CN108383212A - A kind of Full automatic purifying device for manufacturing disinfectant and its application method - Google Patents

Abstract

The invention discloses a kind of Full automatic purifying device for manufacturing disinfectant, including an electrolytic cell, cylindricality setting is enclosed by internal layer annular canister, middle level annular canister, outer annular cylinder and electro bath-lid, is specifically included：Electrolyte solution internal layer access；Deionized water middle level access；Electrolyte solution skin-pass；Helical annular access；Internal layer annular canister amberplex；Middle level annular canister amberplex；Internal layer annular electrode；Middle level annular electrode；Outer annular electrode；Deionized water import；Deionized water exports；One internal layer annular canister import；Internal layer annular canister exports；Outer annular cylinder import；Outer annular cylinder exports.The setting that the Full automatic purifying device for manufacturing disinfectant of the present invention is electrolysed using bilayer, and simplify the structure of electrolytic cell, the amount of the reaction carried out when carrying out ion exchange can be reached by flow velocity to be accurately controlled, to accurately adjust final ion concentration amount.Meet high-precision requirement, and needs quick production requirement immediately.

Description

A kind of Full automatic purifying device for manufacturing disinfectant and its application method

Technical field

The present invention relates to a kind of purifying sterilizing liquid manufacturing device more particularly to a kind of Full automatic purifying device for manufacturing disinfectant And its application method.

Background technology

Largely using the electrolytic cell of double-cylinder type, and it is plate type electrode, low in existing electrolysis water production technology Voltage, low current electrolytic condition under, electrolytic efficiency is low, cannot meet such as high precision instrument cleaning and sterilizing purification work, Because it is unable to control ion concentration in 100ppm hereinafter, although the patent of the present inventor's Publication No. CN1016242227A can Reach the concentration requirement of high precision instrument cleaning, but since it is temporarily unable to reach accurate control at low concentrations in technique System needs a kind of electricity that can reach quick, efficient Exact concentrations adjustment under the high standard that present high precision instrument cleans Solve water making device.

Invention content

The present invention proposes one kind for the solution above problem in the prior art and can quickly produce electrolysis water and reach micro- Control concentration and the Full automatic purifying device for manufacturing disinfectant and its application method that production can be recycled.

The present invention provides a kind of Full automatic purifying device for manufacturing disinfectant first.

To achieve the above object, the present invention uses following technical scheme：

A kind of Full automatic purifying device for manufacturing disinfectant, including

One electrolytic cell, cylindricality setting, by the enclosing of internal layer annular canister, middle level annular canister, outer annular cylinder and electro bath-lid At specifically including：

One electrolyte solution internal layer access, is set in the internal layer annular canister；

One deionized water middle level access, is set between the internal layer annular canister and middle level annular canister；

One electrolyte solution skin-pass is set between the middle level annular canister and outer annular cylinder；

One helical annular access is set in the access of the deionized water middle level, and includes helical barriers, helical form gear Access between plate keeps helical annular of the deionized water between two layers of helical barriers logical to form the helical annular access Road swaps；

One internal layer annular canister amberplex, is set at the stack shell of the internal layer annular canister, and keep apart electrolyte solution Internal layer access and deionized water middle level access；

One middle level annular canister amberplex, is set at the stack shell of the middle level annular canister, and keep apart electrolyte solution Skin-pass and deionized water middle level access；

One internal layer annular electrode is set in the internal layer annular canister；

One middle level annular electrode is set to the centre of deionized water middle level access, and logical through the helical annular Road；

One outer annular electrode is set in the outer annular cylinder；

One deionized water import is set to the corresponding position of the deionized water middle level access of the bottom surface of the electrolytic cell, even Logical deionized water middle level access；

One deionized water exports, and is set to the corresponding position of the deionized water middle level access of the electro bath-lid, is connected to institute State deionized water middle level access；

One internal layer annular canister import is set to the corresponding position of the electrolyte solution internal layer access of the electro bath-lid, connection The electrolyte solution internal layer access；

One internal layer annular canister exports, and is set to the corresponding position of the electrolyte solution internal layer access of the bottom surface of the electrolytic cell, It is connected to the electrolyte solution internal layer access；

One outer annular cylinder import is set to the corresponding position of the electrolyte solution skin-pass of the electro bath-lid, connection The electrolyte solution skin-pass；

One outer annular cylinder exports, and is set to the corresponding position of the electrolyte solution skin-pass of the bottom surface of the electrolytic cell, It is connected to the electrolyte solution skin-pass.

