251- Diffusion fan；252- heater；31- filter device；311- air inlet；312- exhaust outlet； 4- sensing component；41- reagent concentration sensor group；42- temperature sensor group；The first temperature sensor of 421-；The second temperature of 422- Spend sensor；423- third temperature sensor；43- humidity sensor；5- headstock gear；6- heat dissipation wind channel；61- cooling fan； 7- disinfection space.

Specific embodiment

To make the object, technical solutions and advantages of the present invention clearer, technical solution of the present invention will be carried out below Detailed description.Obviously, described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.Base Embodiment in the present invention, those of ordinary skill in the art are obtained all without making creative work Other embodiment belongs to the range that the present invention is protected.

In the description of the present invention, it is to be understood that, term " center ", " length ", " width ", " height ", "upper", The orientation of instructions such as "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside", " side " or Positional relationship is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of description of the present invention and simplification of the description, without It is that the equipment of indication or suggestion meaning or element must have a particular orientation, be constructed and operated in a specific orientation, therefore not It can be interpreted as limitation of the present invention.In the description of the present invention, unless otherwise indicated, the meaning of " plurality " is two or two More than.

The present invention provides a kind of methods of V class chemical poison in elimination enclosed environment, comprising the following steps:

S1: equipment to be sterilized being placed in closed disinfection space, by atomizing module be placed in disinfection space or with disappear Malicious space is connected to, and is provided with the first heating component in atomizing module, the exit of atomizing module is provided with the second heating component；

S2: the first heating component begins heat to the atomization and/or vapourizing temperature of peroxide reagent, the second heating component It begins to warm up and to preferable reaction temperature；

S3: after reaching above-mentioned atomization and/or vapourizing temperature and preferable reaction temperature, the mistake that is placed in the first reagent container Oxide reagent is passed through in atomizing module, the first heating component by peroxide reagent heating atomization and/or vaporization, atomization and/ Or the peroxide reagent after vaporization is passed through disinfection space and stays for some time；

S4: the nitrogenous compound reagent being placed in the second reagent container is passed through to disinfection space and stays for some time；

S5: it is repeated once step S2-S4 step.

Wherein, it is especially mentioned that peroxide reagent, hydrogen peroxide preferably may be selected, other strong oxidizers are for example Hypochlorite, ozone solution or other similar oxidants are also contemplated that.Selectable cosolvent, such as ethyl alcohol etc. are formed Liquid mixing.It should be noted that peroxide reagent is after the heating of the first heating component 22 in atomization and/or vaporization shape State, thus in disinfection space physical presence be aerosol form mixture.Aerosol is by solid or liquid fine particle point Dissipate and be suspended in the colloidal dispersion system formed in gas medium, also known as gas diffuser system.Its dispersed phase is solid or liquid Fine particle, size are 0.001~100 μm, and decentralized medium is gas.Above-mentioned nitrogenous compound reagent is preferably ammonia.However, Other nitrogenous compound reagents are also it is contemplated that such as short-chain alkyl amine.

It should be noted that the principle of above-mentioned sterilization method is: V class chemical poison and hydrogen peroxide can show selectivity Oxidation reaction and the hydrogen peroxide of selectivity hydrolyze reaction, the presence of ammonia can increase V under peroxide reagent steam condition The decomposition rate of class chemical poison, while reducing the concentration of harmful by-products.

The invention has the benefit that being connected with atomizing module with disinfection space, peroxide reagent is first passed through into atomization Module is converted into atomization and/or vapor state by liquid, is distributed in inside disinfection space, directly sprays and disappears compared to liquid reagent Poison, above-mentioned sterilization method can drive the reagent of atomization and/or vapor state to reach required disinfection space using the flowing of gas, It realizes and carries out disinfection to surface, complicated chamber and/or the gap in disinfection space such as instrument and equipment.The present invention fully considers disinfection The chemical characteristic of reagent, as the surface of instrument and equipment, complexity chamber and/or gap etc. V class are chemical in effective deblocking environment Toxic agent, and efficient, environmental protection.

