CN211921981U - Cleaning device using electrolyzed water and washing machine using cleaning device - Google Patents

Abstract

The utility model relates to an use cleaning device of brineelectrolysis, including electrolysis unit, workspace, the electrolysis unit is including the liquid mixer, electrolysis trough, the washing liquid storage tank that connect gradually, the liquid mixer provides the invariable brineelectrolysis of treating of solubility, the electrolysis trough includes through positive pole district and the negative pole district that the diaphragm separates, the negative pole district is connected with the washing liquid storage tank, the washing liquid storage tank is connected with workspace, treat that brineelectrolysis is the aqueous solution of alkaline sylvite. The utility model discloses having separated negative pole water and anode water, having used the negative pole water that has basicity to go cleanly, not using detergent and disinfectant, high-efficient environmental protection is pollution-free, has alleviateed the pollution to environment and waters, the utility model discloses negative pole water pH value 12.3 has the decontamination and the sterilization ability of high strength, and the like product that comprehensive washing ability surpassed to appear far away can the fully provided daily life needs.

Description

Cleaning device using electrolyzed water and washing machine using cleaning device

Technical Field

The utility model relates to a washing device, in particular to a cleaning device applying electrolyzed water and a washing machine applying the cleaning device.

Background

The existing washing machine can effectively remove dirt and oil stains on clothes by adding a detergent in the using process, rinsing is needed after washing, and clear water needs to be replaced again in each process, so that a large amount of water resources are wasted. Particularly, the detergent is gradually changed into a vital consumer product in household cleaning products, a dependence is generated, even the abuse degree is reached, the environment is greatly polluted by the discharged detergent, and the eutrophication of a water body is easily caused, so that the influence on animals and plants in water is caused, and the damage to an ecological system and a food chain is caused.

The heating of water by edible alkali is a good method for removing oil stain, because the main component of the oil stain is ester, which is easy to be hydrolyzed into alcohol and salt in alkaline environment and easy to be cleaned, the electrolytic cathode water is widely used as very clean alkaline water, and the electrolytic water is also used in washing devices such as washing machines, namely washing devices without detergent. However, the prior art uses electrolytic water for washing, and there are many problems, the first is that cathode water and anode water are not distinguished in the washing process, and only brine is electrolyzed and directly washed without separation, and the activity of water molecules and electrolytic ions is utilized for washing, and obviously, the decontamination capability is defective. For example, Shenzhen Jijing science and technology Limited in China discloses a series of detergent-free washing devices in CN200310123872.9, CN200510093784.8 and CN201310079591.1, wherein an electrolytic bath is used for carrying out electrochemical treatment on natural water, so that inorganic salts and organic impurities in the water are electrolyzed, fat substances contained in the water are emulsified and saponified, the wettability and the permeability of water molecules are improved, and the CN201310079591.1 also improves the intelligence degree of the washing devices. Further, for example, Sanyo electric Co., Ltd, has developed a series of electrolytic water washing machines which activate water and the water after activation is equivalent to a surfactant of washing powder, and can peel dirt from clothes. The second is that the cleaning ability is not strong enough, the main reason is that the pH value of cathode water used for cleaning in the washing device is difficult to exceed 12, even if cathode water products specially used for washing in the prior art, such as Bo Ka electrolyzed water of Japanese water, which has been widely popularized in the market, have strong decontamination ability, the pH value of the product still can not meet the decontamination requirement, the cleaning ability is not strong, and especially the washing of clothes is difficult. In addition, the detergent-free decontamination device in the prior art, such as a detergent-free washing machine in the sanyo of Japan, has the advantages of better energy consumption during use, poor user experience and common market reverberation.

In view of the above, the prior art still lacks a detergent-free washing device with strong dirt-removing power.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the purpose is not enough to prior art, has improved washing device, has separated negative pole water and anodal water, uses the clean object of the strong alkaline negative pole water of dirt-removing power to can provide a novel environmental protection cleaning device that dirt-removing power is strong, the washing effect is good, the technical scheme of the utility model as follows.

The utility model provides an use cleaning device of strong alkaline brineelectrolysis, includes electrolysis unit, workspace, the electrolysis unit is including the liquid mixer, electrolysis trough, the washing liquid storage tank that connect gradually, the liquid mixer provides the invariable brine of treating of electrolysis salt concentration, the electrolysis trough includes anode area and the negative pole district that separates through the diaphragm, the negative pole district is connected with the washing liquid storage tank, the washing liquid storage tank is connected with workspace.