In order to advanced optimize above-mentioned technical proposal, the technical measures that the present invention is taken are：

Preferably, agitating paddle is arranged in the central axis of the electrolytic cell.

It is furthermore preferred that the agitating paddle is connect with electric rotating machine one.

It is furthermore preferred that ring gear is arranged in the annular side of the outer annular cylinder.

It is furthermore preferred that being provided with the electric rotating machine two engaged with the ring gear.

It is furthermore preferred that be provided on the electro bath-lid multiple electrodes terminal respectively with the internal layer annular electrode, middle level Annular electrode is connected with outer annular electrode.

It is furthermore preferred that the Full automatic purifying device for manufacturing disinfectant further includes：

One electrolyte solution bucket is separately connected the internal layer annular canister outlet, the import of internal layer annular canister, outer annular cylinder go out Mouth, outer annular cylinder import；

One electrolyte solution circulating pump is set to the electrolyte solution bucket and the internal layer annular canister import and outer layer ring On the pipeline of shape cylinder import；

One electrolysis water containment drum is separately connected the deionized water import and deionized water outlet；

One electrolysis water-circulating pump, is set on the electrolysis water containment drum and the pipeline of deionized water import；

One deionized water water inlet pipe is connect with the electrolysis water containment drum；

One electrolysis water flow pipe is connect with the electrolysis water containment drum；

One conveying pump is set on the electrolysis water flow pipe.

It is furthermore preferred that further including a water level detecting sensor, it is set in the electrolysis water containment drum.

It is furthermore preferred that being provided with flow control valve on the pipeline being connect with electrolyte solution circulating pump, electrolysis water-circulating pump； It is provided with solenoid valve on deionized water water inlet pipe and electrolysis water flow pipe.

Secondly the present invention provides a kind of application methods of Full automatic purifying device for manufacturing disinfectant.

The application method of above-mentioned Full automatic purifying device for manufacturing disinfectant, includes the following steps：

S1 first deionized water is closed after the designated capabilities that deionized water water inlet pipe is input in electrolysis water containment drum into Water；

S2, which modulates concentration of electrolyte solutions and is transported in electrolyte solution bucket, to be filled；

S3 opens electrolyte solution circulating pump and electrolysis water-circulating pump, conveys deionized water and electrolysis to electrolytic cell respectively Matter；

S4 stops electrolyte solution circulating pump and electrolysis water-circulating pump when reaching specified time or concentration；

S5 opens conveying pump and exports electrolysis water from electrolysis water flow pipe；

Conveying pump is closed after S6 to specified time；

S7 repeats the step of S1-S6.

The present invention is had the following technical effect that compared with prior art using above-mentioned technical proposal：

The setting that the Full automatic purifying device for manufacturing disinfectant of the present invention is electrolysed using bilayer, and simplify electrolysis The middle of layer access in deionized water, the internal layer annular canister ion apart from both sides is arranged in the structure of slot, middle level annular electrode Exchange membrane is identical with the distance of middle level annular canister amberplex, in the manufacture of the electrolysis water of both sides when making manufacture electrolysis water Rate is identical, ensure that in entire access, and the ion concentration for the electrolysis water that final production comes out is consistent.And helical annular access It is to be arranged along the circular path of entire deionized water middle level access, makes the electrolysis water of production in deionized water in layer access Can be to control the rate of exchange of the electrolysis water in access and exchange anti-along screw type water inlet flow channels, such benefit The face domain answered controls deionized water and carries out ion exchange in the fixed space in minimum area in this way, and all is most lifelong The path that the electrolysis water of output is passed through is consistent, and the amount of the reaction carried out when carrying out ion exchange can pass through flow velocity Reach and accurately control, to accurately adjust final ion concentration amount.Meet high-precision requirement, and needs immediately quickly raw Production demand.