Step S2- step S4 is repeated, the activity of peroxide reagent and nitrogenous compound reagent can be sufficiently excited, make Disinfection reagent can sufficiently be reacted with V class chemical poison, and Disinfection Effect is more preferable.

Wherein, above-mentioned atomizing module can refer to Fig. 1 and Fig. 2, including spray chamber 1, atomizing component 2 and gas outlet 11, wherein Atomizing component 2 is located in spray chamber 1 and for being atomization and/or vapor state by the agent transforms of liquid；Gas outlet 11 is located at It is connected on 1 ontology of spray chamber and with 1 inner space of spray chamber, so that being converted to the reagent of atomization and/or vapor state can lead to Gas outlet 11 is crossed to be sprayed in disinfection space；The first disinfection mode is provided in Fig. 1 and Fig. 2: by above-mentioned entire atomizing module It is placed in disinfection space 7 and carries out disinfection.

For ease of operation, spray chamber 1 further includes headstock gear 5, also, headstock gear 5 is based on disinfection reagent and is atomized mould The working condition of block is opened and/or is closed

Wherein, the first reagent container in above-mentioned steps S2 be suitable for contains be not easy to volatilize liquid reagent, second Reagent container is suitable for containing the reagent for being easy to volatilize.Atomizing component 2 include Reagent Tube 21 and the first heating component 22, Reagent Tube with The connection of first reagent container, the first heating component 22 are located at the nozzle of 1 inside one end of spray chamber, the first heating close to Reagent Tube 21 Component 22 can convert atomization and/or vapor state by liquid for the reagent that Reagent Tube 21 is discharged.

First heating component 22 and second heating component 25 in above-mentioned steps S1 are all provided with having heaters.The Mixture after atomization is heated to be passed into disinfection space again after preferable reaction temperature by the heater in two heating components 25 It carries out disinfection, reacts more efficient with V class chemical poison.

Wherein, above-mentioned first heating component 22 or electric heater, such as resistance heating, electromagnetic heating.Preferably, Heater 252 in first heating component 22 and the second heating component is that electric heater is adjusted in heating temperature.

It further include Diffusion fan 251 in the second heating component 25, aerosol is in Diffusion fan as optional embodiment It is blasted in disinfection space under the action of 251.Preferably, between Diffusion fan 251 and gas outlet 11, exhaust outlet similarly serves to favor reagent Blast in the second heating component 25 carry out reheating processing come keep suitable temperature after enter disinfection space, be more favorable for The reaction of V class chemical poison.

As optional embodiment, it is connected with control module in atomizing module, includes controller in control module and dissipate Hot-air fan, controller are electrically connected with the first heating component 22 and the second heating component 25.

As optional embodiment, the exit of the first reagent container is provided with reagent pump 23, and reagent pump 23 can be adjusted Section rotates and reverse, and in step s3, the positive work of reagent pump 23, peroxide reagent enters in atomizing module, in step S5 Later, 23 reverse operation of reagent pump, peroxide reagent flow back in the first reagent container.

Further include after step s 5 step S6 referring to Fig. 3 and Fig. 4 as optional embodiment: reaction is completed Aerosol afterwards passes through the remaining reagent processing module being connected with disinfection space and carries out purified treatment.Second is provided in Fig. 3 Kind disinfection mode: above-mentioned entire atomizing module is put and is connected to disinfection space 7, is carried out disinfection to the equipment in disinfection space.

It include filter device 31 and draft fan in remaining reagent processing module referring to Fig. 3 and Fig. 4, filter device 31 Air inlet is connected to disinfection space, is connected to outside the exhaust outlet and disinfection space 7 of filter device, the gas after having reacted is being divulged information Enter filter device under the action of blower.

The air inlet 311 of filter device 31 is connected to disinfection space 7, the exhaust outlet 312 and disinfection space 7 of filter device 31 Outside connection.Preferably, filter device 31 is internally provided with filter screen.Gas inside disinfection space 7 can be by filtering dress Disinfection space 7 is discharged after setting filtering, prevents the secondary pollution to external environment.