The utility model discloses having separated electrolytic device's positive pole water and negative pole water, mainly having used negative pole water to go the washing, the negative pole water is simultaneously because the washing ability is stronger, and washing effect compares prior art and has obtained very big improvement, need not add any surfactant active and help surfactant active, and the washing ability is in same level with the washing ability of current detergent. Meanwhile, the liquid mixer provides the brine to be electrolyzed with constant concentration, and the washing effect of washing the cathode water in unit volume every time can be almost the same, so that the washing capacity can be controlled by adjusting the using amount of the cathode water, the cathode water can be used more on occasions with more dirt, and less cathode water is used under the condition of common dirt, thereby providing the utilization rate of resources. The working space of the utility model comprises the working occasions of washing machines, dish washing machines, hand washing machines and the like, and the working space is a roller in the roller washing machine.

Preferably, the device further comprises an anolyte storage tank, the anolyte storage tank is connected with the working space, and the anolyte storage tank is provided with an anode water outlet pipe.

The anode water has strong acidity and can be used for sterilization, but the anode water is easy to damage in special working occasions such as high-end clothes, at the moment, the anode water is required to be discharged through the water outlet pipe regularly, but the introduction of the anode water can be considered when carpets and tableware are cleaned, and generally, after the decontamination is carried out by using the cathode water, the anode water is used for sterilization at last. In addition, inorganic dirt is easily accumulated in the cavity of the working space of the washing machine or the dish washing machine, and anode water can be introduced to remove the dirt and sterilize after being used for a period of time. When the anode water in the anode liquid storage tank is excessive, the anode water is directly discharged through the anode water outlet pipe. In the actual use process, the anode water outlet pipe is set to be in a normally open state, when anode water is needed, the anode water outlet pipe is closed to intercept a part of the anode water, and the anode water outlet pipe is opened when the anode water is needed.

Preferably, the anode region is provided with a branch pipe, and is connected with the working space through the branch pipe. If anode water with stronger acidity is obtained, the method can be used for removing dirt and other impurities which are difficult to clean in a working space.

Preferably, the electrolytic salt is a strong base weak acid salt.

The utility model discloses used most of products that have now on the market to wash the experiment, found only alkaline and exceeded 12, especially after exceeding 12.3, just had very strong decontamination ability, could satisfy extensive washing demand. The utility model discloses a get the catholyte of high pH value, use alkaline potassium salt as the electrolyte. The pH of tap water is generally about 7, and according to the electrolysis principle, if electrolysis obtains alkali with pH of about 13, the anode region will obtain acid with pH of 1, that is, in order to obtain alkali with pH of more than 12.3, the anode region will obtain acid with pH of 1.7. High pH acids are very corrosive, very destructive to the material system and the resulting product is also unstable. The strong base and the weak acid are completely dissolved in water, the pH value after being dissolved in water is generally about 9, the saturated solution is close to 10, therefore, if the pH value is about 13, the pH value of the anode area is close to neutral or weak acid, and the system is hardly corroded. The solubility of the electrolytic salt can be controlled by the liquid level mixer, and the pH value of the diluted brine to be electrolyzed is 8-9, so that the anode water band after electrolysis has certain weak acidity, and the electrolysis efficiency and stability are very high.

What is particularly important is that the utility model discloses an acidity of anode water, the acidity of anode water of comparing the neutral salt solution of electrolysis is than weak, finds through practice, can be used for clothes virus killing and disinfecting, very big broadening the application range of anode water, also expanded washing device's comprehensive washing ability, improved the availability factor of electrolysis water.

Preferably, the strong base weak acid salt is potassium salt, and the potassium salt comprises one or more of potassium carbonate, potassium acetate, potassium bicarbonate and potassium hypochlorite.

What is electrolyzed in this application is the potassium salt, which is particularly important, the sodium salt that is widely used in the prior art. Practice shows that the active potassium ions of the potassium salt after electrolysis have very low harm to human bodies, and even if the solution is relatively strong in alkalinity, the solution is almost harmless to human bodies. And secondly, the ion particle size of potassium ions is larger than that of sodium ions and is close to that of chloride ions, so that the generated cathode water and electricity have stronger negativity and higher decontamination capability.

