Cleaning system, cleaning method and shared cleaning machine

文档序号:6816 发布日期:2021-09-17 浏览:63次 中文

1. A cleaning system is characterized in that: including the washing liquid temporary storage case that is used for allotting the washing liquid and at least a set of washing storehouse, the delivery port of washing liquid temporary storage case passes through the scavenge pipe and the water inlet intercommunication in washing storehouse, washing storehouse still is provided with the delivery port, control valve E and water pump F are equipped with on the scavenge pipe, water pump F still passes through the water piping connection water source, control valve H is equipped with on the inlet tube.

2. The cleaning system of claim 1, wherein: the water inlet of the cleaning bin is connected with a water source through the water discharge pipe, and the water discharge pipe is provided with a control valve I.

3. The cleaning system of claim 1, wherein: the cleaning fluid temporary storage tank is connected with a water replenishing pipe, a control valve C is arranged on the water replenishing pipe, and the water replenishing pipe is connected with a water source.

4. The cleaning system of claim 1, wherein: and the water outlet of the cleaning bin is communicated with the water inlet of the cleaning liquid temporary storage tank through a return pipe, and the return pipe is provided with a control valve G.

5. The cleaning system of claim 1, wherein: still including the cleaner storage box that is used for saving the cleaner, the cleaner storage box is through adding pipe and washing liquid temporary storage case intercommunication, it is equipped with control valve D to add the pipe.

6. The cleaning system of claim 3, wherein: the cleaning liquid temporary storage tank is connected with the water tank through a water replenishing pipe, the water pump is connected with the water tank through a water inlet pipe, the water discharge pipe is connected with the water tank, and the water tank is connected with a water source.

7. The cleaning system of claim 1, wherein: the water outlets of the cleaning bin are also respectively connected with at least one guide pipe, and the guide pipes are provided with control valves J.

8. The cleaning system of claim 1, wherein: the cleaning device is characterized by further comprising a fan, wherein an air outlet of the fan is communicated with the cleaning bin through a ventilation pipe, and a control valve T is arranged on the ventilation pipe.

9. The cleaning system of claim 1, wherein: the cleaning device further comprises a first overflow pipe, and a water inlet of the first overflow pipe is communicated with the cleaning bin.

10. The cleaning system of claim 1, wherein: the cleaning device further comprises a second overflow pipe, and a water inlet of the second overflow pipe is communicated with the cleaning liquid temporary storage tank.

11. The cleaning system of claim 1, wherein: the water filter is characterized by further comprising a filter water tank, the flow guide pipe is communicated with the filter water tank, the filter water tank outputs a circulating water source through a circulating pipe, and a filter and a circulating water pump are sequentially installed on the circulating pipe along the water flow direction.

12. The cleaning system of claim 1, wherein: the cleaning bin is internally provided with a supporting structure which is used for supporting the glasses so that the lenses are perpendicular to the horizontal plane or form an included angle with the horizontal plane.

13. The cleaning system of claim 1, wherein: the cleaning bin is provided with an ultrasonic generating device which is used for emitting ultrasonic waves into the cleaning bin.

14. A cleaning method is characterized by comprising the following steps:

s1, cleaning: putting the articles into a cleaning bin, conveying cleaning liquid into the cleaning bin to enable the cleaning liquid to be in contact with the articles to be cleaned, and discharging cleaning waste liquid in the cleaning bin;

s2, rinsing: after a period of time, stopping conveying the cleaning liquid into the cleaning bin, starting introducing rinsing liquid into the cleaning bin to enable the rinsing liquid to be in contact with the articles, and discharging rinsing waste liquid in the cleaning bin;

and S3, taking out the article.

15. The cleaning method as set forth in claim 14, wherein:

in the cleaning step, cleaning liquid is introduced into the cleaning bin while waste cleaning liquid in the cleaning bin is discharged;

or firstly introducing cleaning liquid into the cleaning bin to soak the articles in the cleaning liquid, and then discharging the cleaning waste liquid in the cleaning bin;

or soaking the articles in the cleaning liquid in the cleaning bin, and discharging the cleaning waste liquid in the cleaning bin while introducing the cleaning liquid into the cleaning bin.

16. The cleaning method as set forth in claim 14, wherein:

in the rinsing step, while introducing a rinsing liquid into the cleaning bin, discharging a rinsing waste liquid in the cleaning bin;

or firstly introducing rinsing liquid into the cleaning bin to enable the liquid level in the cleaning bin to rise to the overflow port of the cleaning bin, discharging foam on the liquid level from the overflow port, and then discharging rinsing waste liquid in the cleaning bin.

17. The cleaning method as set forth in claim 16, wherein: the number of times of discharging the foam is one, two or more.

18. The cleaning method as set forth in claim 16, wherein: in the process that the liquid level of the rinsing liquid in the cleaning bin rises, the rinsing liquid is introduced into the cleaning bin at a certain pressure, so that the rinsing liquid in the cleaning bin is impacted; and after the foam is discharged, quickly discharging the rinsing waste liquid in the cleaning bin.

19. The cleaning method as set forth in claim 16, wherein: in the process of discharging the rinsing liquid, the draining time is adjusted by controlling the liquid discharge flow.

