CN1699669B - Washing machine having a water electrolysis unit and washing method thereof - Google Patents

Abstract

The present invention relates to a washing machine with an electrolytic water device as well as its washing method at least with the steps of water feed, electrolysis, dipping, wash and drain. From the step of water feed to the step of wash, the water in the washing barrel can be pumped back into the electrolytic device for electrolytic action according to the needs through a pump device, which is installed on the electrolytic water circuit, and then the electrolytic water can be pumped into the outer wash barrel for washing again through the pump device after its electrolysis. Through installing a pump device, the washing method of the invention has resolved the problem of the electrolytic effect of the electrolytic tank, which can control the volume of tapping water flowing into the electrolytic tank according to the needs, while the existing technology cannot do. The invention will drain the electrolytic water from the electrolytic tank after its electrolysis according to the needsso as to ensure the ionic concentration of the electrolytic water in the washing barrel and achieve the optimum washing effect. In carrying out a process of electrolytic washing, the power supply switch apparatus attached to the electrolytic device can change the electric current direction of the electrode so as to avoid dirt on the electrode plate during the long period of electrolytic action.

Description

Washing machine and washing methods thereof with electrolytic water device

Technical field

The present invention relates to a kind of washing machine, refer in particular to a kind of washing machine, relate to washing methods simultaneously with this device washing machine with electrolytic water device.

Background technology

Washing machine in the past is to adopt water to add cleaning solution or washing powder etc. to wash, also useful in the last few years brine electrolysis is used for washing or is used for sterilizing, it helps reducing the pollution of washing agent to environment, but need on washing machine, add electrolysis unit, however electrolysis unit be provided with rationally to the washing of washing machine the time vibration and all influential to the life-span of parts such as the washtub of washing machine, electrolysis unit.

Documents 1

The patent No. is to have opened a kind of electrolysis unit and electrolytic method of flowing water of chloride ion-containing in the Chinese patent of 95190499.X, and this device comprises electrolytic cell and the supply unit of applied voltage between electrode; Liquid inflow entrance and liquid flowing outlet that at least one pair of electrode, the path that forms between electrode, communication paths are arranged in the electrolytic cell wherein.

Documents 2

The patent No. is to disclose a kind of electric washer in 02106218.8 the Chinese patent, it is the lateral surface that electrolysis unit is located at the washing water jacket, its shortcoming is projection of formation on the outer wall of the outer bucket of washing, it can aggravate shaking in the washing process, the moving of outer bucket can be clashed into this position, and severe patient can damage outer bucket of washing and electrolysis unit.

Documents 3

The patent No. be disclose in 99248529.0 the Chinese patent a kind of with the washing machine of water power from device, mainly be on the water inlet of washing machine or delivery port, to be fitted with water power from device, water power is connected with the carbonium water outlet pipe and the negative ion water outlet pipe of band valve from the device both sides, it is communicated with washing drum respectively, and water power is connected with dc source from the both positive and negative polarity of device.This electrolysis unit is the top that places washing machine shell, and it influences the appearance effect of washing machine.

Documents 4

Wherein, be that to disclose a kind of Washing machine with ion water generater in 01249347.3 the Chinese patent be example with the patent No., this washing machine is to be the bottom that is placed in tub of washing machine with the electrolytic cell of electrolysis unit and power panel, the inlet pipeline of this washing machine is that alkaline water is used for washing through electrolysis unit with former water electrolysis.As shown in Figure 1, this washing machine comprises running water water inlet A 1, drainpipe A2, mechanical force wash bucket A3, is serially connected with ion water generator A4 at running water between the inlet channel A5 of water inlet A 1 and mechanical force wash bucket A3, the water inlet manifold A4-00 of front portion, its ion generator A4 cathode and anode chamber links to each other with running water water inlet A 1, and the outlet pipe A4-10 at cathode chamber rear portion connects washing machine sewer pipe A2 or directly discharges outside the washing machine, and the outlet pipe A4-20 at rear portion, anode chamber connects the inlet channel A5 of the logical A3 of mechanical force laundry.From figure, can significantly find out, electrolytic cell is arranged on the bottom of wash bucket, it is easy that running water enters electrolytic cell, but under the brine electrolysis after the electrolysis is being intake impulse force endlessly, obviously can't all flow in the washtub and wash, ponding is arranged in electrolytic cell, the ionized water concentration that enters early stage in the washtub enters ionized water concentration in the washtub apparently higher than the later stage, so, this device can be controlled the time of electrolysis, but the concentration of the brine electrolysis of uncontrollable required adding, thereby make the effect of its washing not reach the best.