Preferably, the liquid mixer is a venturi mixer, the ejector of venturi mixer is directly installed on the main pipe, be responsible for one end and inlet tube intercommunication, the other end with the electrolysis trough intercommunication, be provided with the saturated salt water groove on the ejector, the saturated salt water groove is provided with the salt mouth, the liquid mixer mixes saturated salt water and running water and prepares into and treats electrolysis brine, gets into the electrolysis trough electrolysis.

The main pipe of the Venturi mixer is thin in the middle and thick at two ends, the ejector and the main pipe form a mixing cavity in the middle, and tap water flowing into the main pipe is mixed with two streams of saturated saline water flowing into the ejector. The main pipe forms negative pressure in the mixing cavity by using the principle of the Venturi tube, tap water forms rotational flow under the action of atmospheric pressure, saturated salt water is sucked into the cavity and mixed with the tap water, and the salt water to be electrolyzed is formed after mixing.

Preferably, the saturated brine tank is filled with saturated brine and excess electrolytic salt.

The saturated brine tank contains excessive electrolytic salt, and the solubility of the saturated brine is temperature-dependent, but the temperature change of the indoor environment is not large during daily use, so the solubility of the saturated brine is also not large. When the device is actually used, the flow of tap water is adjusted to be constant, the solubility of the electrolytic salt of the saturated salt water is the saturated solubility, so that the amount of the salt water taken away by the tap water in unit volume when the two liquids are mixed is also constant, and the salt water to be electrolyzed with the solubility being a constant value can be obtained. Add the salt mouth not only and add the potassium salt, can also add water, compare traditional washing device and need the detergent, this application only need use the salt can, very environmental protection.

Preferably, the cathode region is provided with a pH sensor and a controller, the controller reads the measured value of the pH sensor and stops the electrolysis when the cathode region reaches a set pH value. As can be seen from the foregoing discussion, the cathode water of the present application has a strong washing ability when the pH of the cathode water reaches 12.3, and thus, it is necessary to control the pH of the cathode water.

Preferably, the anode region is provided with an anode, the cathode region is provided with a cathode, the surface area of the cathode is larger than that of the anode, and the ratio of the surface area of the cathode to that of the anode is (1.05-1.2): 1. Electrolysis is a very energy consuming process, and therefore, concentrates electrical energy to the cathode, primarily to collect cathode water.

Preferably, a liquid level meter is arranged on the washing liquid storage tank, and the liquid level meter is provided with a warning water level. After the liquid level of the washing liquid storage tank is lower than the warning water level, the controller starts the electrolysis of the electrolytic tank to replenish cathode water.

Preferably, the height of the lowest point of the electrolytic bath is not less than the height of the highest point of the washing liquid storage tank. After cathode water in the electrolytic cell is electrolyzed, all the cathode water flows into the washing tank, and the electrolytic cell is extremely easy to corrode under the condition that water exists in the inner space when the electrolytic cell does not work electrolytically, so that the service life of the electrolytic cell can be prolonged.

The utility model discloses still protect cleaning device's application method, including following step:

(1) adding electrolytic salt and water into a salt adding port to prepare saturated brine, opening a water inlet pipe, and obtaining brine to be electrolyzed with constant electrolytic salt concentration by using a liquid mixer;

(2) after the electrolytic brine enters the electrolytic bath, starting electrolysis, after the pH value of cathode water obtained by cathode area electrolysis reaches a set pH value, entering a washing liquid storage tank, continuing electrolysis when a liquid level meter of the washing liquid storage tank does not meet the requirement, and stopping electrolysis until the requirement is met;

(3) the cathode water of the washing liquid storage tank enters the working space to start washing.

Preferably, the set pH in step (2) is 12.3. As mentioned above, the alkali with the pH value of 12.3 has stronger decontamination capability.

Preferably, when the pH of the anode water is not less than 5 in the step (2), the anode water flows into the anolyte storage tank. Weakly acidic water can be used for sterilization. Of course, if the anode water in the anode liquid storage tank is excessive, the anode water is discharged through the anode water outlet pipe.

Preferably, after the cathode water washing in the step (3) is completed, the anode water in the anode liquid storage tank flows into the working space, and the anode water is used for sterilization.