Description of the drawings

Fig. 1 is the structural schematic diagram of the Full automatic purifying device for manufacturing disinfectant of a preferred embodiment of the present invention；

Fig. 2 is the structural schematic diagram of the electrolytic cell of a preferred embodiment of the present invention；

Fig. 3 is the side structure schematic diagram of the electrolytic cell of a preferred embodiment of the present invention；

Fig. 4 is the vertical view of the electrolytic cell of a preferred embodiment of the present invention；

Fig. 5 is the faces the AA sectional view of Fig. 4；

Fig. 6 is the structural schematic diagram of the internal layer annular canister of a preferred embodiment of the present invention；

Fig. 7 is the structural schematic diagram of the internal layer annular electrode of a preferred embodiment of the present invention；

Fig. 8 is the inside partial structural diagram of the electrolytic cell of a preferred embodiment of the present invention；

Fig. 9 is the structural schematic diagram of the agitating paddle of a preferred embodiment of the present invention；

Figure 10 is the structural schematic diagram of the helical barriers of a preferred embodiment of the present invention；

Specifically reference numeral is：

1 electrolytic cell；2 electrolyte solution buckets；3 electrolyte solution circulating pumps；4 electrolysis water containment drums；5 electrolysis water-circulating pumps；6 Deionized water water inlet pipe；7 electrolysis water flow pipes；8 conveying pumps；9 water level detecting sensors；10 flow control valves；11 solenoid valves； 101 internal layer annular canisters；102 middle level annular canisters；103 outer annular cylinders；104 electro bath-lids；105 electrolyte solution internal layer accesses；106 Deionized water middle level access；107 electrolyte solution skin-passes；108 helical annular accesses；109 helical barriers；110 inner layer rings Shape cylinder amberplex；111 middle level annular canister amberplexes；112 internal layer annular electrodes；113 middle level annular electrodes；Outside 114 Layer annular electrode；115 deionized water imports；116 deionized waters export；117 internal layer annular canister imports；118 internal layer annular canisters go out Mouthful；119 outer annular cylinder imports；120 outer annular cylinders export；121 agitating paddles；122 electric rotating machines one；123 ring gears； 124 electric rotating machines two；125 electrode terminals.

Specific implementation mode

The present invention provides a kind of Full automatic purifying device for manufacturing disinfectant and its application methods.

Fig. 1 is the structural schematic diagram of the Full automatic purifying device for manufacturing disinfectant of a preferred embodiment of the present invention；Fig. 2 For the structural schematic diagram of the electrolytic cell of a preferred embodiment of the present invention；Fig. 3 is the electricity of a preferred embodiment of the present invention Solve the side structure schematic diagram of slot；Fig. 4 is the vertical view of the electrolytic cell of a preferred embodiment of the present invention；Fig. 5 is the AA of Fig. 4 Face sectional view；Fig. 6 is the structural schematic diagram of the internal layer annular canister of a preferred embodiment of the present invention；Fig. 6 is also not necessarily limited to internal layer Annular canister can also be middle level annular canister and outer annular cylinder；Fig. 7 is the internal layer annular electro of a preferred embodiment of the present invention The structural schematic diagram of pole；Fig. 7 is also not necessarily limited to internal layer annular electrode, can also be middle level annular electrode and outer annular electrode；Fig. 8 For the inside partial structural diagram of the electrolytic cell of a preferred embodiment of the present invention；Described Fig. 8 is to take away electro bath-lid Afterwards, then by agitating paddle and helical barriers the partial schematic diagram got rid of；Fig. 9 is the stirring of a preferred embodiment of the present invention The structural schematic diagram of paddle；Figure 10 is the structural schematic diagram of the helical barriers of a preferred embodiment of the present invention.

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation describes, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

It should be noted that in the absence of conflict, the feature in embodiment and embodiment in the present invention can phase Mutually combination.

As shown in figs. 2-10, a kind of Full automatic purifying device for manufacturing disinfectant, including：

One electrolytic cell 1, cylindricality setting, by internal layer annular canister 101, middle level annular canister 102, outer annular cylinder 103 and electrolysis Capping 104 encloses, and specifically includes：

One electrolyte solution internal layer access 105, is set in the internal layer annular canister 101；

One deionized water middle level access 106, is set between the internal layer annular canister 101 and middle level annular canister 102；

One electrolyte solution skin-pass 107 is set between the middle level annular canister 102 and outer annular cylinder 103；

One helical annular access 108 is set in deionized water middle level access 106, and includes helical barriers 109, the access between helical barriers 109 makes deionized water along two layers of helical form to form the helical annular access 108 Helical annular access 108 between baffle 109 swaps；