The existing electrolysis unit that is used on the washing machine, its electrolytic cell nearly all is the electrolytic cell that has iris-diaphragm, and the discharge of the brine electrolysis in the electrolytic cell after the electrolysis unit electrolysis does not have the circulation of special device control water and controls the electrolysis time of water in electrolytic cell.

Also having simple directly positive and negative two electrode slices insertions to wash in the outer bucket, is that economy is cheap again like this, in washing process, can carry out electrolysis as required at any time; But this device is too simple and its security is unreliable, and especially under the situation of water, electric combination, security requirement is higher; And the electrolysis degree in the also wayward washtub of this device: the running water that enters rill in washtub carries out electrolysis, the electrolysis degree height of its acquisition, and the running water that enters big stream in washtub carries out electrolysis, and the electrolysis degree of its acquisition is low.

Because the defective of above-mentioned prior art, designer of the present invention sets about from global design, the unit architecture aspect of product in conjunction with both merits and demerits, develop a kind of promptly cheaply, the washing machine of the brine electrolysis equalization of concentration of control simultaneously easy to use again.

Summary of the invention

For overcoming the defective of prior art, the object of the present invention is to provide a kind of washing machine with electrolytic water device simple in structure, economic cheap, reasonable in design, easy for installation.

Still a further object of the present invention is to provide a kind of washing methods of controlling conveniently, guaranteeing the washing machine with electrolytic water device that required brine electrolysis ion concentration requires.

For realizing the defective of above-mentioned prior art, the technical solution used in the present invention is as follows:

A kind of electrolytic method with electrolytic water device washing machine, at least have into water, electrolysis, immersion, washing, drain step, intake to washing process whole, can carry out electrolysis with entering in the running water suction electrolytic water device that washs outer bucket as required by pump installation, the brine electrolysis after electrolysis is squeezed into outside the washing by pump installation more on demand and is washed in the bucket.

For realizing this washing methods, its concrete steps are as follows:

(a). start-up routine;

(b). begin water inlet;

(c). checkout gear detects and judges whether water inlet arrives low water level in water inlet, if do not have, then returns step b and continues water inlet; If reach low water level, execution in step d down then;

(d). first primer pump device work, the water in the outer bucket of washing is extracted in the electrolytic cell, simultaneously, power supply change-over device converts AC power to dc source and starts working, and the water in the electrolytic cell is carried out electrolysis; And the brine electrolysis after the electrolysis delivered in the outer bucket of washing;

(e). continue water inlet; Carry out the forward electrolysis simultaneously, suspend a period of time, carry out reverse electrolysis again, suspend, carry out the forward electrolysis again, suspend, carry out reverse electrolysis again; Successively repeatedly;

(f). checkout gear detects and judges whether water inlet arrives designated water level in water inlet, electrolysis, if do not have, then returns step e and continues water inlet, electrolysis; If reach designated water level, execution in step g down then;

(g). stop into water; Proceed the forward electrolysis, suspend a period of time, carry out reverse electrolysis again, suspend, successively repeatedly; At this moment, the washings in the washtub begins to soak;

(h). soak and finish, electrolytic cell quits work.