Preferably, when the pH value of the anode water in the step (2) is less than 5, the anode water is directly discharged through the anode water outlet pipe. The acidic water with a little strong acidity is directly discharged without use.

Preferably, after the cleaning device is used for 8-10 times, in the step (1), the flow rate of tap water of the water inlet pipe is increased, the concentration of electrolytic salt is reduced, the pH value of the electrolytic salt water is reduced, anode water with the pH value of less than 3 is obtained after electrolysis and flows into the working space through the branch pipe, and the anode water with the pH value of less than 3 is used for cleaning the working space. Anode water with a pH less than 3 is more acidic and can be used to remove dirt and other difficult to clean impurities from a workspace.

The utility model discloses still protect a washing machine who has used strong alkaline electrolysis cleaning device, including washing machine box, detergent module and control module, the detergent module is including setting up the electrolysis unit in the box inside, the electrolysis unit is including connecting gradually liquid mixer, electrolysis trough and washing liquid storage tank, the liquid mixer provides the constant brine that treats electrolysis of electrolytic salt concentration, the electrolysis trough includes anode zone and the negative pole district that separates through the diaphragm, the negative pole district is connected with the washing liquid storage tank, the washing liquid storage tank with the working space of washing machine box is connected, and the inlet tube divides into electrolysis water pipe and washing pipe after getting into the box, electrolysis water pipe with the liquid mixer intercommunication, washing pipe and working space intercommunication, the liquid mixer is provided with the salt mouth, on the salt mouth imbeds the box wall, the electrolysis trough is connected with the washing machine box electricity, the electrolysis unit is provided with the electrolysis controller, control module includes touch control panel, controller, control panel imbeds on the antetheca or the roof of box, the controller set up in control panel's below, the shutdown of controller control electrolysis controller.

The utility model discloses a washing machine has replaced traditional chemical detergent and has added the template, changes into the detergent module of electrolysis generation negative pole water, can be on the basis that need not change current washing machine on a large scale, can obtain negative pole electrolysis water washing machine, and the cost of generation is low, helps large-scale popularization and application.

Preferably, the bottom of the working space is provided with a filtering device and a circulating water pump, the filtering device is connected with the bottom of the working space, a water inlet of the circulating water pump is connected with the filtering device, a water outlet of the circulating water pump is connected with the top of the working space, and the circulating water pump can pump washing water to the roller for recycling after being filtered by the filtering device. When the washing machine is used, the washing water in the first time is directly discharged, and the washing water in the second time and later is filtered and recycled.

Preferably, the filtering device comprises a first filtering layer, a second filtering layer and a third filtering layer, wherein the first filtering layer is a pp filtering element, and the inner diameter of the first filtering layer is 5-35 microns; the second filter layer is a pp filter element, and the filter element of the second filter layer is 0.5-1 micron; the third filter layer is an RO reverse osmosis membrane. The top of first filter layer with workspace connects, the bottom of first filter layer is provided with the filter equipment outlet pipe, the filter equipment outlet pipe and box outlet pipe intercommunication, the bottom and the circulating water pump of third filter layer advance water piping connection.

Preferably, the top of the third filter layer is connected with the working space through a back flushing pipe. The backwash pipe may clean the filter device with water from the washing zone.

Preferably, a water inlet of the circulating water pump is communicated with the washing pipe through a bypass cleaning pipe, and external tap water can be directly introduced into the bypass cleaning pipe to backflush the filtering device through the circulating water pump. The filter device can be further cleaned by tap water.

The beneficial effects of the utility model are that:

(1) cathode water and anode water are separated, the cathode water with alkalinity is used for cleaning, a detergent and a disinfectant are not used, the method is efficient, environment-friendly and pollution-free, and the pollution to the environment and a water area is reduced;

(2) the cathode water of the utility model has the pH value of 12.3, has high-strength decontamination and sterilization capability, has the comprehensive washing capability far exceeding that of the existing similar products, and can fully meet the requirements of daily life;

(3) the anode water of the utility model has relatively weak acidity, and is found by practice to be used for clothes disinfection, thereby greatly widening the application range of the anode water and improving the utilization efficiency of electric energy;