One internal layer annular canister amberplex 110, is set at the stack shell of the internal layer annular canister 101, and keep apart electricity Solve matter liquid internal layer access 105 and deionized water middle level access 106；

One middle level annular canister amberplex 111, is set at the stack shell of the middle level annular canister 102, and keep apart electricity Solve matter liquid skin-pass 107 and deionized water middle level access 106；

One internal layer annular electrode 112 is set in the internal layer annular canister 101；

One middle level annular electrode 113 is set to the centre of deionized water middle level access 106, and runs through the spiral Annular access 108；

One outer annular electrode 114 is set in the outer annular cylinder 103；

One deionized water import 115 is set to the correspondence of the deionized water middle level access 106 of the bottom surface of the electrolytic cell 1 Position is connected to deionized water middle level access 106；

One deionized water outlet 116, is set to the correspondence position of the deionized water middle level access 106 of the electro bath-lid 104 It sets, is connected to deionized water middle level access 106；

One internal layer annular canister import 117 is set to the correspondence of the electrolyte solution internal layer access 105 of the electro bath-lid 104 Position is connected to the electrolyte solution internal layer access 105；

One internal layer annular canister outlet 118, is set to pair of the electrolyte solution internal layer access 105 of the bottom surface of the electrolytic cell 1 Position is answered, the electrolyte solution internal layer access 105 is connected to；

One outer annular cylinder import 119, is set to the correspondence of the electrolyte solution skin-pass 107 of the electro bath-lid 104 Position is connected to the electrolyte solution skin-pass 107；

One outer annular cylinder outlet 120, is set to pair of the electrolyte solution skin-pass 107 of the bottom surface of the electrolytic cell 1 Position is answered, the electrolyte solution skin-pass 107 is connected to.

The electrolytic cell 1 is provided with internal layer annular canister 101, middle level annular canister 102 and the outer annular of shellring ring set conjunction Cylinder 103；The inner space that the internal layer annular canister 101 is enclosed is electrolyte solution internal layer access 105, the internal layer annular canister 101 and the space of intermediate annular interlayer that is enclosed of middle level annular canister 102 be deionized water middle level access 106, the middle level The space for the outer annular interlayer that annular canister 102 and outer annular cylinder 103 are enclosed is electrolyte solution skin-pass 107.

The medial surface of internal layer annular canister 101 is provided with internal layer annular electrode 112；In internal layer annular canister 101 and middle level ring Middle level annular electrode 113 is provided between shape cylinder 102, the interlayer of layer access in deionized water is arranged in middle level annular electrode 113 Centre position, it is identical as the spacing of internal layer annular canister 101 and middle level annular canister 102；In outer layer annular canister 103 and middle level annular It is provided with outer annular electrode 114 in space between cylinder 102, between the outer annular electrode 114 and middle level annular electrode 113 Distance between middle level annular electrode 113 and internal layer annular electrode 112 at a distance from be to maintain it is consistent, with ensure production electrolysis water When both sides reaction speed be roughly the same.Preferably, the internal layer annular electrode 112, middle level annular electrode 113 and outer layer It is provided with through-hole on the annular electro pole-face of annular electrode 114, so that solution passes through.

Internal layer annular canister amberplex 110 is provided on the stack shell of internal layer annular canister 101；The cylinder of middle level annular canister 102 It is provided with middle level annular canister amberplex 111 with it；Internal layer annular canister amberplex 110 and middle level annular canister ion exchange Film 111 keeps certain spacing with internal layer annular electrode 112, middle level annular electrode 113, outer annular electrode 114.

From the point of view of depression angle, it is disposed with internal layer annular electrode 112, internal layer annular canister 101, middle level ring from inside to outside Shape electrode 113, middle level annular canister 102, outer annular electrode 114, outer annular cylinder 103.

The electrolyte solution internal layer access 105, deionized water middle level access 106, electrolyte solution skin-pass 107 are phase To independent closed space, it is independent distribution channel to each other, is not connected to.

Helical annular access 108 in deionized water middle level access 106 be spirally baffle 109 in deionized water It rotates and extends along deionized water middle level access 106 towards other end from one end of electrolytic cell 1 in middle level access 106, make it A helical annular access 108 is formed in layer access 106 in deionized water, makes flow from deionized water import 115 along helical ring Shape access 108 flow to deionized water outlet 116, carries out ion exchange in the process, generates electrolytic aqueous solution.

