CN105084472A - Electric water purification method and electric water purification apparatus - Google Patents

Abstract

The invention discloses an electric water purification method and an electric water purification apparatus. The electric water purification method comprises the following steps: a TDS detection sensor detects the practical TDS value of water treated by an electric water purification module; a control module receives the practical TDS value; the control module compares the received practical TDS value with a first TDS value preset in the control module in an ion adsorption process, outputs a first control signal to the electric water purification module and/or outputs a second control signal to a flow adjusting module according to a comparison result; and the electric water purification module adjusts a voltage output to a position between two electrodes of the electric water purification module according to the first control signal, and/or the flow adjusting module adjusts the flow of raw water flowing into the electric water purification module according to the second control signal in order to adjust the practical TDS value of the water treated by the electric water purification module to the first TDS value preset in the control module The electric water purification method and the electric water purification apparatus realize a completely intelligent water purification process, and allow purified water with the required TDS value to be produced.

Description

Electricity process for purifying water and electric purifier

Technical field

The present invention relates to electric water purification field, particularly relate to a kind of electric process for purifying water and electric purifier.

Background technology

The use procedure of electricity water purification module water purification comprises adsorption and desorption two processes, and electrode, by adsorbed ion, reaches purifying water effect, carries out electrode pole subsequently, got off by the ion desorption of absorption, and two process circulations repeatedly.In whole process, flow rate of water flow, voltage swing, adsorption time and desorption time, directly have influence on ratio of desalinization and the life-span of electric water purification module.

Generally speaking, the room research by experiment of flow rate of water flow, voltage swing, adsorption time and desorption time, after necessarily screening, is fixed on parameter among automatically controlled program, carries out the application of direct drinking water product ommercialization.But, under total dissolved solidss (TotalDissolvedSolids, the TDS) condition of different raw water quality, following drawback can be there is in so application mode:

1, when former water TDS is too high, selects fixing flow rate of water flow too fast, ratio of desalinization can be caused on the low side; And former water TDS too low time, select fixing flow rate of water flow excessively slow, performance can be caused superfluous, ratio of desalinization is too high, and in water, contained ion is low, drinks to be unfavorable for healthy, and flow rate of water flow is too low, is also not suitable for commercialization and applies.

2, adsorption time is fixed, and when electrode adsorption capacity reaches capacity, and does not arrive the adsorption time of setting, and electrode can not pole, but now electrode cannot adsorb again, and now water outlet TDS can be more and more higher, and effluent quality is deteriorated;

Desorption time is fixed, after the desorption time of setting arrives, electrode carries out down pole at once, start to enter absorption phase, but now ion is not yet complete gets off from desorption electrode, thus residues among electrode, have influence on the loading capacity in next adsorption process, in the course of time, absorption property can be caused worse and worse, the electric water purification module lost of life.

3, when voltage is inadequate, the ion in the water of electric water purification module cannot fully be adsorbed, thus ratio of desalinization is on the low side; And during voltage surplus, water electrolysis can be produced hydrogen and oxygen by electric energy, gas is full of at electric water purification module inner, affects the contact of water and battery lead plate, makes internal system pressure become large, stability and deterioration of safety.

Foregoing, only for auxiliary understanding technical scheme of the present invention, does not represent and admits that foregoing is prior art.

Summary of the invention

Main purpose of the present invention is to provide a kind of electric process for purifying water, is intended to overcome the drawback existed when using existing electric water purification module water purification, realizes Water treatment full intellectualized, and the water purification of the obtained TDS value needed, improves the water quality of water purification.

Another object of the present invention is to provide a kind of electric purifier, be intended to the drawback overcoming existing electric water purification module existence, realize Water treatment full intellectualized, the water purification of the obtained TDS value needed, improves the water quality of water purification.

For achieving the above object, the invention provides a kind of electric process for purifying water, comprising:

TDS detecting sensor detects the actual TDS value by the water outlet after electric water purification module process;

Control module receives described actual TDS value;

In ionic adsorption process, control module by the actual TDS value received and described control module preset a TDS value compare, and according to comparative result export the first control signal give electric water purification module and/or output the second control signal to Flow-rate adjustment module;

Electricity water purification module according to described first control signal regulation output to described electric water purification module two electrodes between voltage, and/or described Flow-rate adjustment module regulates the flow of the former water flowing into described electric water purification module according to described second control signal, the actual TDS value of the water outlet after electric water purification module process to be adjusted to the TDS value preset in described control module.