20. The cleaning method as set forth in claim 14, wherein: and before taking out the articles in the cleaning bin, introducing cold air or hot air into the cleaning bin to air-dry the articles.

21. The cleaning method as set forth in claim 14, wherein: after cleaning liquid is introduced into the cleaning bin, ultrasonic waves are emitted into the cleaning bin through the ultrasonic wave generating device, and the cleaning liquid in the cleaning bin vibrates.

22. A shared cleaning machine comprising a housing having disposed therein the cleaning system of any one of claims 1-12, wherein: the shared cleaning machine comprises a cleaning cabin, a cleaning cabin door, a controller and a shared cleaning platform, wherein the cleaning cabin is fixed with a shell, the position, corresponding to the cleaning cabin, of the shell is provided with the cabin door, the cabin door is used for opening or closing the cleaning cabin, and the controller is in communication connection with the shared cleaning platform and used for controlling the action of a fan, each control valve and a water pump.

23. The shared cleaning machine as recited in claim 22, wherein: the controller comprises a main control module, and further comprises a power supply module, a communication module, an electromagnetic driving module and a motor driving module which are connected with the main control module.

24. The shared cleaning machine as recited in claim 22, wherein: and liquid level sensors are arranged in the water tank, the cleaning agent storage tank, the cleaning agent temporary storage tank and the filtering water tank and are connected with the controller.

25. The shared cleaning machine as recited in claim 22, wherein: the shell is also provided with a loudspeaker and an indicator light, and the loudspeaker and the indicator light are both connected with the controller.

Background

The myopia crowd and the sight seeing crowd in China have extremely large population base numbers, so the demand for various glasses is extremely large.

The myopic patient can not leave the glasses. When wearing glasses every day, on facial sweat, greasy dirt or the dust in the air all can be infected with glasses to it is dirty that glasses become, not only influences glasses normal use but also influences the mood, when the glasses person of wearing walks on the street when needing to wash glasses, often can not find the place of special washing glasses, oneself goes out and generally can not carry cleaning products yet, can only wait to go home again clean. For theaters, in contemporary society where 3D movies have become popular, 3D glasses are a necessity for theaters. For making things convenient for the movie fan, some cinema can provide free 3D glasses and use for the movie fan, and the movie fan need return the 3D glasses after seeing the shadow, for avoiding cross infection, guaranteeing the health of movie fan, the cinema needs clean and disinfect to the 3D glasses of retrieving, and some movie fans are used to oneself and carry 3D glasses to see the shadow, and own 3D glasses have no place to wash again, and clean the maintenance inconvenient.

Therefore, it is necessary to design a device for personal self-service cleaning of the glasses, which is convenient for a great number of glasses users.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a shared cleaning machine for self-service cleaning of glasses by individuals.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a cleaning system, is including the washing liquid temporary storage case that is used for allotting the washing liquid and at least a set of washing storehouse, the delivery port of washing liquid temporary storage case passes through the scavenge pipe and the water inlet intercommunication in washing storehouse, the washing storehouse still is provided with the delivery port, control valve E and water pump F are equipped with on the scavenge pipe, water pump F still passes through the water piping connection water source, control valve H is equipped with on the inlet tube.

As a preferable scheme: the water inlet of the cleaning bin is connected with a water source through the water discharge pipe, and the water discharge pipe is provided with a control valve I.

As a preferable scheme: the cleaning fluid temporary storage tank is connected with a water replenishing pipe, a control valve C is arranged on the water replenishing pipe, and the water replenishing pipe is connected with a water source.

As a preferable scheme: and the water outlet of the cleaning bin is communicated with the water inlet of the cleaning liquid temporary storage tank through a return pipe, and the return pipe is provided with a control valve G.

As a preferable scheme: still including the cleaner storage box that is used for saving the cleaner, the cleaner storage box is through adding pipe and washing liquid temporary storage case intercommunication, it is equipped with control valve D to add the pipe.

As a preferable scheme: the cleaning liquid temporary storage tank is connected with the water tank through a water replenishing pipe, the water pump is connected with the water tank through a water inlet pipe, the water discharge pipe is connected with the water tank, and the water tank is connected with a water source.

As a preferable scheme: the water outlets of the cleaning bin are also respectively connected with at least one guide pipe, and the guide pipes are provided with control valves J.

As a preferable scheme: the cleaning device is characterized by further comprising a fan, wherein an air outlet of the fan is communicated with the cleaning bin through a ventilation pipe, and a control valve T is arranged on the ventilation pipe.

As a preferable scheme: the cleaning device further comprises a first overflow pipe, and a water inlet of the first overflow pipe is communicated with the cleaning bin.

As a preferable scheme: the cleaning device further comprises a second overflow pipe, and a water inlet of the second overflow pipe is communicated with the cleaning liquid temporary storage tank.

As a preferable scheme: the water filter is characterized by further comprising a filter water tank, the flow guide pipe is communicated with the filter water tank, the filter water tank outputs a circulating water source through a circulating pipe, and a filter and a circulating water pump are sequentially installed on the circulating pipe along the water flow direction.