Since deionized water is after the inflow of deionized water import 115, in deionized water along helical annular in layer access 106 Access 108 flows, and is separated into from middle section by middle level annular electrode 113 after being flowed into deionized water middle level access 106 Two bursts of flows of left and right, respectively along helical annular access 108 internal layer annular canister amberplex 110 or middle level annular canister from Ion exchange is carried out on proton exchange 111, due to internal layer annular canister amberplex 110 and middle level annular canister amberplex 111 is equal at a distance from the middle level annular electrode 113, therefore its reaction speed is essentially identical, and due to reaction when be to pass through Flowing in relatively small space carries out ion exchange, not will produce excessive concentration difference in its whole amount of solution Different, because it reacts side and non-reactive space spacing is little, flow direction is very fixed spiral flow direction, can't gone The situation of reflux or turbulent flow is caused in ionized water middle level access 106, and very steady, traffic organising degree is flowed in whole process Height keeps the reaction density of its entire flow very consistent, as long as passing through coutroi velocity, you can the ion for being precisely controlled solution is dense Degree, realizes high-precision production purpose.

Further, in a kind of preferred embodiment, agitating paddle 121 is arranged in the central axis of the electrolytic cell 1.

Further, in a kind of preferred embodiment, the agitating paddle 121 is connect with electric rotating machine 1.

The agitating paddle 121 is arranged at the axle center of electrolytic cell 1, using spiral paddle or flabellum, preferably spiral Formula.The axis connection of the axis and agitating paddle 121 of the electric rotating machine 1 makes it be rotated around the axle center of electrolytic cell 1.Due to rotation The connection type of motor 1 and agitating paddle 121 is common axis connection, and it is not described here in detail.One end of agitating paddle 121 stretches out in The surface of the electro bath-lid 104, and electric rotating machine 1 is connected on the outside of the upper surface of electro bath-lid 104.

Further, in a kind of preferred embodiment, annular is set in the annular side of the outer annular cylinder 103 Gear 123.

Further, in a kind of preferred embodiment, it is provided with the electric rotating machine engaged with the ring gear 123 2 124.

The ring gear 123 is arranged on the lateral surface of outer layer annular canister 103, protrudes from the outer annular cylinder 103 Outer surface, annular is centered around the lateral surface of outer annular cylinder 103.Corresponding annular is set on the electric rotating machine 2 124 Meshing gear be adapted to ring gear, enable electric rotating machine 2 124 rotate when drive outer annular cylinder 103 rotate.

The purpose that agitating paddle 121 and ring gear 123 is arranged is to be, due to whole machine concentration required precision compared with Height, therefore in conveying electrolysis water on a large scale, when working long hours, under the action of the concentration polarization of film surface, can cause Usage time one is grown, and concentration can cause small deviation, in general electrolytic cell in use, the influence of this concentration will not be too tight It wants, but in the environment of high-precision requirement, this concentration deviation can cause the reduction of precision, influence whether entirely to clean Journey, it is therefore desirable to which the interim method using increased water flow impact force, the impact force that increased water flow is washed away make the concentration difference of film surface Polarization influences to eliminate.Outer annular cylinder 103 and agitating paddle 121 and the junction of electrolytic cell 1 are provided with rolling bearing, can phase Electrolytic cell 1 is rotated.

Further, in a kind of preferred embodiment, multiple electrodes terminal is provided on the electro bath-lid 104 125 connect with the internal layer annular electrode 112, middle level annular electrode 113 and outer annular electrode 114 respectively.

As shown in Figure 1, in a kind of preferred embodiment, the Full automatic purifying device for manufacturing disinfectant further includes：

One electrolyte solution bucket 2 is separately connected the internal layer annular canister outlet 118, internal layer annular canister import 117, outer layer Annular canister outlet 120, outer annular cylinder import 119；

One electrolyte solution circulating pump 3, be set to the electrolyte solution bucket 2 and the internal layer annular canister import 117 and On the pipeline of outer annular cylinder import 119；

One electrolysis water containment drum 4 is separately connected the deionized water import 115 and deionized water outlet 116；

One electrolysis water-circulating pump 5, is set on the electrolysis water containment drum 4 and the pipeline of deionized water import 115；

One deionized water water inlet pipe 6 is connect with the electrolysis water containment drum 4；

One electrolysis water flow pipe 7 is connect with the electrolysis water containment drum 4；

One conveying pump 8 is set on the electrolysis water flow pipe 7.