In order to realize the automation of entire disinfecting process, as optional embodiment, referring to Fig. 5, in the mist of step S1 Changing in module further includes sensing component 4, and sensing component 4 is electrically connected with the controller, and sensing component includes reagent concentration sensor group 41, temperature sensor group 42 and humidity sensor 43, wherein

Reagent concentration sensor group 41 is located at the inside of atomizing module, for sensing the concentration of reagent in atomizing module,

Temperature sensor group 42 is distributed in the inside of atomizing module, for sensing the environment temperature inside atomizing module；

Humidity sensor 43 is located at the inside of atomizing module, for sensing the ambient humidity in atomizing module.

Wherein mentioned reagent concentration sensor group includes peroxide reagent sensing component and nitrogenous compound reagent sensing Group valence can carry out the detection of concentration to above two reagent respectively.

Scheme still more preferably is that temperature sensor group includes the first temperature sensor and second temperature sensor, Wherein, the first temperature sensor is arranged close to the first heating component 22, and second temperature sensor is located in the second heating component 25, So that the first heating component 22 and the second heating component 25 being capable of the senses based on the first temperature sensor and second temperature sensor Measured value adjusts heating temperature.

As optional embodiment, further include step S7 after step S6: reagent concentration sensor group is to peroxidating The concentration of object reagent and nitrogenous compound reagent is detected, and after the concentration of two kinds of reagents is down to predetermined value, closes residual Reagent processing module and atomizing module, disinfection process terminate.

Preferable scheme is that disinfection room further includes having heat dissipation wind channel 6, cooling fan 61 is set in heat dissipation wind channel also, is dissipated It is not connected between hot-flow flue 6 and disinfection space 7, to place the space in disinfection space 7 with atomization and/or vaporized reagents particle Into in heat dissipation wind channel 6.

In specific embodiment provided by the invention, to sterilize the space that length, width and height are 3m, 27 cubic metres of volume, surface area 54 square metres, 25 DEG C of environment temperature, for relative humidity 50%, above-mentioned sterilization method are as follows:

(1) control switch of opening controller controls program into disinfection；

(2) operating mode is selected by controller, starts V class chemical poison disinfectant program, starts to sterilize；

(3) primary heater is started to work in atomizing module, and secondary heater is started to work；

(4) when the first temperature sensor reaches 160 DEG C of preset temperature, second temperature sensor reaches 70 DEG C of preset temperature, Controller controls reagent pump and works 48 minutes according to positive (about 5g per minute), and peroxide reagent flows into atomizing module；

(5) reagent control pump works 15 minutes according to positive (2g per minute)；

Reagent valve in (6) first reagent containers is closed, and reagent pump stops；

(7) the first heating component, the second heating component are closed in atomizing module；

(8) it stops 30 minutes；

Reagent valve in (9) second reagent containers is opened 5 minutes, is closed later；

(10) primary heater is started to work in atomizing module, and secondary heater is started to work；

(11) when the first temperature sensor reaches 160 DEG C of preset temperature, second temperature sensor reaches 70 DEG C of preset temperature, Controller controls reagent pump and works 48 minutes according to positive (about 5g per minute), and peroxide reagent flows into atomizing module；

(12) reagent control pump works 15 minutes according to positive (2g per minute)；

Reagent valve in (13) first reagent containers is closed, and reagent pump stops；

(14) the first heating component, the second heating component are closed in atomizing module；

(15) it stops 30 minutes；

Reagent valve in (16) second reagent containers is opened 5 minutes, is closed later；

(17) reagent control valve is opened, and reagent control pump is according to reverse operation, and reagent flows out to the first examination in atomizing module Agent container；

(18) reagent pump stops；

(19) draft fan is opened in remaining reagent processing module；

(20) the reagent concentration sensor sample numerical value of the hydrogen peroxide in atomizing module reaches preset value, nitrogenous compound The reagent concentration sensor sample numerical value of reagent reaches preset value, and draft fan is closed, and atomizing module is closed；

(21) cooling fan in the control switch and heat dissipation wind channel of controller is closed, disinfection process terminates.

In the description of this specification, specific features, structure or feature can in any one or more embodiments or It can be combined in any suitable manner in example.