As a preferable scheme: the cleaning bin is internally provided with a supporting structure which is used for supporting the glasses so that the lenses are perpendicular to the horizontal plane or form an included angle with the horizontal plane.

As a preferable scheme: the cleaning bin is provided with an ultrasonic generating device which is used for emitting ultrasonic waves into the cleaning bin.

A method of cleaning comprising the steps of:

s1, cleaning: putting the articles into a cleaning bin, conveying cleaning liquid into the cleaning bin to enable the cleaning liquid to be in contact with the articles to be cleaned, and discharging cleaning waste liquid in the cleaning bin;

s2, rinsing: after a period of time, stopping conveying the cleaning liquid into the cleaning bin, starting introducing rinsing liquid into the cleaning bin to enable the rinsing liquid to be in contact with the articles, and discharging rinsing waste liquid in the cleaning bin;

and S3, taking out the article.

As a preferable scheme:

in the cleaning step, cleaning liquid is introduced into the cleaning bin while waste cleaning liquid in the cleaning bin is discharged;

or firstly introducing cleaning liquid into the cleaning bin to soak the articles in the cleaning liquid, and then discharging the cleaning waste liquid in the cleaning bin;

or soaking the articles in the cleaning liquid in the cleaning bin, and discharging the cleaning waste liquid in the cleaning bin while introducing the cleaning liquid into the cleaning bin.

As a preferable scheme:

in the rinsing step, while introducing a rinsing liquid into the cleaning bin, discharging a rinsing waste liquid in the cleaning bin;

or firstly introducing rinsing liquid into the cleaning bin to enable the liquid level in the cleaning bin to rise to the overflow port of the cleaning bin, discharging foam on the liquid level from the overflow port, and then discharging rinsing waste liquid in the cleaning bin.

As a preferable scheme: the number of times of discharging the foam is one, two or more.

As a preferable scheme: in the process that the liquid level of the rinsing liquid in the cleaning bin rises, the rinsing liquid is introduced into the cleaning bin at a certain pressure, so that the rinsing liquid in the cleaning bin is impacted; and after the foam is discharged, quickly discharging the rinsing waste liquid in the cleaning bin.

As a preferable scheme: in the process of discharging the rinsing liquid, the draining time is adjusted by controlling the liquid discharge flow.

As a preferable scheme: and before taking out the articles in the cleaning bin, introducing cold air or hot air into the cleaning bin to air-dry the articles.

As a preferable scheme: after cleaning liquid is introduced into the cleaning bin, ultrasonic waves are emitted into the cleaning bin through the ultrasonic wave generating device, and the cleaning liquid in the cleaning bin vibrates.

The utility model provides a shared cleaning machine, includes the casing, be provided with in the casing cleaning system, it is fixed with the casing to wash the storehouse, the position that corresponds to washing the storehouse on the casing is equipped with the door, the door is used for opening or seals the washing storehouse, and this shared cleaning machine still includes the controller, controller and shared cleaning platform communication connection for control fan and each control valve, water pump action.

As a preferable scheme: the controller comprises a main control module, and further comprises a power supply module, a communication module, an electromagnetic driving module and a motor driving module which are connected with the main control module.

As a preferable scheme: and liquid level sensors are arranged in the water tank, the cleaning agent storage tank, the cleaning agent temporary storage tank and the filtering water tank and are connected with the controller.

As a preferable scheme: the shell is also provided with a loudspeaker and an indicator light, and the loudspeaker and the indicator light are both connected with the controller.

Compared with the prior art, the invention has the advantages that: the shared cleaning machine can be used for personal code scanning, the cleaning machine sequentially cleans, rinses, washes and dries articles to be cleaned, an ideal cleaning effect can be achieved, a user only needs to put the articles to be cleaned into a cleaning bin after code scanning payment, the cleaning machine automatically finishes cleaning after a bin door is closed, the user only needs to wait for the completion of cleaning and take out the articles, the articles such as glasses, ornaments and the like can be cleaned anytime and anywhere, and great convenience is brought to the majority of glasses users; and the shared cleaning machine has different cleaning modes for users to select, and meets different cleaning requirements of the users.

Drawings

FIG. 1 is a schematic structural diagram of a cleaning system according to a first embodiment;

FIG. 2 is a schematic illustration of cleaning in accordance with one embodiment;

FIG. 3 is a schematic view of rinsing in the first embodiment;

FIG. 4 is a schematic view of a flushing operation according to the first embodiment;

FIG. 5 is a schematic structural view of a cleaning system according to a second embodiment;

FIG. 6 is a schematic structural view of a cleaning machine according to a fourth embodiment;

FIG. 7 is a schematic circuit diagram of a controller according to a fourth embodiment;

FIG. 8 is a schematic view of a support structure according to the fourth embodiment;

FIG. 9 is a schematic view of a support structure according to the fifth embodiment;

FIG. 10 is a schematic view of the use of the shared cleaning machine.