Preferably, when the actual TDS value received is lower than the TDS value preset in described control module:

The first control signal that control module exports is the voltage reducing to output between two electrodes of described electric water purification module, and electric water purification module turns down the voltage between two electrodes outputting to described electric water purification module according to described first control signal;

The second control signal that control module exports is the flow increasing the former water flowing into described electric water purification module; Described Flow-rate adjustment module tunes up the flow of the former water flowing into described electric water purification module according to described second control signal;

When the actual TDS value received is higher than the TDS value preset in described control module:

The first control signal that control module exports is increase the voltage between two electrodes outputting to described electric water purification module, and electric water purification module heightens the voltage between two electrodes outputting to described electric water purification module according to described first control signal;

The second control signal that control module exports is the flow reducing the former water flowing into described electric water purification module; Described Flow-rate adjustment module turns the flow of the former water flowing into described electric water purification module down according to described second control signal.

Preferably, in ion desorption process, the 2nd TDS value preset in the actual TDS value received and described control module compares by control module, when the actual TDS value received is less than or equal to the 2nd TDS value preset in described control module, control module export the 3rd control signal give electric water purification module, described electric water purification module according to described 3rd control signal by its two electrodes pole.

Preferably, before the step that described TDS detecting sensor detects by the actual TDS value of the water outlet after electric water purification module process, also comprise:

Flowed into the uninterrupted in described electric water purification module by described Flow-rate adjustment module setting, in ionic adsorption process, the flow flowing into the former water in described electric water purification module remains unchanged.

The present invention further provides a kind of electric purifier, comprising:

Electricity water purification module, for adsorbing ion in former water and desorption adsorbs saturated ion;

TDS detecting sensor, for the water outlet after detecting described electric water purification module process actual TDS value and described actual TDS value feedback is gone out;

Flow-rate adjustment module, for providing former water to be clean for described electric water purification module and controlling the flow of former water; And

Control module, with described TDS detection module, described electric water purification module and the electrical connection of described Flow-rate adjustment module, described control module is preset with a TDS value, described control module is for receiving described actual TDS value, the actual TDS value received and a described TDS value compare by described control module, and export first according to comparative result and control signal to voltage between two electrodes that described electric water purification module regulates and controls described electric water purification module and adsorption time, and/or export the flow that second controls signal to the former water that described Flow-rate adjustment module regulates, the actual TDS value of the water outlet after described electric water purification module process to be adjusted to the TDS value preset in described control module.

Preferably, described control module is also preset with the 2nd TDS value, after adsorption time reaches, described electric water purification module enters ion desorption process, the actual TDS value received and described 2nd TDS value compare by described control module, when the actual TDS value received is less than or equal to the 2nd TDS value preset in described control module, control module exports the 3rd control signal to electric water purification module, described electric water purification module according to described 3rd control signal by its two electrodes pole.

Preferably, described control module comprises:

Power subsystem, for providing power supply for the modules of described electric purifier;

Input block, is electrically connected with described power subsystem, for inputting a described TDS value and described 2nd TDS value;

Display unit, is electrically connected with described power subsystem and described input block, for showing described actual TDS value and a described TDS value and described 2nd TDS value; And

Control unit, is electrically connected with described power subsystem, described input block and described display unit, for installing automatically controlled program.

Preferably, described input block is touch-screen input interface, input through keyboard interface or TDS value gear adjusting knob.

Electric process for purifying water provided by the invention, only need set a TDS value, and detect the actual TDS value of the water outlet after described electric water purification module process, according to this actual TDS value and a described TDS value, described control module constantly regulate described electric water purification module and described Flow-rate adjustment module thus the actual TDS value of constantly regulation and control water outlet until reach a TDS value of setting, and then achieve the full intellectualized of Water treatment, and no matter raw water quality is how, user only needs the TDS value inputting setting, described electric water purification module auto-control under the control of described control module, meet consumers' demand, thus eliminate the problem that described electric water purification module performance is inadequate or performance is superfluous, improve the water quality of water purification simultaneously.Electric purifier provided by the invention, for described electric process for purifying water, achieves the full intellectualized of Water treatment, the water purification of the obtained TDS value needed.

