CN115387434A - Basin of intelligence purification of water quality that disinfects - Google Patents

Abstract

The application discloses intelligence basin of purifying water quality that disinfects includes: the main water tank comprises a main tank body and a main water tank edge arranged on the edge of the main tank body, and the bottom of the main tank body is also provided with a main drainage hole; the auxiliary water tank comprises an auxiliary tank body and an auxiliary water tank edge arranged on the edge of the auxiliary tank body, and an auxiliary water drainage hole is formed in the bottom of the auxiliary tank body; the water catalyst generator is arranged on the main water tank, and an installation groove for installing the water catalyst generator is formed in the side wall of the main water tank; the water pipe comprises a main water pipe and an auxiliary water pipe, and the main water pipe is arranged at the bottom of the main water tank and is connected with the main drainage hole; the auxiliary water pipe is arranged at the bottom of the auxiliary water tank and is connected with the auxiliary water drainage hole; the recovery device is arranged on the main water pipe and used for recovering the waste water cleaned by the main water tank; wherein, the main drainage hole and the auxiliary drainage hole are both provided with plugs, the invention has the beneficial effects that: through installing water catalyst generator to reach disinfection, purification, remove incomplete effect of farming, can have skin-friendly sense and clean sense when wasing the face after the quality of water changes.

Description

Basin of purification of water quality disinfects intelligently

Technical Field

The invention belongs to the technical field of kitchen utensils, and particularly relates to an intelligent water tank for sterilizing and purifying water.

Background

Kitchen sink, also called kitchen basin, is divided into steel plate enamel, ceramic, quartz stone, artificial stone, acrylic, crystal stone sink, stainless steel, cast iron enamel and so on according to the material; the basin is divided into a single basin, a double basin, a large basin and a small basin, a special-shaped basin and the like according to styles and is mainly divided into a single groove, a double groove and a triple groove.

In the prior art, when the kitchen washs the raw and fresh food, generally wash through water in the basin, patent as publication number CN113273706B, it discloses a food purification basin convenient to it is clean, including the basin, basin back inner wall fixed mounting has the sterilamp, the inner wall of basin embolias has the flourishing dish fence of constituteing by two rectangle boards that correspond about, flourishing dish fence bottom surface fixedly connected with filter sieve, the equidistant fixedly connected with several connecting plate in bottom of flourishing dish fence left and right sides inner wall, the right flank top of basin is the water injection section of thick bamboo that hollow state and fixedly connected with are the top surface fretwork, the water filling port has been seted up to the right flank of water injection section of thick bamboo, the inner wall of water injection section of thick bamboo embolias the picture peg, through the setting of flourishing dish fence, when wasing the flourishing dish fence through injecting water stream washing, utilize the power of clear water injection to flourish the dish fence to carry out reciprocal the rocking, let the bottom surface and the clearance pole of flourishing dish fence scrape each other, thereby reach the function of automatic clearance bearing the vegetables and fruits, and compare in manual clearance, the scope of guaranteeing that the clearance receives the effect is high.

However, in actual use, the vegetables and fruits cannot be completely cleaned by simply injecting water through the water injection cylinder, shaking the vegetable containing column and arranging the sliding plate, and particularly, harmful substances, pesticides, bacteria, viruses and the like remained on the vegetables and fruits can cause damage to human bodies after being taken into the bodies for a long time, thereby affecting the health of the human bodies.

Disclosure of Invention

The invention aims to provide an intelligent water tank for sterilizing and purifying water quality, which can solve the problems.