1, a water replenishing pipe; 2. a water inlet pipe; 3. a water discharge pipe; 4. cleaning the tube; 5. A return pipe; 6. a first draft tube; 7. a second draft tube; 8. a third draft tube; 9. a first overflow pipe; 10. a vent pipe; 11. a second overflow tube; 12. a clear liquid tube; 13. an addition pipe; 14. a drain pipe; 15. a circulation pipe; 16. cleaning a sewage pipe; 17. clearing the box pipe; 18. a housing; 19. Cleaning the bin; 20. a bin gate; 21. a display screen; 22. a speaker; 23. an indicator light; 24. buckling; 25. a chassis; 26. and (4) a column.

Detailed Description

The first embodiment is as follows:

referring to fig. 1, a cleaning system includes a water tank, and further includes a cleaning agent storage tank for storing a cleaning agent, a cleaning solution temporary storage tank for preparing a cleaning solution, and three sets of cleaning chambers.

Taking the first cleaning bin as an example for explanation: the cleaning agent storage box is connected with the cleaning solution temporary storage box through an adding pipe 13, a control valve D is arranged on the adding pipe 13, a drainage port of the cleaning solution temporary storage box is connected with a cleaning solution pipe 12, a control valve P is arranged on the clear liquid pipe 12, after the control valve P is opened, the cleaning liquid in the cleaning liquid temporary storage tank can be discharged through the clear liquid pipe 12, the water tank is connected with an external water source, the water inlet of the cleaning liquid temporary storage tank is communicated with the water tank through a water supplementing pipe 1, the water replenishing pipe 1 is provided with a control valve C, the water outlet of the cleaning liquid temporary storage tank is communicated with the water inlet of the cleaning bin through a cleaning pipe 4, the cleaning pipe 4 is provided with a control valve E and a water pump, the water outlet of the cleaning bin is communicated with the water inlet of the cleaning liquid temporary storage tank through a return pipe 5, the return pipe 5 is provided with a control valve G, the water tank is also communicated with the water inlet of the cleaning bin through a water inlet pipe 2, and the water inlet pipe 2 is provided with a control valve H and a water pump.

In this embodiment, scavenge pipe 4 and inlet tube 2 adopt the mode of a water pump of sharing, scavenge pipe 4 joins the intercommunication (for example adopt three way connection) with inlet tube 2 in water pump F's water inlet department promptly for water pump F can be flowed through to the liquid in scavenge pipe 4, and water pump F also can be flowed through to the liquid in the inlet tube F, because the scavenge pipe 4 is not flowing simultaneously with the liquid in the inlet tube 2, so can provide power for two pipelines through a water pump F, save the cost. In other embodiments, a water pump may be separately provided for each of the cleaning pipe 4 and the water inlet pipe 2.

The water tank is also communicated with a water inlet of the cleaning bin through a water discharge pipe 3, and a control valve I is arranged on the water discharge pipe 3.

In other embodiments, the return pipe 5 and the control valve G may be omitted, the cleaning chamber is provided with a water outlet, and a cleaning manner of discharging the waste water from the water outlet of the cleaning chamber while cleaning is adopted.

In other embodiments, the water tank can be eliminated, and the water replenishing pipe and the water inlet pipe are directly connected with the water source, so that the cleaning system can work normally.

The water outlet of the cleaning bin is also respectively connected with a first guide pipe 6, a second guide pipe 7 and a third guide pipe 8, the first guide pipe 6 is provided with a control valve J, the second guide pipe 7 is provided with a control valve K, and the third guide pipe 8 is provided with a control valve M.

The first guide pipe 6, the second guide pipe 7 and the third guide pipe 8 are all used for discharging waste water or clean water in the cleaning bin, in the embodiment, the three guide pipes are connected with the water discharge pipe 14, the three guide pipes share one water discharge pipe 14, the pipeline is simplified, in other embodiments, the guide pipes can not be connected with the water discharge pipe 14, and each guide pipe directly discharges waste water.

The system also comprises a fan, wherein an air outlet of the fan is communicated with the cleaning bin through a ventilation pipe 10, and a control valve T is arranged on the ventilation pipe 10.

It is emphasized that air drying is not necessary, e.g., the draining time is long enough that the lens will dry when the draining is complete.

For avoiding the water level in the washing storehouse too high, and increase clean effect and reduce the foam residue that produces in wasing, this system still includes first overflow pipe 9, the water inlet and the washing storehouse intercommunication of first overflow pipe 9, when the water level was high to the water inlet position of first overflow pipe 9, floated the foam of remaining in washing storehouse liquid and will follow first overflow pipe 9 and discharge, can get rid of the foam that washs and rinsing produced more efficiently, reduce follow-up time and the number of times of washing. Also, to simplify piping, the outlet of the first overflow pipe 9 is directly connected to the drain pipe 14.

In order to avoid the water level in the washing liquid temporary storage tank from being too high, the system further comprises a second overflow pipe 11, the water inlet of the second overflow pipe 11 is communicated with the washing liquid temporary storage tank, and the water outlet of the second overflow pipe 11 is directly communicated with the water discharge pipe 14 for simplifying the pipeline.

The cleaning system in this embodiment requires an external water source, hereinafter referred to as an active cleaning system.

Taking an active cleaning system as an example:

the working principle of the cleaning system is as follows:

in the initial state, each control valve is in a closed state.