In step e, when this electrolytic water device carries out electrolysis, its power supply change-over device elder generation forward electrolysis 5-15 minute, suspend electrolysis 5-60 second, reverse electrolysis 5-15 minute then, so circulation.

In step g, when this electrolytic water device carries out electrolysis, its power supply change-over device elder generation forward electrolysis 5-15 minute, suspend electrolysis 5-60 second, reverse electrolysis 5-15 minute then, so circulation.

The flow of described pump installation is between 3 liters/minute-8 liters/minute.

In the course of the work, the running water in the outer bucket of washing is got in the electrolytic cell by pump installation, and the brine electrolysis behind electrolytic tank electrolysis flows back to outside the washing again and washs in the bucket.

A kind of washing machine with electrolytic water device, comprise shell, accommodate the washtub of washing clothes, bucket outside the washing that is used to contain washings and place washtub, be used to drive the driving control device that washtub washs, be used to detect the checkout gear of the water inlet water level in the washtub, the electrolytic water device of brine electrolysis is provided by electrolysis mode bucket outside washing, be used to control the control device of washing work and electrolysis work, on the inlet pipeline of electrolytic water device, set up one and be used for as required running water being squeezed into the electrolytic water device electrolysis, and the pump installation of the brine electrolysis after the electrolysis being extracted and is discharged to out the outer bucket of washing.

It also comprises:

Described electrolytic water device comprises electrolytic cell, the AC power of washing machine is converted to direct current, the power supply change-over device of dc source is provided to electrolytic cell; Described electrolytic water device is arranged in the washing machine shell, this electrolytic water device is fixedly mounted on the washing machine dish seat or the washing outer barrel bottom, the water inlet of this electrolytic cell links to each other with the delivery port of pump installation by water inlet pipe, the water inlet of pump installation links to each other with the outlet pipe of the outer bucket of washing, washs during the outlet pipe of the brine electrolysis behind electrolytic tank electrolysis by electrolytic cell enters outside the washing barrel.

Wherein, this pump installation adopts measuring pump or draining pump, and this pump installation is arranged on washing machine shell or the outer bucket of washing.This pump installation also can be fixedly mounted on the inwall of washing machine shell or be fixedly mounted on the outer wall of the outer bucket of washing.

This electrolytic cell adopts no diaphragm electrolytic cell, has 2n+1 cathode chamber, a 2n anode chamber, and n is a natural number; Arranging of this cathode chamber and anode chamber's each interval.

Use beneficial effect of the present invention to be: the position that the more existing electrolytic water device of the set-up mode of this electrolytic water device in washing machine is provided with in washing machine is more reasonable, its electrolytic cell uses no diaphragm electrolytic cell, increase by a dosing pump assembly on the brine electrolysis discharge line, this pump has two effects: can control the water yield from the beginning that enters electrolytic cell on demand; Can as required the brine electrolysis after the electrolysis be discharged from electrolytic cell, thereby regulate the concentration that enters brine electrolysis, can guarantee to enter the brine electrolysis ion concentration in the washtub, carry out the best washing.In the process of carrying out an electrolytic scrubbing, the sense of current of the power supply change-over device energy transfer electron in the electrolytic water device is guaranteed in long-term electrolytic process the electrode pad non-scaling.

Description of drawings

Fig. 1 is the existing structural representation with electrolytic water device washing machine described in the documents 4;

Fig. 2 is provided with the structural representation of an embodiment in washing machine for electrolytic water device of the present invention;

Fig. 3 is provided with the structural representation of second embodiment in washing machine for electrolytic water device of the present invention;

Fig. 4 is provided with the structural representation of the 3rd embodiment in washing machine for electrolytic water device of the present invention;

Fig. 5 has the washing methods control flow chart of electrolytic water device washing machine for the present invention;

The specific embodiment

Below by specific embodiment accompanying drawing in addition, the present invention is described in detail.