(4) the utility model discloses cleaning method is high-efficient, has not only practiced thrift the time, has improved clothes cleaning efficiency, and reasonable water, abundant water economy resource can be realized to the washing step moreover.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the apparatus;

FIG. 2 is a schematic structural diagram of an embodiment of the present apparatus;

reference numerals:

the device comprises an electrolysis unit 1, a branch pipe 101, a main pipe 102, a salt adding port 103, a liquid mixer 104, an electrolysis tank 105, a washing liquid storage tank 106, an anode region 107, a cathode region 108, a saturated salt water tank 109, a liquid level meter 110, an anode liquid storage tank 111, an anode water outlet pipe 112, a jet pipe 113, a working space 2, a box body 3, a water inlet pipe 4, an electrolysis water pipe 5, a washing pipe 6, a filtering device 7, a first filtering layer 701, a second filtering layer 702, a third filtering layer 703, a filtering device water outlet pipe 704, a circulating water pump 8, a backflushing pipe 9 and a bypass cleaning pipe 10.

Detailed Description

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings:

examples

Embodiments of the utility model

The utility model provides a strong alkaline electrolysis cleaning device, includes electrolysis unit 1, workspace 2, electrolysis unit 1 is including the liquid mixer 104, electrolysis trough 105, the washing liquid storage tank 106 that connect gradually, liquid mixer 104 top is provided with adds salt mouth 103, electrolysis trough 105 includes anode region 107 and the cathode region 108 that separates through the diaphragm, cathode region 108 is connected with washing liquid storage tank 106, washing liquid storage tank 106 is connected with workspace 2.

As a preferred embodiment, the system further comprises an anolyte storage tank 111, wherein the anolyte storage tank 111 is connected with the working space 2, and the anolyte storage tank 111 is provided with an anode water outlet pipe 112.

As a preferred embodiment, the anode section 107 is provided with a branch pipe 101, through which branch pipe 101 is connected with the working space 2.

As a preferred embodiment, the electrolytic salt is a strong base weak acid salt.

As a preferred embodiment, the strong base weak acid salt is potassium salt, and the potassium salt comprises one or more of potassium carbonate, potassium acetate, potassium bicarbonate and potassium hypochlorite.

In a preferred embodiment, the liquid mixer 104 is a venturi mixer, an ejector 113 of the venturi mixer is directly installed on the main pipe 102, one end of the main pipe 102 is communicated with the water inlet pipe 4, the other end of the main pipe is communicated with the electrolytic cell 105, a saturated brine tank 109 is arranged on the ejector 113, the liquid mixer 104 mixes the saturated brine with tap water to prepare brine to be electrolyzed, and the brine enters the electrolytic cell 105 for electrolysis.

In a preferred embodiment, the saturated brine tank 109 is filled with saturated brine and excess electrolytic salt, and the saturated brine tank is provided with a salt adding port 103.

In a preferred embodiment, the cathode region 108 is provided with a pH sensor (not shown) and a controller (not shown) that reads the measured value of the pH sensor and stops the electrolysis when the cathode region 108 reaches a set pH value.

In a preferred embodiment, the anode region 107 is provided with an anode, the cathode region 108 is provided with a cathode, the surface area of the cathode is larger than the area of the anode, and the ratio of the surface area of the cathode to the area of the anode is preferably (1.05-1.2): 1.

In a preferred embodiment, a liquid level meter 110 is disposed on the washing liquid storage tank 106, and the liquid level meter 110 is provided with a warning water level.

As a preferred embodiment, the height of the lowest point of the electrolytic bath 105 is not less than the height of the highest point of the washing liquid storage tank 106.

The utility model discloses cleaning device's application method, including following step:

(1) adding electrolytic salt and water into a salt adding port 103 to prepare saturated brine, opening a water inlet pipe 4, and obtaining brine to be electrolyzed with constant electrolytic salt concentration by using a liquid mixer 104;

(2) after the electrolytic salt water enters the electrolytic tank 105, the electrolytic salt water starts to be electrolyzed, the pH value of the cathode water obtained by the electrolysis of the cathode region 108 reaches the set pH value and then enters the washing liquid storage tank 106, the electrolysis is continued when the liquid level meter 110 of the washing liquid storage tank 106 does not meet the requirement, and the electrolysis is stopped until the requirement is met;

(3) the cathode water of the washing liquid storage tank 106 enters the work space to start washing.