The utility model provides a basin of purification of water quality disinfects to intelligence includes:

the main water tank comprises a main tank body and a main water tank edge arranged on the edge of the main tank body, and the bottom of the main tank body is also provided with a main drainage hole;

the auxiliary water tank comprises an auxiliary tank body and an auxiliary water tank edge arranged on the edge of the auxiliary tank body, and an auxiliary water drainage hole is formed in the bottom of the auxiliary tank body;

the water catalyst generator is arranged on the main water tank, and an installation groove for installing the water catalyst generator is formed in the side wall of the main water tank;

the water pipe comprises a main water pipe and an auxiliary water pipe, and the main water pipe is arranged at the bottom of the main water tank and is connected with the main drainage hole; the auxiliary water pipe is arranged at the bottom of the auxiliary water tank and is connected with the auxiliary water drainage hole;

the recovery device is arranged on the main water pipe and used for recovering the waste water cleaned by the main water tank;

wherein, the main drainage hole and the auxiliary drainage hole are both provided with plugs.

Further, the recycling apparatus includes:

the first recovery mechanism is arranged at the bottom of the main water pipe and communicated with the main water pipe, the first recovery mechanism comprises a recovery box and a rotary box arranged in the recovery box, a plurality of water outlet holes are formed in the side wall of the rotary box, and the rotary box can rotate in the recovery box;

the second recovery mechanism is arranged at the bottom of the first recovery mechanism and connected with the first recovery mechanism, the recovery mechanism comprises a recovery pipe, a second falling object opening communicated with the rotary box is formed in the top of the recovery pipe, a water storage tank is communicated with the bottom of the recovery pipe, and a filter screen is arranged at the connection position of the water storage tank and the recovery pipe;

the auxiliary recovery mechanism is connected with the second recovery mechanism and is used for assisting the second recovery mechanism to recover waste water.

Further: the first recycling mechanism further comprises:

the rotary structure comprises a convex ring arranged on the inner wall of the recovery box and a boss arranged on the outer wall of the rotary box, wherein the boss is provided with a groove matched with the convex ring, and a bearing is also arranged in the groove;

the driving structure comprises a gear ring arranged on the outer wall of the rotary box and a first motor arranged on the outer wall of the recovery box, wherein a gear is arranged on an output shaft of the first motor, the gear is meshed with the gear ring, and the first motor drives the rotary box to rotate through the gear and the gear;

the recycling structure comprises a first falling object opening, a sealing cover and a pressure sensor, wherein the first falling object opening is arranged at the bottom of the rotary box and is communicated with the second falling object opening;

the drainage structure comprises a water guide plate arranged on the first falling object opening, a water guide groove is formed between the water guide plate and the inner wall of the recycling box, and a water guide pipe is arranged between the water guide groove and the water storage tank;

the top of the recycling box and the top of the rotating box are respectively provided with a first through hole and a second through hole through which a water supply pipe penetrates, and sealing structures are arranged among the first through hole, the second through hole and the water pipe.

Further, the second recovery mechanism further includes:

the pushing structure comprises a lead screw arranged on the outer wall of the recovery pipe, a sliding block penetrating into the recovery pipe is arranged on the lead screw, a sliding groove for the sliding block to move is formed in the recovery pipe, a pushing block connected with the sliding block is arranged in the recovery pipe, and the outer wall of the pushing block is attached to the inner wall of the recovery pipe;

the extrusion structure comprises an arc-shaped convex cover arranged at the top of the recovery pipe, a rotating rod is arranged in the arc-shaped convex cover, a plurality of extrusion plates are rotatably connected onto the rotating rod, the side walls of the extrusion plates are attached to the side walls of the recovery pipe, and the extrusion plates are attached to the inner wall of the arc-shaped convex cover when rotating;

the reset structure comprises a fixed block arranged in the recovery pipe, the fixed block is arranged on one side, far away from the pushing structure, of the extrusion mechanism, a reset block is arranged at one end, close to the extrusion structure, of the fixed block, a first spring is arranged between the reset block and the fixed block, a folding protective sleeve is arranged between the reset block and the fixed block, and the first spring is wrapped in the folding protective sleeve;

wherein, the stripper plate is 4 at least, and when the stripper plate rotated, the stripper plate and reset block butt.