The electrolyte solution bucket 2 connects internal layer annular canister import 117 and outer annular cylinder import 119, the inner layer ring Shape cylinder import 117 and outer annular cylinder import 119 are preferably separately connected the branch line formed from the same pipeline；It is described Electrolyte solution bucket 2 connects internal layer annular canister outlet 118 and outer annular cylinder outlet 120, and the internal layer annular canister exports 118 Hes Outer annular cylinder outlet 120 is preferably separately connected the branch line formed from the same pipeline；I.e. electrolyte solution internal layer is logical Electrolyte solution used in road 105 and electrolyte solution skin-pass 107 is same electrolyte solution, to ensure that concentration is consistent, The ion concentration of electrolysis is consistent.

The electrolyte solution bucket 2 is preferably provided with concentration detector and detects its solution concentration so that it is dense at work Degree supplements new raw material and continues to normal reaction work when having large change.Preferably, connection internal layer annular canister exports 118 Hes The upper surface of electrolyte solution bucket 2 described in the piping connection of outer annular cylinder outlet 120, and connect internal layer annular canister import 117 The bottom surface side of electrolyte solution bucket 2 described in piping connection with outer annular cylinder import 119.

Piping connection has deionized water import 115 and deionized water outlet 116 to electrolysis water containment drum 4 at work；And Also piping connection deionized water water inlet pipe 6 and electrolysis water flow pipe 7；In entire reaction process, the solution in electrolysis water containment drum 4 Electrolytic aqueous solution is gradually become from deionized water, it is preferred that the connecting line and electrolysis water of the deionized water import 115 send water Pipe 7 is connected to the bottom position of the side of the electrolysis water containment drum 4；Preferably, the deionized water outlet 116 is connected Piping connection in the upper surface of the electrolysis water containment drum 4；Preferably, the deionized water water inlet pipe 6 is inserted into the electricity The basal surface position for solving water containment drum 4 facilitates water inlet and measures height of water level.

Further, in a kind of preferred embodiment, further include a water level detecting sensor 9, be set to the electricity It solves in water containment drum 4.

Further, it in a kind of preferred embodiment, is connect with electrolyte solution circulating pump 3, electrolysis water-circulating pump 5 Pipeline on be provided with flow control valve 10；It is provided with solenoid valve 11 on deionized water water inlet pipe 6 and electrolysis water flow pipe 7.

The electrolyte solution circulating pump 3, electrolysis water-circulating pump 5, conveying pump 8, flow control valve 10, solenoid valve 11 and water Position monitoring sensor 9 is preferably connected in a control system, to realize automation control.Preferably, it is also associated with concentration inspection Instrument is surveyed, can also individually be configured, the operation that instrument is switched by manual adjustment.

Preferably, it can be used alone electrolytic cell 1 when in use and coordinate electrolyte solution bucket 2, electrolyte solution circulating pump 3 It works, deionized water water inlet pipe 6 can be directly connected to electrolytic cell 1, directly produce electrolysis water, it is easy to operate in this way, But when needing process of refinement, cycle manufacture is more accurate.

The present invention also provides a kind of application methods of Full automatic purifying device for manufacturing disinfectant.

The application method of above-mentioned Full automatic purifying device for manufacturing disinfectant, includes the following steps：

S1 first closes deionized water after the designated capabilities that deionized water water inlet pipe 6 is input in electrolysis water containment drum 4 Water inlet；

S2, which modulates concentration of electrolyte solutions and is transported in electrolyte solution bucket 2, to be filled；

S3 opens electrolyte solution circulating pump 3 and conveys deionized water to electrolytic cell 1；Electrolysis water-circulating pump 5 is opened to electrolysis Slot 1 conveys electrolyte solution；

S4 stops electrolyte solution circulating pump 3 and electrolysis water-circulating pump 5 when reaching specified time or concentration；

S5 opens conveying pump 8 and exports electrolysis water from electrolysis water flow pipe 7；

Conveying pump 8 is closed after S6 to specified time；

S7 repeats the step of S1-S6 cycle manufacture electrolysis water.