At first, roughly introduce the structure that realizes this washing methods with electrolytic water device washing machine, the overall structure of washing machine is identical with existing automatic washing machine structure, and this washing machine comprises the washtub 1 of accommodating washing clothes, the outer bucket 2 of washing that is used to contain washings, placement washtub 1; Be used to hold the washing machine shell 3 of washtub 1, the outer bucket 2 of washing; By electrolysis mode, to outer barrel of electrolytic water device 4 that brine electrolysis is provided of washing; Be used to drive the driving control device 5 that washtub washs; Be used to detect the checkout gear 6 of the water inlet water level in the washtub; Be used to control the control device 7 of washing work, electrolysis work; Only difference is as shown in Figure 2, outside washing, set up one on the inlet pipeline 41 of the bottom of bucket 2, electrolytic water device 4 and be used to control the pump installation 8 that running water enters the flow of inlet water of electrolytic water device 4 and the brine electrolysis after the electrolysis is extracted out bucket outside the road washing side by side, the outlet pipe 21 of the outer bucket of washing 2 bottoms links to each other with pump installation 8 one ends, the other end of pump installation 8 links to each other with electrolytic water device 4 by electrolytic cell water inlet pipe 41, and the outlet pipe 42 of the brine electrolysis after electrolytic water device 4 electrolysis by electrolytic cell enters outside the washing in barrels 2 and wash; In addition, also can extract the brine electrolysis in the electrolytic cell out road washing side by side by pump installation 8 washs in the bucket 2 outward.

Described pump installation 8 adopts measuring pump or draining pump, in addition, the structure of described pump installation 8 in washing machine is except structure as shown in Figure 2, can also be arranged on the outer bucket 2 of washing machine shell 3 or washing, further, this pump installation 8 is fixedly mounted on the inwall of washing machine shell 3 or is fixedly mounted on the outer barrel wall of the outer bucket 2 of washing (schematic structure omission).

The position setting that it should be noted that electrolytic water device 4 among the present invention around here also is a crucial part unlike the prior art.Be arranged on the inside of washing machine shell 3 as the electrolytic water device 4 that provides among Fig. 2, as shown in Figure 3, electrolytic water device 4 can be arranged on the washing machine dish seat 9; As shown in Figure 4, electrolytic water device 4 also can be arranged on the bottom of the outer bucket 2 of washing.

Electrolytic water device 4 described in the present invention comprises that electrolytic cell, an AC power with washing machine are converted to direct current, the power supply change-over device of dc source is provided to electrolytic cell; Electrolytic cell also can adopt no diaphragm electrolytic cell, has 2n+1 cathode electrode, a 2n anode electrode, and wherein n is a natural number; Arranging of this cathode electrode and anode electrode each interval; General this electrolytic cell preferably has 3/5/7 cathode electrode and 2/4/6 anode electrode.

Washing methods with electrolytic water device washing machine, generally have into several steps such as water, electrolysis, immersion, washing, draining at least, intaking to washing process, can be as required the water that enters the outer bucket of washing be drawn back and carry out electrolysis in the electrolytic water device by being arranged on pump installation in the electrolysis water route, and then squeeze in the outer bucket of washing by the brine electrolysis of this pump installation after and to wash electrolysis.

The concrete steps of washing methods as shown in Figure 5, its concrete steps are as follows:

(a). start-up routine;

(b). begin water inlet;

(c). checkout gear detects and judges whether water inlet arrives low water level in water inlet, if do not have, then returns step b and continues water inlet; If reach low water level, execution in step d down then;

(d). first primer pump device work, the water in the outer bucket of washing is extracted in the electrolytic cell, simultaneously, power supply change-over device converts AC power to dc source and starts working, and the water in the electrolytic cell is carried out electrolysis;

(e). continue water inlet, carry out the forward electrolysis simultaneously, after electrolysis a period of time, suspend a period of time, carry out reverse electrolysis a period of time again, successively repeatedly;

(f). checkout gear detects and judges whether water inlet arrives designated water level in water inlet, electrolysis, if do not have, then returns step e and continues water inlet, electrolysis; If reach designated water level, execution in step g down then;

(g). stop into water, continue forward electrolysis a period of time, suspend a period of time, carry out reverse electrolysis a period of time again, successively repeatedly; At this moment, the washings in the washtub begins to soak;

(h). soak and finish, electrolytic cell quits work.