Further, the auxiliary recovery mechanism includes:

the connecting platform is arranged at the bottom of the filter screen, the bottom of the connecting platform is rotatably connected with an installation cylinder, a circular groove is formed in one end, away from the connecting platform, of the installation cylinder, and a movable groove is formed in the side wall of the installation cylinder;

one end of the first connecting rod is arranged in the circular groove, the other end of the first connecting rod is provided with a reset groove, one end of the first connecting rod, which is provided with an opening, is provided with a guide ring, the guide ring consists of arc-shaped bulges and arc-shaped grooves which are distributed at intervals, and the arc-shaped bulges and the arc-shaped grooves are distributed annularly around the reset groove;

the cleaning rod is arranged on the outer wall of the first connecting rod, a scraping plate is arranged on one side, close to the filter screen, of the cleaning rod, and bristles are densely distributed on the scraping plate;

the second motor is arranged in the water storage tank, a second connecting rod is arranged on an output shaft of the second motor, one end of the second connecting rod extends into the reset groove, a limiting head is arranged at one end, away from the second motor, of the second connecting rod, a poke rod is arranged on the outer wall of the second connecting rod, and the poke rod is abutted to the guide ring;

the second spring is arranged in the reset groove and sleeved outside the second connecting rod, one end of the second spring is connected with the limiting head, one end of the second spring is provided with a sealing head, and the sealing head is arranged at an opening of the reset groove;

the first connecting rod is provided with a movable rod, and one end of the movable rod, which is far away from the first connecting rod, extends into the movable groove.

Further, the recovery unit further includes a collection mechanism for recovering the waste water and the waste material, the collection mechanism includes:

the waste box is used for storing the collected waste materials and waste residues, and a first pipeline communicated with the recovery pipe is arranged on the waste box;

the first waste water tank is used for collecting and storing waste water, a second pipeline communicated with the water storage tank is arranged on the first waste water tank, the diameter of the second pipeline is smaller than that of the first pipeline, the second pipeline is merged into the first pipeline, and a first control valve and a second control valve are respectively arranged at two ends of the second pipeline;

the device also comprises a cleaning structure, wherein the cleaning structure is connected with the second pipeline and used for dredging the second pipeline.

Further, the cleaning structure includes:

the flow detection device is arranged in the second pipeline and is used for detecting the flow in the second pipeline;

the circulating pipeline is arranged on the second pipeline and communicated with the second pipeline, the circulating pipeline is positioned between the first control valve and the second control valve, a third control valve and a fourth control valve are respectively arranged at two ends of the circulating pipeline, and a circulating pump is further arranged on the circulating pipeline;

the first conveying pipeline is arranged on the first waste water tank and communicated with the circulating pipeline, and a fifth control valve is arranged on the first conveying pipeline;

a discharge pipeline communicated with the circulating pipeline is arranged on the second waste water tank, and a sixth control valve is arranged on the discharge pipeline;

the liquid storage tank is internally distributed with cleaning solution, and is provided with a second conveying pipeline communicated with the circulating pipeline, and the second conveying pipeline is provided with a seventh control valve;

the waste water treatment device further comprises a standby pipeline, the standby pipeline is arranged between the first waste water tank and the water storage tank and communicated with the first waste water tank and the water storage tank, and an eighth control valve is arranged on the standby pipeline.

The flow detection device is connected with the flow detection device, the first control valve, the second control valve, the third control valve, the fourth control valve, the fifth control valve, the sixth control valve, the seventh control valve, the eighth control valve and the circulating pump, wherein the flow detection device detects the flow flowing through the second pipeline in real time and judges the flow, the judgment result is sent to the controller, the flow value detected by the flow detection device in real time in a normal state is set to be Q, and the minimum flow value detected by the flow detection device in the normal state is set to be Q1.

Through setting up the controller, can make the second pipeline wash by oneself when blockking up, needn't dismantle the second pipeline and wash.