Accompanying drawing explanation

Fig. 1 is the schematic flow sheet of an embodiment of the present invention's electricity process for purifying water;

Fig. 2 is the structural representation of an embodiment of the present invention's electricity purifier;

Fig. 3 is the high-level schematic functional block diagram of the control module of electric purifier in Fig. 2.

The realization of the object of the invention, functional characteristics and advantage will in conjunction with the embodiments, are described further with reference to accompanying drawing.

Embodiment

Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

The invention provides a kind of electric process for purifying water, with reference to Fig. 1 composition graphs 2,3, in one embodiment, this electric process for purifying water comprises:

S1, TDS detecting sensor 3 detects the actual TDS value of the water outlet after being processed by electric water purification module 2;

S2, control module 4 receive described actual TDS value;

S3, in ionic adsorption process, the TDS value preset in the actual TDS value received and described control module 4 compares by control module 4, and exports the first control signal to electric water purification module 2 and/or output the second control signal to Flow-rate adjustment module 1 according to comparative result;

S4, electric water purification module 2 according to described first control signal regulation output to described electric water purification module 2 two electrodes 5 between voltage, and/or described Flow-rate adjustment module 1 regulates according to described second control signal the flow of former water flowing into described electric water purification module 2, be adjusted to a TDS value default in described control module 4 with the actual TDS value of the water outlet after being processed by electric water purification module 2.

Described electric process for purifying water only need set a described TDS value, and according to the actual TDS value that the water outlet after detecting described electric water purification module 2 process obtains, thus described control module 4 constantly regulates described electric water purification module 2 and described Flow-rate adjustment module 1 and then the described actual TDS value of continuous regulation and control until reach a TDS value of setting, achieve the full intellectualized of Water treatment, and user only needs the TDS value inputting setting, no matter raw water quality how, described electric water purification module 2 auto-control, meet consumers' demand, thus eliminate the problem that described electric water purification module 2 performance is inadequate or performance is superfluous, improve the water quality of water purification simultaneously.

In the present embodiment, when described electric water purification module 2 is in adsorption process, when the actual TDS value received is lower than the TDS value preset in described control module 4:

The first control signal that control module 4 exports is the voltage reducing to output between two electrodes 5 of described electric water purification module 2, and electric water purification module 2 turns down the voltage between two electrodes 5 outputting to described electric water purification module 2 according to described first control signal;

The second control signal that control module 4 exports is the flow increasing the former water flowing into described electric water purification module 2; Described Flow-rate adjustment module 1 tunes up the flow of the former water flowing into described electric water purification module 2 according to described second control signal;

When the actual TDS value received is higher than the TDS value preset in described control module 4:

The first control signal that control module 4 exports is increase the voltage between two electrodes 5 outputting to described electric water purification module 2, and electric water purification module 2 heightens the voltage between two electrodes 5 outputting to described electric water purification module 2 according to described first control signal;

The second control signal that control module 4 exports is the flow reducing the former water flowing into described electric water purification module 2; Described Flow-rate adjustment module 1 turns the flow of the former water flowing into described electric water purification module 2 down according to described second control signal.

When described adsorption process completes, described electric water purification module 2 enters in ion desorption process, the 2nd TDS value preset in the actual TDS value received and described control module 4 compares by control module 4, when the actual TDS value received is less than or equal to the 2nd TDS value preset in described control module 4, control module 4 exports the 3rd control signal to electric water purification module 2, described electric water purification module 2 by its two electrode 5 pole, reenters adsorption process according to described 3rd control signal.

In the present embodiment, before described TDS detecting sensor 3 detects the step of actual TDS value of the water outlet after being processed by electric water purification module 2, also comprise:

Set the uninterrupted flowed in described electric water purification module 2 by described Flow-rate adjustment module 1, in ionic adsorption process, the flow flowing into the former water in described electric water purification module 2 remains unchanged.Because described uninterrupted is fixing, by regulating the voltage of described electric water purification module 2 just can realize in whole Water treatment, parameter is made to regulate and control to simplify.