As a preferred example, the set pH value in the step (2) is 12.3.

As a preferred embodiment, when the pH of the anode water in the step (2) is not less than 5, the anode water flows into the anolyte storage tank.

In a preferred embodiment, after the cathode water washing in step (3) is completed, the anode water in the anode liquid storage tank 111 flows into the working space, and the anode water is used for sterilization.

As a preferred embodiment, when the pH of the anode water in step (2) is less than 5, the anode water is directly discharged through the anode water outlet pipe 112.

As a preferred embodiment, after the cleaning device is used for 8-10 times, in the step (1), the flow rate of the tap water of the water inlet pipe 4 is increased, the concentration of the electrolytic salt is reduced, the pH value of the electrolytic brine is reduced, the anode water with the pH value less than 3 is obtained after electrolysis and flows into the working space through the branch pipe 115, and the anode water with the pH value less than 3 is used for cleaning the working space 2.

Drum type washing machine according to embodiment

A drum type washing machine, as shown in figure 1-2, comprises a washing machine box body 3, a detergent module and a control module, wherein the detergent module comprises an electrolytic unit 1 arranged inside the box body 3, the electrolytic unit 1 comprises a liquid mixer 104, an electrolytic cell 105 and a washing liquid storage tank 106 which are connected in sequence, a salt adding port 103 is arranged above the liquid mixer 104, the electrolytic cell 105 comprises an anode region 107 and a cathode region 108 which are separated by a diaphragm, the cathode region 108 is connected with the washing liquid storage tank 106, the washing liquid storage tank 106 is connected with a working space 2, a water inlet pipe 4 enters the box body and then is divided into an electrolytic water pipe 5 and a washing pipe 6, the electrolytic water pipe 5 is communicated with the liquid mixer 104, the washing pipe 6 is communicated with the working space 2, the liquid mixer 104 is provided with the salt adding port 103, the salt adding port 103 is embedded in the wall of the box body, the electrolysis trough 105 is connected with washing machine box 3 electricity, positive pole district 107 and negative pole district 108 all are provided with the pH sensor, electrolysis unit 1 is provided with the electrolysis controller, control module includes touch control panel, controller, the control panel embedding on the antetheca or the roof of box, the controller set up in control panel's below, the shutdown of controller control electrolysis controller.

The detergent is electrolyzed water, and almost no pollution is produced after the detergent is used, so that the washed water can be recycled, and water resources are saved and utilized. The detailed technical scheme is as follows.

Preferably, the bottom of the working space 2 is provided with a filtering device 7 and a circulating water pump 8, the filtering device 7 is connected with the bottom of the working space 2, a water inlet of the circulating water pump 8 is connected with the filtering device 7, a water outlet of the circulating water pump 8 is connected with the top of the working space 2, and the circulating water pump 8 can pump washing water to the roller for recycling after being filtered by the filtering device 7. When the washing machine is used, the washing water in the first time is directly discharged, and the washing water in the second time and later is filtered and recycled.

Preferably, the filtering device 7 comprises a first filtering layer 701, a second filtering layer 702 and a third filtering layer 703, wherein the first filtering layer 701 is a pp filtering element and has an inner diameter of 5-35 microns; the second filter layer 702 is a pp filter element, and the filter element of the second filter layer 702 is 0.5-1 micron; the third filter layer 703 is an RO reverse osmosis membrane. The top of the first filter layer 701 is connected with the working space 2, a filter device water outlet pipe 704 is arranged at the bottom of the first filter layer 701, the filter device water outlet pipe 704 is communicated with a box body water outlet pipe, and the bottom of the third filter layer 703 is connected with a water inlet pipe of the circulating water pump 8.

Preferably, the top of the third filter layer 703 is connected to the working space 2 by a back-flushing pipe 9. The backwash pipe 9 may clean the filter device with water from the washing zone.

Preferably, the water inlet of the circulating water pump 8 is communicated with the washing pipe 6 through a bypass cleaning pipe 10, and the bypass cleaning pipe 10 can directly introduce external tap water to backflush the filtering device 7 through the circulating water pump 8. The filter device can be further cleaned by tap water.