And opening the cleaning bin, putting the object to be cleaned into the cleaning bin, and closing the cleaning bin.

Before cleaning, the control valve D is opened for a period of time, and the cleaning agent in the cleaning agent storage box flows into the cleaning agent temporary storage box through the adding pipe 13 (the cleaning agent storage box can be higher than the cleaning agent temporary storage box in height, and after the control valve D is opened, the cleaning agent automatically flows to the cleaning agent temporary storage box under the action of gravity); meanwhile, the control valve C is opened for a period of time, and clean water in the water tank flows into the cleaning liquid temporary storage tank through the water supplementing pipe 1, so that the cleaning liquid can be supplemented in the cleaning liquid temporary storage tank; and after the completion of the supplement, closing the control valve C and the control valve D, thus completing the preparation of the cleaning liquid.

Subsequently, the cleaning is started, and referring to fig. 2, the cleaning steps are: the control valve E is opened, the control valve G is opened, the water pump F is started at the same time, at the moment, the cleaning liquid in the cleaning liquid temporary storage box is pumped into the cleaning bin through the cleaning pipe 4 (the water flow direction is shown by a dotted line arrow in the figure), the cleaning liquid enters the cleaning bin at a certain water pressure and flow rate by the power provided by the water pump F, the cleaning liquid is fully contacted with the articles to be cleaned, all parts of the articles to be cleaned can be effectively washed, the articles are soaked and washed, and therefore stains on the articles to be cleaned can be removed; the cleaning liquid flows back from the cleaning bin to the cleaning liquid temporary storage box through the return pipe 5, so that the circular flow of the cleaning liquid is realized, and after the cleaning liquid flows circularly for a period of time, the cleaning is finished.

During the cleaning process, the two overflow pipes 11 can discharge the redundant liquid in the cleaning liquid temporary storage tank.

After the cleaning is finished, the control valve E is closed, and then rinsing is started.

Referring to fig. 3, the rinsing step is: the control valve H is opened, the control valve G is opened, the water pump F is opened, and at the moment, clear water in the water tank flows through the water inlet pipe 2 and the water pump F and enters the cleaning bin (the water flow direction is shown by a dotted arrow in the figure), so that articles to be cleaned are washed; the rinsing liquid flows back to the cleaning liquid temporary storage box along the return pipe 5. In the process, the water pump and the cleaning bin are also rinsed, the residual cleaning liquid in the water pump F and the cleaning bin is taken away, and the secondary recovery of the cleaning liquid is realized.

After the rinsing was completed, rinsing was started.

The washing steps were as follows:

in the case of flushing, the first method is: control valve I opens, control valve G closes, the clear water is from the water tank through in the bleeder 3 pours into the washing storehouse, when washing storehouse water head to a locating position, the foam that floats above the surface of water will be discharged through first overflow pipe, a period of time back, control valve J opens (or control valve K opens, or control valve M opens), control valve J, K, M is the control valve of different flow, open different control valves in J, K, M through the selection, can control the drainage time in washing storehouse, control the waterlogging caused by excessive rainfall time on article surface promptly, adjust the cleaning performance, make cleaning system can be applicable to different article, realize different cleaning performance.

In the case of flushing, the second method is: control valve H is opened, water pump F is opened, control valve G, I is closed (K, M is also closed), water is filled through the water pump, when the cleaning bin is filled with water to a certain position, liquid bubbles floating on the water surface are discharged through the first overflow pipe, and after a period of time, control valve J is opened (or control valve K is opened or control valve M is opened).

In order to achieve a better washing effect, when the clear water filled into the cleaning bin is full of water to a certain position, the bubbles floating on the clear water can be discharged through the first overflow pipe, after a period of time, the control valve G (the valve is a large-discharge water valve) is opened, so that the water in the cleaning bin can be discharged quickly, then the clear water is filled again, the clear water filled into the cleaning bin is full of water to a certain position, the bubbles floating on the clear water are discharged through the first overflow pipe continuously, the control valve G is opened again, so that the water in the cleaning bin can be discharged … quickly, water is discharged and drained for many times, and foams, floaters and impurities can be fully removed. After the last water drainage and emptying, the cleaning effect of the cleaning bin and the cleaning objects is good. When the articles are drained and dried in the last emptying process, the valve J can be controlled to be opened, or the valve K can be controlled to be opened, or the valve M can be controlled to be opened to drain water, so that different draining times can be controlled, and different cleaning objects and cleaning effects can be adjusted.

In the first washing mode, the clear water flows naturally and is not pressurized by the water pump F, so that the clear water flows into the washing bin gently and gently, foams are prevented from being generated by the clear water, and air bubble marks remained on the surfaces of the articles after washing can be avoided. Therefore, the first flushing mode is more preferable.

After cleaning, rinsing and washing, the articles can reach qualified cleanliness.

The cleaning liquid is recycled for a certain number of times, the cleaning liquid needs to be replaced, at the moment, the control valve P is opened, the cleaning liquid in the cleaning liquid temporary storage tank is discharged from the clear liquid pipe 12, and then the cleaning liquid is prepared again.