The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any Those familiar with the art in the technical scope disclosed by the present invention, can easily think of the change or the replacement, and should all contain Lid is within protection scope of the present invention.Therefore, protection scope of the present invention should be based on the protection scope of the described claims.

Claims (10)

1. a kind of method for eliminating V class chemical poison in enclosed environment, which comprises the following steps:

S1: equipment to be sterilized being placed in closed disinfection space, by atomizing module be placed in disinfection space or with disinfection it is empty Between be connected to, the first heating component is provided in atomizing module, the exit of atomizing module is provided with the second heating component；

S2: first heating component begins heat to the atomization and/or vapourizing temperature of peroxide reagent, second heating Component begins to warm up and to reaction temperature；

S3: after reaching above-mentioned atomization and/or vapourizing temperature and preferable reaction temperature, the peroxidating that is placed in the first reagent container Object reagent is passed through in the atomizing module, first heating component by the peroxide reagent heating atomization and/or vaporization, The peroxide reagent after atomization and/or vaporization is passed through the disinfection space and stays for some time；

S4: the nitrogenous compound reagent being placed in the second reagent container is passed through to the disinfection space and stays for some time；

S5: it is repeated once step S2-S4 step.

2. the method according to claim 1 for eliminating V class chemical poison in enclosed environment, which is characterized in that in step S1 In first heating component and second heating component on be provided with heater.

3. the method according to claim 2 for eliminating V class chemical poison in enclosed environment, which is characterized in that described second Heating component further includes Diffusion fan, and the reagent is blasted under the action of the Diffusion fan in the disinfection space.

4. the method according to claim 2 for eliminating V class chemical poison in enclosed environment, which is characterized in that the atomization Module is connected with control module, and the control module includes controller and radiator fan, and the controller adds with described first Hot component and second heating component electrical connection.

5. the method according to claim 1 for eliminating V class chemical poison in enclosed environment, which is characterized in that described first The exit of reagent container is provided with reagent pump, and the reagent pump can be adjusted and be rotated and reverse, in step s3, the reagent The positive work of pump, the peroxide reagent enter in the atomizing module, after step s 5, the reversed work of reagent pump Make, the peroxide reagent flows back in first reagent container.

6. the method according to claim 1 for eliminating V class chemical poison in enclosed environment, which is characterized in that in step S5 Later, further include step S6: after the completion of disinfection reactions, opening remaining reagent processing module to the remaining reagent of the disinfection space Carry out purified treatment.

7. according to the method for V class chemical poison in elimination enclosed environment as claimed in claim 6, which is characterized in that the residual examination It include filter device and draft fan in agent processing module, the filter device includes air inlet and air outlet, described logical Under wind fan action, air-flow is discharged from the air inlet through the filter device and from the gas outlet.

8. the method according to claim 4 for eliminating V class chemical poison in enclosed environment, which is characterized in that its feature exists In further including sensing component in the atomizing module described in step S1, the sensing component is electrically connected with the controller, described Sensing component includes reagent concentration sensor group, temperature sensor group and humidity sensor, wherein

The reagent concentration sensor group is located at the inside of the atomizing module, for sensing the dense of reagent in the atomizing module Degree；

The temperature sensor group is located in the inside of the atomizing module, for sensing the corresponding positions inside the atomizing module The temperature set；

The humidity sensor is located at the inside of the atomizing module, for sensing the ambient humidity in the atomizing module.

9. the method according to claim 8 for eliminating V class chemical poison in enclosed environment, which is characterized in that the temperature Sensor group includes the first temperature sensor and second temperature sensor, wherein first temperature sensor is close to described the One heating component arrangement, the second temperature sensor is located in second heating component, so that first heating component It can be adjusted based on the sensing value of first temperature sensor and the second temperature sensor with second heating component Heating temperature.

10. the method according to claim 6 for eliminating V class chemical poison in enclosed environment, which is characterized in that in the step After rapid S6, further include step S7: the reagent concentration sensor group is to the peroxide reagent and the nitrogenous compound The concentration of reagent is detected, and after concentration is down to predetermined value, closes the remaining reagent processing module and the atomizing module, Disinfection process terminates.