In step e, when this electrolytic water device carries out electrolysis, its power supply change-over device elder generation forward electrolysis 5-15 minute, suspend electrolysis 5-60 second, reverse electrolysis 5-15 minute then, so circulation.

In step g, when this electrolytic water device carries out electrolysis, its power supply change-over device elder generation forward electrolysis 5-15 minute, suspend electrolysis 5-60 second, reverse electrolysis 5-15 minute then, so circulation.

The flow of described pump installation is between 3 liters/minute-8 liters/minute.

In the course of the work, the running water in the outer bucket of washing is got in the electrolytic cell by pump installation, and the brine electrolysis behind electrolytic tank electrolysis flows back to outside the washing again and washs in the bucket.Running water enters from the water inlet of electrolytic cell, and behind electrolysis electrode, electrolysis is that ionized water is discharged from the delivery port of electrolytic cell, and its flow is guaranteed the time that brine electrolysis stops by the control of measuring pump or draining pump in electrode, guarantee the ion concentration of brine electrolysis.

Embodiment 1

Select the electrolysis program, begin water inlet; Checkout gear detects and judges whether water inlet arrives low water level in water inlet, if do not have, then continues water inlet; If reach low water level, then continue to carry out next step; Start measuring pump 8 and be extracted in the electrolytic cell with the water that 7.5 liters/minute flow will wash in outer barrel 2, simultaneously, power supply change-over device converts AC power to dc source and starts working, and the water in the electrolytic cell is carried out electrolysis; When continuing water inlet, carry out electrolysis: forward electrolysis 6 minutes, suspend 15 seconds, carried out reverse electrolysis again 6 minutes, successively repeatedly; When continuing water inlet, electrolysis, checkout gear 6 detects judges whether water inlet arrives designated water level, if do not have, then returns previous step and continues water inlet suddenly, carries out electrolysis; If reach designated water level, then continue to carry out next step; Stop into water, but continue forward electrolysis 6 minutes, suspend 15 seconds, carried out reverse electrolysis again 6 minutes, successively repeatedly; Simultaneously, the washings in the washtub begins to enter the immersion program; Soak and finish, electrolytic cell quits work.

Embodiment 2

Select the electrolysis program, begin water inlet; Checkout gear detects and judges whether water inlet arrives low water level in water inlet, if do not have, then continues water inlet; If reach low water level, then continue to carry out next step; Start measuring pump 8 and be extracted in the electrolytic cell with the water that 5 liters/minute flow will wash in outer barrel 2, simultaneously, power supply change-over device converts AC power to dc source and starts working, and the water in the electrolytic cell is carried out electrolysis; When continuing water inlet, carry out electrolysis: forward electrolysis 11 minutes, suspend 32 seconds, carried out reverse electrolysis again 10 minutes, successively repeatedly; When continuing water inlet, electrolysis, checkout gear 6 detects judges whether water inlet arrives designated water level, if do not have, then returns previous step and continues water inlet suddenly, carries out electrolysis; If reach designated water level, then continue to carry out next step; Stop into water, but continue forward electrolysis 11 minutes, suspend 32 seconds, carried out reverse electrolysis again 10 minutes, successively repeatedly; Simultaneously, the washings in the washtub begins to enter the immersion program; Soak and finish, electrolytic cell quits work.