Variations and modifications to the above-described embodiments may occur to those skilled in the art, in light of the above teachings and teachings. Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and some modifications and changes to the present invention should fall within the protection scope of the claims of the present invention. Furthermore, although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.

Claims (10)

1. The utility model provides an use cleaning device of brineelectrolysis, characterized in that, includes electrolysis unit, workspace, the electrolysis unit is including the liquid mixer, electrolysis trough, the washing liquid storage tank that connect gradually, the liquid mixer provides the invariable brine that treats of electrolysis salt concentration, the electrolysis trough includes anode region and the cathode region that separates through the diaphragm, the cathode region is connected with the washing liquid storage tank, the washing liquid storage tank is connected with workspace.

2. The cleaning apparatus of claim 1, further comprising an anolyte reservoir connected to the workspace, the anolyte reservoir being provided with an anode outlet tube.

3. Cleaning device as claimed in claim 2, characterized in that the anode region is provided with a branch pipe, by means of which a connection to the working space is made.

4. The cleaning device as claimed in claim 3, wherein the liquid mixer is a venturi mixer, an ejector of the venturi mixer is directly mounted on a main pipe, one end of the main pipe is communicated with a water inlet pipe, the other end of the main pipe is communicated with the electrolytic cell, a saturated brine tank is arranged on the ejector, a salt adding port is arranged on the saturated brine tank, and the liquid mixer mixes the saturated brine with tap water to prepare brine to be electrolyzed, and the brine enters the electrolytic cell for electrolysis.

5. The cleaning device according to claim 3, wherein the anode region and the cathode region are each provided with a pH sensor, and the electrolysis unit is provided with an electrolysis controller which reads a measurement value of the pH sensor and stops electrolysis when a set pH value is reached in the cathode region.

6. The cleaning apparatus according to claim 3, wherein the anode region is provided with an anode and the cathode region is provided with a cathode, the ratio of the surface area of the cathode to the area of the anode being (1.05-1.2): 1.

7. The cleaning apparatus as claimed in claim 6, wherein a liquid level gauge is provided on the washing liquid storage tank, the liquid level gauge being provided with a warning water level.

8. The cleaning apparatus as claimed in claim 7, wherein the lowest point of the electrolytic bath has a height not less than the height of the highest point of the washing liquid storage tank.

9. The washing machine with the electrolytic water cleaning device is characterized by comprising a washing machine box body, a detergent module and a control module, wherein the detergent module comprises an electrolytic unit arranged inside the box body, the electrolytic unit comprises a liquid mixer, an electrolytic tank and a washing liquid storage tank which are sequentially connected, the liquid mixer provides electrolytic salt water with constant concentration to be electrolyzed, the electrolytic tank comprises an anode area and a cathode area which are separated by a diaphragm, the cathode area is connected with the washing liquid storage tank, the washing liquid storage tank is connected with the working space of the washing machine box body, an inlet pipe enters the box body and then is divided into an electrolytic water pipe and a washing pipe, the electrolytic water pipe is communicated with the liquid mixer, the washing pipe is communicated with the working space, the liquid mixer is provided with a salt adding port, the salt adding port is embedded into the wall of the box body, the electrolytic tank is electrically connected with the washing machine box body, the electrolysis unit is provided with the electrolysis controller, control module includes touch control panel, controller, control panel imbeds on the antetheca or the roof of box, the controller set up in control panel's below, the shutdown of controller control electrolysis controller.

10. The washing machine as claimed in claim 9, wherein the bottom of the working space is provided with a filtering device and a circulating water pump, the filtering device is connected with the bottom of the working space, a water inlet of the circulating water pump is connected with the filtering device, a water outlet of the circulating water pump is connected with the top of the working space, the circulating water pump can pump the washing water to the drum for recycling after being filtered by the filtering device, the filtering device comprises a first filtering layer, a second filtering layer and a third filtering layer, the first filtering layer is a pp filter element, and the inner diameter of the first filtering layer is 5-35 microns; the second filter layer is a pp filter element, and the filter element of the second filter layer is 0.5-1 micron; the third filter layer is an RO reverse osmosis membrane, the top of the third filter layer is connected with a working space through a backflushing pipe, a water inlet of the circulating water pump is communicated with a washing pipe through a bypass cleaning pipe, and the bypass cleaning pipe can directly introduce external tap water to pass through the circulating water pump backflushing filter device.

Images