Example two:

referring to fig. 5, the present embodiment is different from the first embodiment in that: the water in this embodiment is recycled without an external water source. Specifically, the method comprises the following steps: this embodiment has increased the filtration water tank, first honeycomb duct 6, second honeycomb duct 7, third honeycomb duct 8, first overflow pipe 9 and second overflow pipe 11 all with filter the water tank intercommunication, filter the water tank and pass through circulating pipe 15 and water tank intercommunication, and be equipped with filter and circulating water pump along the rivers direction in proper order on circulating pipe 15, filter the water tank in addition and still pass through dirt cleaning pipe 16 and drain pipe 14 intercommunication, control valve L is equipped with on dirt cleaning pipe 16, the water tank passes through clear case pipe 17 and drain pipe 14 intercommunication, control valve Q is equipped with on clear case pipe 17.

The cleaning system in this embodiment does not require an external water source and is hereinafter referred to as a passive cleaning system.

The difference from the cleaning system in the first embodiment is that: when the cleaning system in this embodiment works, the liquid discharged from each flow guide pipe, the first overflow pipe 9 and the second overflow pipe 11 flows into the filter water tank, and then the liquid in the filter water tank is pumped by the circulating water pump, so that the liquid in the filter water tank flows along the circulating pipe 15, flows through the filter, and finally flows into the water tank, thereby realizing the recycling of water without replenishing water to the system every time of cleaning.

In this embodiment, an ultrasonic wave generating device (not shown in the figure) is further installed on the cleaning bin, and in the working process of the cleaning system, the ultrasonic wave generating device emits ultrasonic waves into the cleaning bin to vibrate liquid in the cleaning bin, so that stains hidden in deep and dead corners of articles can be cleaned, and a better cleaning effect can be achieved.

Example three:

a cleaning method is characterized by comprising the following steps:

s1, cleaning: the method comprises the following steps of putting articles into a cleaning bin (the pressure of rinsing liquid can be increased by adopting modes of water pump pressurization, spray head spraying and the like), conveying cleaning liquid into the cleaning bin, enabling the cleaning liquid to be in contact with the articles to be cleaned, discharging cleaning waste liquid in the cleaning bin, and directly discharging the cleaning waste liquid or recycling the cleaning waste liquid.

The cleaning step is divided into three cases:

the first method is as follows: in the cleaning step, cleaning liquid is introduced into the cleaning bin, and cleaning waste liquid in the cleaning bin is discharged at the same time, so that the cleaning liquid can be washed to the surface of an article, and stains on the surface of the article can be removed quickly.

The second method is as follows: firstly, introducing cleaning liquid into the cleaning bin to soak the articles in the cleaning liquid for a period of time, discharging cleaning waste liquid in the cleaning bin, removing stains on the surfaces of the articles by soaking, and discharging the cleaning waste liquid after soaking.

The third is: firstly, injecting cleaning liquid into the cleaning bin to enable the liquid level of the cleaning liquid to reach a certain height, soaking the articles in the cleaning liquid, then introducing the cleaning liquid into the cleaning bin while discharging the cleaning waste liquid in the cleaning bin to enable the articles to be kept in a soaked state, and emptying the cleaning waste liquid after a period of time.

In order to improve the cleaning effect, when the cleaning step is executed, after cleaning liquid is introduced into the cleaning bin, ultrasonic waves can be emitted into the cleaning bin through the ultrasonic wave generating device, so that the cleaning liquid in the cleaning bin vibrates, deep stains on articles can be vibrated out, and a better cleaning effect is achieved.

S2, rinsing: after the cleaning is finished, the cleaning liquid is stopped being conveyed into the cleaning bin, the rinsing liquid is introduced into the cleaning bin, the rinsing liquid is made to contact with the articles, the rinsing waste liquid in the cleaning bin is discharged, and the rinsing waste liquid can be directly discharged and can also be recycled.

The rinsing liquid can be clear water or rinsing agent conditioning water which is beneficial to draining articles and removing bubbles.

The rinsing step is divided into two cases:

the first method is as follows: while introducing the rinsing liquid into the cleaning bin, discharging the rinsing waste liquid in the cleaning bin, so that the rinsing liquid washes away the residual cleaning liquid on the surface of the article, thereby achieving the purpose of rinsing.

The second method is as follows: the rinsing liquid is firstly introduced into the cleaning bin, the rinsing liquid can generate foam when washing away the residual cleaning liquid of the articles, and if the foam is not discharged, the foam can be remained on the surfaces of the articles when the rinsing waste liquid in the cleaning bin is emptied, so that the surfaces of the articles can be drained and then the bubble marks are left. Therefore, the rinsing liquid in the washing bin needs to be defoamed before the rinsing waste liquid is drained, so that bubble marks are avoided after the articles are drained.

The whole bubble removing steps are as follows: and introducing rinsing liquid into the cleaning bin without discharging rinsing waste liquid until the liquid level of the rinsing liquid rises to the height of an overflow port at the upper part of the cleaning bin, wherein foam floating on the liquid level of the rinsing liquid and other floating objects flow out of the overflow port, then stopping introducing the rinsing liquid and discharging the rinsing waste liquid, and discharging impurities and other foams along with the rinsing waste liquid. So can prevent to have the bubble to stop on the article surface when evacuation rinsing waste liquid, avoid article surface to produce the bubble trace after driping.