In a kind of preferred embodiment, the electrolyte solution circulating pump 3, electrolysis water-circulating pump 5, conveying pump 8, water level Monitoring sensor 9, flow control valve 10, solenoid valve 11 are connect with control system；Realize that automatic control manufactures with this, tool Body flow is：

S1 opens the solenoid valve 11 on deionized water water inlet pipe 6, and water is made to enter electrolysis water containment drum 4, and water level monitoring passes Sensor 9 monitors water level, and after water level reaches setting value, water level detecting sensor 9 transmits a signal to control system, control system control Solenoid valve 11 processed is closed；

S2, which modulates concentration of electrolyte solutions and is transported in electrolyte solution bucket 2, to be filled；

S3 control systems control electrolyte solution circulating pump 3 starts to convey deionized water to electrolytic cell 1；And start electrolysis water Circulating pump 5 conveys electrolyte solution to electrolytic cell 1；

Control system stops electrolyte solution circulating pump 3 and electrolysis water-circulating pump 5 when S4 reaches specified time or concentration；

S5 control systems open conveying pump 8 and export electrolysis water from electrolysis water flow pipe 7；

S6 water level detecting sensors 9 send a signal to control system after monitoring specified water level, and control system control is closed Conveying pump 8；

S7 repeats S1-S6 steps.

In conclusion setting of the Full automatic purifying device for manufacturing disinfectant of the present invention using bilayer electrolysis, and The structure of electrolytic cell is simplified, the middle of layer access in deionized water, the internal layer apart from both sides is arranged in middle level annular electrode Annular canister amberplex is identical with the distance of middle level annular canister amberplex, in the electricity of both sides when making manufacture electrolysis water The manufacture rate of Xie Shui is identical, ensure that in entire access, and the ion concentration for the electrolysis water that final production comes out is consistent.And spiral shell Revolving annular access is arranged along the circular path of entire deionized water middle level access, makes the electrolysis water of production in deionized water Can be the speed for controlling exchange of the electrolysis water in access along screw type water inlet flow channels, such benefit in the access of middle level The face domain of rate and exchange reaction controls deionized water and carries out ion exchange, institute in the fixed space in minimum area in this way The path that the electrolysis water that some final productions go out is passed through is consistent, the amount energy of the reaction carried out when carrying out ion exchange Enough reached by flow velocity and accurately controlled, to accurately adjust final ion concentration amount.Meet high-precision requirement, and needs are When quick production requirement.

In the description of this specification, reference term " preferred embodiment ", " some embodiments ", " example ", " tool The description of body example " or " some examples " etc. mean specific features described in conjunction with this embodiment or example, structure, material or Person's feature is included at least one embodiment or example of the invention.In the present specification, to the schematic table of above-mentioned term It states and may not refer to the same embodiment or example.Moreover, particular features, structures, materials, or characteristics described can be It can be combined in any suitable manner in any one or more embodiments or example.

Specific embodiments of the present invention are described in detail above, but it is intended only as example, the present invention is simultaneously unlimited It is formed on particular embodiments described above.To those skilled in the art, it is any to the equivalent modifications that carry out of the present invention and It substitutes also all among scope of the invention.Therefore, without departing from the spirit and scope of the invention made by impartial conversion and Modification, all should be contained within the scope of the invention.

Claims (10)

1. a kind of Full automatic purifying device for manufacturing disinfectant, it is characterised in that：Including

One electrolytic cell, cylindricality setting, is enclosed by internal layer annular canister, middle level annular canister, outer annular cylinder and electro bath-lid, is had Body includes：

One electrolyte solution internal layer access, is set in the internal layer annular canister；

One deionized water middle level access, is set between the internal layer annular canister and middle level annular canister；

One electrolyte solution skin-pass is set between the middle level annular canister and outer annular cylinder；

One helical annular access is set in the access of the deionized water middle level, and includes helical barriers, between helical barriers Access to form the helical annular access, make helical annular access of the deionized water between two layers of helical barriers into Row exchanges；

One internal layer annular canister amberplex, is set at the stack shell of the internal layer annular canister, and keep apart electrolyte solution internal layer Access and deionized water middle level access；