Further, the invention also discloses a control method of the intelligent sterilizing water purifying sink, which comprises the following steps:

s0, the controller controls the first control valve and the second control valve to be opened, and all other control valves are in closed states;

s1, detecting the flow in the second pipeline in real time by a flow detection device, judging whether Q is more than or equal to Q1,

s2, when Q is more than or equal to Q1 in the step S1, the second pipeline is not blocked;

s3, when Q is less than Q1 in the step S1, the second pipeline is blocked, the controller controls the first control valve and the second control valve to be closed, and simultaneously controls the third control valve and the fourth control valve to be opened, so that the circulating pipeline is communicated with the second water pipe, and simultaneously controls the fifth control valve and the seventh control valve, the first waste water tank and the liquid storage tank respectively inject water and cleaning liquid into the circulating pipeline, and finally the circulating pump is controlled to be opened, so that the second pipeline is circularly cleaned;

s4, after the circulating pump in the step S3 is started, the controller controls the eighth control valve to be opened, so that the wastewater in the water storage tank flows into the first wastewater tank through the standby pipeline;

s5, when the circulating pump in the step S3 is started for a period of time, Q is more than or equal to Q1, the second pipeline is cleaned, the controller controls the sixth control valve to be opened, cleaning wastewater in the second pipeline is discharged into a second wastewater tank, and meanwhile, the first control valve, the second control valve are controlled to be opened, and the third control valve, the fourth control valve, the fifth control valve and the seventh control valve are controlled to be closed;

s6, when the circulating pump in the step S3 is started for a period of time and Q is less than Q1, the second pipeline is still blocked, and the controller continues to control the circulating pump to operate until Q is more than or equal to Q1.

The beneficial effects of the invention are:

1. the water catalyst generator is arranged on the main water tank, no additive is needed to be added, the water is purified through the cracking and reduction of water molecules, hydroxyl radicals are formed by the water under the action of the water catalyst generator and react with organic matters, and the hydroxyl radicals are oxidized to generate substances harmless to human bodies, so that the effects of disinfection, purification and pesticide residue removal are achieved, and the skin-friendly feeling and the clean feeling can be achieved when the face is washed after the water quality is changed;

2. through the arrangement of the first recovery mechanism, the recovery box and the rotary box, and the plurality of water outlet holes are formed in the side wall of the rotary box, water is thrown out of the rotary box through the water outlet holes to rotate outwards under the action of centrifugal force, small-particle solid impurities remain in the rotary box to play a role of primary separation, the remaining solid impurities fall into the second recovery mechanism to be subjected to secondary separation, the solid and the liquid are separated through the filter screen, the liquid flows into the water storage tank, and the fixed impurities remain in the recovery pipe to wait for further treatment;

3. when the auxiliary recovery mechanism is used, the auxiliary recovery mechanism is matched with the second recovery mechanism to be used synchronously, when the pushing block and the extrusion plate extrude solid impurities, the second motor is started to drive the second connecting rod and the first connecting rod to rotate, the cleaning rod drives the scraper blade to rotate when the first connecting rod rotates, smaller particles in the solid impurities can be effectively prevented from being embedded into the filter screen under the brushing action of the scraper blade with bristles, the filter screen is cleaned and protected, and small-particle solid impurities can be prevented from entering the water storage tank;

4. by arranging the cleaning structure, the flow detection device in the second pipeline detects the flow in the second pipeline in real time, when the detected numerical value is normal, the first control valve and the second control valve on the second pipeline are in an opening state, other valves and the circulating pump are in a closing state, when the detected numerical value is abnormal, namely the second pipeline is blocked, the cleaning structure is started, the first control valve and the second control valve are closed, the third control valve and the fourth control valve on the circulating pipeline are opened, the fifth control valve on the first conveying pipeline is opened, the wastewater stored in the first wastewater tank is guided into the circulating pipeline, the seventh control valve on the second conveying pipeline is opened, the cleaning solution in the liquid storage tank is guided into the circulating pipeline, and after the cleaning solution and the wastewater are guided into the circulating pipeline, the circulating pump is opened, make cleaning solution and waste water mix and at circulating line and second pipeline inner loop, wash the second pipeline, adopt the waste water of storing in the first waste water tank to wash, can effectively utilize the water resource, need not use the running water to wash, the water resource has been saved, avoid the liquid accumulation in the water storage tank too much in abluent while, open the eighth control valve on the spare pipeline when wasing, make the water in the water storage tank can continue leading-in the first waste water tank when wasing, leading-in water can be for first waste water tank replenishment waste water, avoid the water storage in the first waste water tank not enough, the numerical value that detects after wasing normally stops wasing, open the sixth control valve on the discharge pipeline, discharge the mixed waste water after wasing in second pipeline and the circulating line in the second waste water tank, can close the seventh control valve at last.