In order to facilitate the outflow of the foam from the overflow port, the inner top surface of the cleaning bin can be designed into an inclined surface, and the overflow port is arranged on the upper part of the cleaning bin and close to one side part with the higher inclined surface. So, rising along with the rinsing liquid level in the washing storehouse, the foam that floats on the rinsing liquid level contacts with the inclined plane earlier, under the guide effect of the effect of liquid level jacking and inclined plane, the foam concentrates and extrudes from the overflow mouth to the overflow mouth, so make remove the bubble more thoroughly.

It should be noted that when introducing the rinsing liquid into the cleaning bin, the rinsing liquid can be pressurized to flow into the cleaning bin at a certain pressure (the pressure of the rinsing liquid can be increased by adopting modes such as water pump pressurization and spray of a spray head), so that the surface of an article can be flushed by a stronger impact force of the rinsing liquid, the cleaning liquid remained on the surface of the article can be flushed more thoroughly, more foams can be excited, more cleaning liquid components can be taken out when the foams are discharged, the rinsing can be more thorough, and a better rinsing effect can be achieved.

In addition, when the rinsing waste liquid is emptied, the rinsing waste liquid is preferably emptied quickly by adopting large flow, so that impurities discharged by washing can be flushed away when water flows out quickly, and rinsing can be accelerated.

During the evacuation of the rinsing liquid, the surface of the articles simultaneously drains and dries. For different types of articles and cleaning requirements, the draining time can be adjusted by controlling the liquid discharge flow in the process of discharging the rinsing liquid.

The items may be supported by providing a support structure within the washing chamber such that the items, such as glasses, have their lenses perpendicular or near perpendicular to the horizontal plane. Gravity action makes the rinsing liquid decline in-process, and the faster waterlogging caused by excessive rainfall of glasses surface can also avoid forming the bubble vestige on the lens, further promotes cleaning efficiency and cleaning quality.

Before taking out the articles in the cleaning bin, cold air or hot air can be introduced into the cleaning bin to quickly dry the articles.

And S3, taking out the article.

Example four:

referring to fig. 6, a shared cleaning machine comprises a housing 18, a cleaning system in the first embodiment or the second embodiment is arranged in the housing 18, a cleaning bin 19 is fixed with the housing 18, a bin door 20 is arranged on the housing 18 corresponding to the cleaning bin 19, an electromagnetic door lock is arranged on the bin door 20, and the bin door 20 is used for opening or closing the cleaning bin 19.

Referring to fig. 7, the shared cleaning machine further includes a controller, and the controller includes a main control module, and further includes a power module, a communication module, an electromagnetic driving module, a motor driving module, and a display screen 21, which are connected to the main control module. The electromagnetic door lock and the control valve are connected with the electromagnetic driving module, and the water pump and the fan are connected with the motor driving module. The electromagnetic driving module is used for controlling an electromagnetic door lock and a control valve to generate switching action, the motor driving module is used for controlling the start and stop of the water pump and the fan, and the communication module is used for the connection and communication between the controller and the shared cleaning platform.

Liquid level sensors are arranged in the water tank, the cleaning agent storage tank, the cleaning fluid temporary storage tank and the filtering water tank and used for detecting the liquid level height in each tank body, and the liquid level sensors are connected with the main control module. In addition, a speaker 22 and an indicator lamp 23 are mounted on the housing 18. Speaker 22, pilot lamp 23 all are connected with host system, and speaker 22 is used for reporting the operation suggestion, and pilot lamp 23 is used for showing the washing progress.

Control programs of all function modes are written in the controller in advance, namely control parameters and action sequences of all control valves, water pumps and fans in each function mode.

Referring to fig. 8, in the present embodiment, a support structure is provided in the cleaning chamber 19, the support structure includes an "L" shaped buckle 24 fixed with the cleaning chamber, when the chamber door 20 is opened, one temple of the glasses is inserted into the buckle 24, and the buckle 24 supports the glasses, at this time, the lenses tend to be perpendicular to the horizontal plane (i.e. the lenses are perpendicular to the horizontal plane or have a certain included angle with the water surface). So make at the stage of washing, the clear water makes water can flow down from the lens fast by the gravity behind the scouring lens, makes the lens can dripdry moisture more fast, shortens the drying time of lens. In other embodiments, the shape of the clip 24 may be "C" shaped, and the temple may be passed through the clip 24.

The support structure of this embodiment can also be added to the cleaning chamber of the first or second embodiment.

Example five:

referring to fig. 9, the present embodiment is different from the third embodiment in the supporting structure. In this embodiment, the support structure is a stand-alone support frame that includes a base frame 25 and at least one upright 26 secured to the base frame. After the compartment door 20 is opened, the support frame is taken out, the glasses are folded, the upright posts 26 penetrate through the inside of the glasses, and the support frame together with the glasses is pushed into the cleaning compartment 19. The posts 26 also support the eyewear so that the lenses tend to be perpendicular to the horizontal, which can accelerate the draining of water. In other embodiments, clips may be attached to the chassis 25, and the eyeglasses may be clipped together by the clips so that the lenses tend to be perpendicular to the horizontal plane.