One middle level annular canister amberplex, is set at the stack shell of the middle level annular canister, and keep apart electrolyte solution outer layer Access and deionized water middle level access；

One internal layer annular electrode is set in the internal layer annular canister；

One middle level annular electrode is set to the centre of deionized water middle level access, and runs through the helical annular access；

One outer annular electrode is set in the outer annular cylinder；

One deionized water import is set to the corresponding position of the deionized water middle level access of the bottom surface of the electrolytic cell, is connected to institute State deionized water middle level access；

One deionized water exports, and is set to the corresponding position of the deionized water middle level access of the electro bath-lid, is gone described in connection Ionized water middle level access；

One internal layer annular canister import, is set to the corresponding position of the electrolyte solution internal layer access of the electro bath-lid, described in connection Electrolyte solution internal layer access；

One internal layer annular canister exports, and is set to the corresponding position of the electrolyte solution internal layer access of the bottom surface of the electrolytic cell, is connected to The electrolyte solution internal layer access；

One outer annular cylinder import, is set to the corresponding position of the electrolyte solution skin-pass of the electro bath-lid, described in connection Electrolyte solution skin-pass；

One outer annular cylinder exports, and is set to the corresponding position of the electrolyte solution skin-pass of the bottom surface of the electrolytic cell, is connected to The electrolyte solution skin-pass.

2. Full automatic purifying device for manufacturing disinfectant according to claim 1, it is characterised in that：The center of the electrolytic cell Agitating paddle is set at axis.

3. Full automatic purifying device for manufacturing disinfectant according to claim 2, it is characterised in that：The agitating paddle and rotation Motor one connects.

4. Full automatic purifying device for manufacturing disinfectant according to claim 3, it is characterised in that：The outer annular cylinder Ring gear is set in annular side.

5. Full automatic purifying device for manufacturing disinfectant according to claim 4, it is characterised in that：It is provided with and the annular The electric rotating machine two of gear engagement.

6. Full automatic purifying device for manufacturing disinfectant according to claim 5, it is characterised in that：It is set on the electro bath-lid Multiple electrodes terminal is equipped with to connect with the internal layer annular electrode, middle level annular electrode and outer annular electrode respectively.

7. Full automatic purifying device for manufacturing disinfectant according to claim 6, it is characterised in that：The Full automatic purifying disappears Venom manufacturing device further includes：

One electrolyte solution bucket, be separately connected the internal layer annular canister outlet, the import of internal layer annular canister, outer annular cylinder outlet, Outer annular cylinder import；

One electrolyte solution circulating pump is set to the electrolyte solution bucket and the internal layer annular canister import and outer annular cylinder On the pipeline of import；

One electrolysis water containment drum is separately connected the deionized water import and deionized water outlet；

One electrolysis water-circulating pump, is set on the electrolysis water containment drum and the pipeline of deionized water import；

One deionized water water inlet pipe is connect with the electrolysis water containment drum；

One electrolysis water flow pipe is connect with the electrolysis water containment drum；

One conveying pump is set on the electrolysis water flow pipe.

8. Full automatic purifying device for manufacturing disinfectant according to claim 7, it is characterised in that：It further include a water level monitoring Sensor is set in the electrolysis water containment drum.

9. Full automatic purifying device for manufacturing disinfectant according to claim 8, it is characterised in that：It is recycled with electrolyte solution It is provided with flow control valve on the pipeline that pump, electrolysis water-circulating pump connect；It is set on deionized water water inlet pipe and electrolysis water flow pipe It is equipped with solenoid valve.

10. according to the application method of claim 7-9 any one of them Full automatic purifying device for manufacturing disinfectant, feature exists In：Include the following steps：

Deionized water is first closed water inlet by S1 after the designated capabilities that deionized water water inlet pipe is input in electrolysis water containment drum；

S2, which modulates concentration of electrolyte solutions and is transported in electrolyte solution bucket, to be filled；

S3 opens electrolyte solution circulating pump and electrolysis water-circulating pump, conveys deionized water and electrolyte to electrolytic cell respectively；

S4 stops electrolyte solution circulating pump and electrolysis water-circulating pump when reaching specified time or concentration；

S5 opens conveying pump and exports electrolysis water from electrolysis water flow pipe；

Conveying pump is closed after S6 to specified time；

S7 repeats the step of S1-S6.