Drawings

FIG. 1 is a schematic view of the structure of the sink of the present invention;

FIG. 2 is a schematic view of the construction of the recycling apparatus of the present invention;

FIG. 3 is an enlarged view of A in FIG. 2;

FIG. 4 is an enlarged view of B in FIG. 2;

FIG. 5 is a schematic view of the tap lever of the present invention connected to a guide ring;

FIG. 6 is a schematic diagram of the connection of the controller of the present invention;

fig. 7 is a block diagram showing the structure of the control method of the present invention.

The reference numbers in the figures are: 100. a main water tank; 110. a main trough body; 111. a main water tank side; 112. a main drain hole; 120. a secondary water tank; 121. an auxiliary tank body; 122. an auxiliary water tank side; 123. a secondary drain hole; 130. a plug; 200. a water catalyst generator; 300. a main water pipe; 400. a recycling bin; 401. a first through hole; 410. a rotary box; 411. a water outlet hole; 412. a second through hole; 420. a convex ring; 421. a boss; 422. a groove; 423. a bearing; 430. a ring gear; 431. a first motor; 432. a gear; 440. a first drop port; 441. sealing the cover; 450. a water guide plate; 451. a water chute; 452. a water conduit; 500. a recovery pipe; 510. a second falling object opening; 520. a water storage tank; 521. a filter screen; 530. a lead screw; 531. a slider; 532. a chute; 533. a push block; 540. an arc convex cover; 541. a rotating rod; 542. a pressing plate; 550. a fixed block; 551. a reset block; 552. a first spring; 553. folding the protective sleeve; 600. a connecting table; 610. mounting the cylinder; 611. a circular groove; 612. a movable groove; 613. a movable rod; 620. a first link; 621. a reset groove; 630. a guide ring; 631. an arc-shaped bulge; 632. an arc-shaped groove; 640. a cleaning rod; 641. a squeegee; 642. brushing; 650. a second motor; 651. a second link; 652. a limiting head; 653. a poke rod; 660. a second spring; 661. a sealing head; 700. a waste bin; 710. a first conduit; 720. a first wastewater tank; 721. a second pipe; 722. a first control valve; 723. a second control valve; 730. a flow detection device; 740. a circulating pipeline; 741. a third control valve; 742. a fourth control valve; 743. a circulation pump; 750. a first delivery conduit; 751. a fifth control valve; 760. a second wastewater tank; 761. a discharge conduit; 762. a sixth control valve; 770. a liquid storage tank; 771. a second delivery conduit; 772. a seventh control valve; 780. a standby pipeline; 781. an eighth control valve; 800. and a controller.

Detailed Description

The technical solutions in the embodiments of the present application will be described clearly below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. All other embodiments that can be derived by one of ordinary skill in the art from the embodiments given herein are intended to be within the scope of the present disclosure.

The terms first, second and the like in the description and in the claims of the present application are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It will be appreciated that the data so used may be interchanged under appropriate circumstances such that embodiments of the application may be practiced in sequences other than those illustrated or described herein, and that the terms "first," "second," and the like are generally used herein in a generic sense and do not limit the number of terms, e.g., the first term can be one or more than one. In addition, "and/or" in the specification and claims means at least one of connected objects, a character "/", and generally means that the former and latter related objects are in an "or" relationship.

The water tank for intelligent sterilization and water purification provided by the embodiment of the present application is described in detail by specific embodiments and application scenarios thereof with reference to the accompanying drawings.