The present invention also provides a kind of electric purifier, and described electric purifier is used in above-mentioned electric process for purifying water, and with reference to Fig. 2,3 also composition graphs 1, in one embodiment, described electric purifier comprises:

Electricity water purification module 2, for adsorbing ion in former water and desorption adsorbs saturated ion, comprise two electrodes 5, described two electrodes 5 are for adsorbing the ion of absorption on electrode 5 described in ion in former water and desorption, namely the working process of described electric water purification module 2 comprises adsorption process and desorption process: when the ionic adsorption of described two electrodes 5 reaches capacity, reach adsorption time, adsorption process completes, described two electrodes 5 can not carry out ionic adsorption again, then described two electrode 5 poles, carry out ion desorption process, the complete desorption of ion on described electrode 5 will be adsorbed on, reach desorption time, then adsorption process is reentered, so move in circles,

TDS detecting sensor 3, for detect described electric water purification module 2 process after water outlet actual TDS value and described actual TDS value feedback is gone out;

Flow-rate adjustment module 1, for providing former water to be clean for described electric water purification module 2 and controlling the flow of former water; And

Control module 4, with described TDS detection module 3, described electric water purification module 2 and described Flow-rate adjustment module 1 are electrically connected, described control module 4 is preset with a TDS value, described control module 4 is for receiving described actual TDS value, the actual TDS value received and a described TDS value compare by described control module 4, and export first according to comparative result and control signal to voltage between two electrodes 5 that described electric water purification module 2 regulates and controls described electric water purification module 2 and adsorption time, and/or export the flow that second controls signal to the former water that described Flow-rate adjustment module 1 regulates, the TDS value preset in described control module 4 is adjusted to the actual TDS value of the water outlet after being processed by described electric water purification module 2.

Described electric purifier detects the actual TDS value of water outlet by arranging TDS detection module 3, and this actual TDS value is fed back to described control module 4, described control module 4 constantly regulates described electric water purification module 2 and described Flow-rate adjustment module 1 according to a TDS value of this actual TDS value and its setting thus constantly regulates and controls the actual TDS value of water outlet until reach a TDS value of setting, achieve the full intellectualized of Water treatment, the water purification of the obtained TDS value needed, and no matter raw water quality is how, user only needs the TDS value inputting setting, described electric water purification module 2 auto-control, meet consumers' demand, thus eliminate the problem that described electric water purification module 2 performance is inadequate or performance is superfluous, improve the water quality of water purification simultaneously.

In the present embodiment, described control module 4 is also preset with the 2nd TDS value, after adsorption time reaches, described electric water purification module 2 enters ion desorption process, the actual TDS value received and described 2nd TDS value compare by described control module 4, when the actual TDS value received is less than or equal to the 2nd TDS value preset in described control module 4, control module 4 exports the 3rd control signal to electric water purification module 2, described electric water purification module 2 according to described 3rd control signal by its two electrode 5 pole.The TDS value be set with by described control module 4 and the 2nd TDS value, realize Water treatment intelligent automatic conversion adsorption process and desorption process simultaneously, achieve the control of adsorption time and desorption time, avoid the problem owing to adsorbing the water purification deteriorating water quality that saturated or desorption not exclusively causes.

In the present embodiment, described control module 4 comprises:

Power subsystem 42, for providing power supply for the modules of described electric purifier;

Input block 44, is electrically connected with described power subsystem 42, for inputting a described TDS value and described 2nd TDS value;

Display unit 46, is electrically connected with described power subsystem 42 and described input block 44, for showing described actual TDS value and a described TDS value and described 2nd TDS value; And

Control unit 40, is electrically connected with described power subsystem 42, described input block 44 and described display unit 46, for installing automatically controlled program.

Described input block 44 is preferably touch-screen input interface, input through keyboard interface or TDS value gear adjusting knob.

The invention described above embodiment sequence number, just to describing, does not represent the quality of embodiment.Through the above description of the embodiments, those skilled in the art can be well understood to the mode that above-described embodiment method can add required general hardware platform by software and realize, hardware can certainly be passed through, but in a lot of situation, the former is better embodiment.Based on such understanding, technical scheme of the present invention can embody with the form of software product the part that prior art contributes in essence in other words, this computer software product is stored in a storage media (as ROM/RAM, magnetic disc, CD), comprising some instructions in order to make a station terminal equipment (can be mobile phone, computer, server, or the network equipment etc.) perform method described in each embodiment of the present invention.

These are only the preferred embodiments of the present invention; not thereby the scope of the claims of the present invention is limited; every utilize specification sheets of the present invention and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present invention.