The support structure of this embodiment can also be added to the cleaning chamber of the first or second embodiment.

The use method of the shared cleaning machine comprises the following steps:

referring to fig. 10, an identification code on a display screen or a body is scanned by a mobile phone, the mobile phone accesses a shared cleaning platform and jumps to a functional operation page after the code is scanned, a user selects a cleaning mode, after the cleaning is determined, a server of the shared cleaning platform automatically allocates an idle cleaning bin, and sends a cleaning instruction to a controller according to the cleaning mode selected by the user, the controller controls an electromagnetic door lock after receiving the cleaning instruction, so that a bin door of the selected cleaning bin automatically pops open, the user puts articles into the cleaning bin, closes the bin door after the articles are put in, and then sequentially opens, performs cleaning, rinsing, washing or air drying until the whole cleaning process is finished, the user scans the code again for operation after the cleaning is finished, and the bin door automatically pops open after the operation is finished, and prompts the user to take out the articles and close the bin door.

Payment can be completed during the first code scanning, namely, the payment is firstly carried out and then the cleaning is carried out; and payment can be completed during the second code scanning, namely payment after cleaning.

For example:

code scanning-selecting quick washing-after payment is successful-automatically distributing cleaning groups-distributing cleaning groups (the groups automatically pop up a cabinet door and light a red light) -putting the object to be cleaned into the cabinet-closing the cabinet door (light a green light) -automatically starting the machine-automatically detecting the liquid level of the cleaning liquid temporary storage tank:

when the high water level A is reached, the next process is directly carried out; if not, the C valve is opened to replenish water, and when the liquid level reaches A, the C valve is closed.

When the machine is in operation, as long as the liquid level is lower than the point B, the valve C can automatically open the make-up water to enter, and the valve C is closed when the water level reaches the point A. If the water level A is not reached after a certain time (30 seconds for temporary setting), the machine gives an alarm and lights a water level insufficiency lamp until the water level A is reached.

The D valve is opened for a certain time (temporarily set for 5 seconds) to supplement the cleaning agent every time the liquid level is detected (if the cleaning agent is lower than B1, an automatic alarm is given and a liquid supplement lamp is turned on until the cleaning agent is higher than B1).

As long as the liquid level is lower than the B point, the valve C is opened to automatically supplement water, the valve D is opened for a certain time (temporarily set for 5 seconds) to supplement the cleaning agent.

Rinse start (pause for 30 seconds): after the detection of the liquid level is completed, the E, F, G valve is opened (for a 30 second pause), and the cleaning liquid flows back to the cleaning liquid temporary storage tank. After 30 seconds, the rinse was carried out.

Rinse start (tentative 40 seconds): E. closed, H valve open. After-40 seconds the F, H, G valve closes and a flush is entered, which informs the customer that the wash is complete.

1. Quick wash (3 minutes in use) was selected:

the whole process comprises the following steps: the method comprises the steps of code scanning, group selection, detection, cleaning, rinsing, flushing and slow water drainage.

The I valve is opened to flush, the I valve is closed after 12 seconds, the G valve is opened (temporarily set for 5 seconds) -5 seconds later, the I valve is opened, the G valve is closed (temporarily set for 12 seconds) -12 seconds later, the I valve is closed, the J valve is opened (temporarily set for 81 seconds) -81 seconds later, and the client is informed that the cleaning is finished.

2. Selecting standard washing: 480 seconds (8 minutes)

The whole process comprises the following steps: the method comprises the steps of code scanning, group selection, detection, cleaning, rinsing, flushing, slow water discharging and air drying.

The washing mode is as follows:

the I valve is opened to flush, the I valve is closed after 12 seconds, the G valve is opened (temporarily set for 5 seconds) -5 seconds later, the I valve is opened, the G valve is closed (temporarily set for 12 seconds) -12 seconds later, the I valve is closed, the K valve is opened (temporarily set for 321 seconds) -321 seconds later, the fan is started, the air valve 1 is opened (temporarily set for 180 seconds) -180 seconds later, and the client is informed that the cleaning is finished.

3. Selecting luxury washing: 900 seconds (15 minutes)

The whole process comprises the following steps: the method comprises the steps of code scanning, group selection, detection, cleaning, rinsing, flushing, slow water discharging and air drying.

The washing mode is as follows:

the I valve is opened to flush, the I valve is closed after 12 seconds, the G valve is opened (temporarily set for 5 seconds) -5 seconds later, the I valve is opened, the G valve is closed (temporarily set for 12 seconds) -12 seconds later, the I valve is closed, the G valve is opened (temporarily set for 5 seconds) -5 seconds later, the I valve is opened, the G valve is closed (temporarily set for 12 seconds) -the M valve is opened (temporarily set for 604 seconds) -604 seconds later, the fan is started, the air valve 1 is opened (temporarily set for 180 seconds), and the client is informed that the cleaning is finished after 180 seconds.

It should be noted that: in each mode, the time length of cleaning, rinsing, washing, draining and air drying is adjustable, and the time is only described by the examples.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

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