Embodiment 3

Select the electrolysis program, begin water inlet; Checkout gear detects and judges whether water inlet arrives low water level in water inlet, if do not have, then continues water inlet; If reach low water level, then continue to carry out next step; Start measuring pump 8 and be extracted in the electrolytic cell with the water that 3.5 liters/minute flow will wash in outer barrel 2, simultaneously, power supply change-over device converts AC power to dc source and starts working, and the water in the electrolytic cell is carried out electrolysis; When continuing water inlet, carry out electrolysis: forward electrolysis 14 minutes, suspend 52 seconds, carried out reverse electrolysis again 15 minutes, successively repeatedly; When continuing water inlet, electrolysis, checkout gear 6 detects judges whether water inlet arrives designated water level, if do not have, then returns previous step and continues water inlet suddenly, carries out electrolysis; If reach designated water level, then continue to carry out next step; Stop into water, but continue forward electrolysis 14 minutes, suspend 52 seconds, carried out reverse electrolysis again 15 minutes, successively repeatedly; Simultaneously, the washings in the washtub begins to enter the immersion program; Soak and finish, electrolytic cell quits work.

Claims (5)

1. washing methods with electrolytic water device washing machine, at least has into water, electrolysis, soak, washing, drain step, it is characterized in that: intake to washing process whole, can carry out electrolysis with entering in the running water suction electrolytic water device that washs outer bucket as required by pump installation, brine electrolysis after electrolysis is squeezed into outside the washing by pump installation more on demand and is washed in the bucket, this pump installation is a dosing pump assembly, draw water and control the water yield from the beginning that enters electrolytic cell when entering electrolytic water device on demand, regulate the concentration that enters bucket brine electrolysis ion outside the washing by dosing pump assembly when the brine electrolysis after the electrolysis is discharged from electrolytic cell, these washing methods concrete steps are as follows:

(a). start-up routine;

(b). begin water inlet;

(c). checkout gear detects and judges whether water inlet arrives low water level in water inlet, if do not have, then returns step (b) and continues water inlet; If reach low water level, execution in step (d) down then;

(d). start dosing pump assembly work earlier, the water in the outer bucket of washing is extracted in the electrolytic cell, simultaneously, power supply change-over device converts AC power to dc source and starts working, and the water in the electrolytic cell is carried out electrolysis; And the brine electrolysis after the electrolysis delivered in the outer bucket of washing;

(e). continue water inlet; Carry out the forward electrolysis simultaneously, after electrolysis a period of time, suspend, carry out reverse electrolysis again, suspend, carry out the forward electrolysis again, suspend, carry out reverse electrolysis again; Successively repeatedly;

(f). checkout gear detects and judges whether water inlet arrives designated water level in water inlet, electrolysis, if do not have, then returns step (e) and continues water inlet, electrolysis; If reach designated water level, execution in step (g) down then;

(g). stop into water, continue forward electrolysis a period of time, suspend a period of time, carry out reverse electrolysis a period of time again, successively repeatedly; At this moment, the washings in the washtub begins to soak;

(h). soak and finish, electrolytic cell quits work.

2. according to the washing methods described in the claim 1, it is characterized in that: in step (e), when this electrolytic water device carries out electrolysis, its power supply change-over device elder generation forward electrolysis 5-15 minute, suspend electrolysis 5-60 second, reverse electrolysis 5-15 minute then, so circulation.

3. according to the washing methods described in the claim 1, it is characterized in that: in step (g), when this electrolytic water device carries out electrolysis, first forward electrolysis 5-15 minute, suspend electrolysis 5-60 second, reverse electrolysis 5-15 minute then, so circulation.

4. washing methods according to claim 1 is characterized in that: the flow of described pump installation is between 3 liters/minute-8 liters/minute.

5. according to any described washing methods in the claim 1 to 4, it is characterized in that: in the course of the work, what the water in the outer bucket of washing did not stop is got in the electrolytic cell by dosing pump assembly, flows back to bucket outside the washing behind electrolytic tank electrolysis again.

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