Claims (8)

1. an electric process for purifying water, is characterized in that, comprising:

TDS detecting sensor detects the actual TDS value by the water outlet after electric water purification module process;

Control module receives described actual TDS value;

In ionic adsorption process, control module by the actual TDS value received and described control module preset a TDS value compare, and according to comparative result export the first control signal give electric water purification module and/or output the second control signal to Flow-rate adjustment module;

Electricity water purification module according to described first control signal regulation output to described electric water purification module two electrodes between voltage, and/or described Flow-rate adjustment module regulates the flow of the former water flowing into described electric water purification module according to described second control signal, the actual TDS value of the water outlet after electric water purification module process to be adjusted to the TDS value preset in described control module.

2. electric process for purifying water as claimed in claim 1, is characterized in that,

When the actual TDS value received is lower than the TDS value preset in described control module:

The first control signal that control module exports is the voltage reducing to output between two electrodes of described electric water purification module, and electric water purification module turns down the voltage between two electrodes outputting to described electric water purification module according to described first control signal;

The second control signal that control module exports is the flow increasing the former water flowing into described electric water purification module; Described Flow-rate adjustment module tunes up the flow of the former water flowing into described electric water purification module according to described second control signal;

When the actual TDS value received is higher than the TDS value preset in described control module:

The first control signal that control module exports is increase the voltage between two electrodes outputting to described electric water purification module, and electric water purification module heightens the voltage between two electrodes outputting to described electric water purification module according to described first control signal;

The second control signal that control module exports is the flow reducing the former water flowing into described electric water purification module; Described Flow-rate adjustment module turns the flow of the former water flowing into described electric water purification module down according to described second control signal.

3. electric process for purifying water as claimed in claim 1, it is characterized in that, in ion desorption process, the 2nd TDS value preset in the actual TDS value received and described control module compares by control module, when the actual TDS value received is less than or equal to the 2nd TDS value preset in described control module, control module export the 3rd control signal give electric water purification module, described electric water purification module according to described 3rd control signal by its two electrodes pole.

4. electric process for purifying water as claimed in claim 1, is characterized in that,

Before the step that described TDS detecting sensor detects by the actual TDS value of the water outlet after electric water purification module process, also comprise:

Flowed into the uninterrupted in described electric water purification module by described Flow-rate adjustment module setting, in ionic adsorption process, the flow flowing into the former water in described electric water purification module remains unchanged.

5. an electric purifier, is characterized in that, comprising:

Electricity water purification module, for adsorbing ion in former water and desorption adsorbs saturated ion;

TDS detecting sensor, for the water outlet after detecting described electric water purification module process actual TDS value and described actual TDS value feedback is gone out;

Flow-rate adjustment module, for providing former water to be clean for described electric water purification module and controlling the flow of former water; And

Control module, with described TDS detection module, described electric water purification module and the electrical connection of described Flow-rate adjustment module, described control module is preset with a TDS value, described control module is for receiving described actual TDS value, the actual TDS value received and a described TDS value compare by described control module, and export first according to comparative result and control signal to voltage between two electrodes that described electric water purification module regulates and controls described electric water purification module and adsorption time, and/or export the flow that second controls signal to the former water that described Flow-rate adjustment module regulates, the actual TDS value of the water outlet after described electric water purification module process to be adjusted to the TDS value preset in described control module.

6. electric purifier as claimed in claim 5, it is characterized in that, described control module is also preset with the 2nd TDS value, after adsorption time reaches, described electric water purification module enters ion desorption process, the actual TDS value received and described 2nd TDS value compare by described control module, when the actual TDS value received is less than or equal to the 2nd TDS value preset in described control module, control module export the 3rd control signal give electric water purification module, described electric water purification module according to described 3rd control signal by its two electrodes pole.

7. electric purifier as claimed in claim 5, is characterized in that, described control module comprises:

Power subsystem, for providing power supply for the modules of described electric purifier;

Input block, is electrically connected with described power subsystem, for inputting a described TDS value and described 2nd TDS value;

Display unit, is electrically connected with described power subsystem and described input block, for showing described actual TDS value and a described TDS value and described 2nd TDS value; And

Control unit, is electrically connected with described power subsystem, described input block and described display unit, for installing automatically controlled program.

8. electric purifier as claimed in claim 7, is characterized in that, described input block is touch-screen input interface, input through keyboard interface or TDS value gear adjusting knob.