Example 1:

as shown in fig. 1 and fig. 2, an embodiment of the present application provides an intelligent water tank for sterilizing and purifying water, including:

the main water tank 100 comprises a main tank body 110 and a main water tank 100 edge arranged at the edge of the main tank body 110, and the bottom of the main tank body 110 is also provided with a main drainage hole 112;

the auxiliary water tank 120 comprises an auxiliary tank body 121 and an auxiliary water tank 120 edge arranged at the edge of the auxiliary tank body 121, and an auxiliary water drainage hole 123 is also arranged at the bottom of the auxiliary tank body 121;

the water catalyst generator 200 is arranged on the main water tank 100, and an installation groove for installing the water catalyst generator 200 is arranged on the side wall of the main water tank 100;

a water pipe including a main water pipe 300 and an auxiliary water pipe, the main water pipe 300 being disposed at the bottom of the main water tank 100 and connected to the main drain hole 112; the auxiliary water pipe is arranged at the bottom of the auxiliary water tank 120 and connected with the auxiliary water discharge hole 123;

a recycling device disposed on the main water pipe 300 for recycling the waste water cleaned by the main water tank 100;

wherein, plugs 130 are disposed on the main drainage hole 112 and the auxiliary drainage hole 123.

In some embodiments of the present application, as shown in fig. 1, the water tank for intelligently sterilizing and purifying water quality is adopted, fresh food and food-containing appliances can be purified, and has the functions of removing pesticide residues, sterilizing and disinfecting, and taking common fresh food cleaning as an example, by installing the water catalyst generator 200 on the main water tank 100, the water is purified by splitting and reducing water molecules without adding any additive, water forms hydroxyl radicals under the action of the water catalyst generator 200 and reacts with organic matters, and is further oxidized to generate substances such as O2, CO2, H2O, and mineral salts which are harmless to human bodies, so that the effects of disinfection and purification are achieved, and the water quality can have skin-friendly feeling and clean feeling when the face is cleaned after being changed, meanwhile, the main water drainage hole 112 and the auxiliary water drainage hole 123 are respectively arranged on the main water tank 100 and the auxiliary water tank 120 and are matched with the main water pipe 300 and the auxiliary water pipe 300, so that water in the main water tank 100 and the auxiliary water tank 120 can be drained, and the main water drainage hole 112 and the auxiliary water drainage hole 123 can be matched with the plug 130, and the water can be fully recycled by using the water injection device, and the water can be fully recycled.

In addition, the photocatalyst generator 200 and the recovery device mentioned in the above description can also be installed on a wash basin, which can also be called as a wash basin, the structure of the wash basin is virtually not different from that of a sink, the sink is used for washing fresh food or other articles needing washing, and the wash basin is used for washing faces.

Example 2:

the embodiment of the application provides a basin of purifying water quality disinfects of intelligence, except including above-mentioned technical characteristics, the basin of purifying water quality disinfects of intelligence of the embodiment of the application still includes following technical characteristics.

As shown in fig. 2 to 4, the recovery apparatus includes:

the first recovery mechanism is arranged at the bottom of the main water pipe 300 and communicated with the main water pipe 300, the first recovery mechanism comprises a recovery tank 400 and a rotary tank 410 arranged in the recovery tank 400, a plurality of water outlet holes 411 are formed in the side wall of the rotary tank 410, and the rotary tank 410 can rotate in the recovery tank 400;

the second recovery mechanism is arranged at the bottom of the first recovery mechanism and connected with the first recovery mechanism, the recovery mechanism comprises a recovery pipe 500, a second falling object opening 510 communicated with the rotary tank 410 is formed in the top of the recovery pipe 500, a water storage tank 520 is communicated with the bottom of the recovery pipe 500, and a filter screen 521 is arranged at the connection position of the water storage tank 520 and the recovery pipe 500;

and the auxiliary recovery mechanism is connected with the second recovery mechanism and is used for assisting the second recovery mechanism to recover the wastewater.

In the embodiment of the present application, when washing fresh food or agricultural products, the fresh food or agricultural products often have other small particle impurities such as mud, which are mixed with water after washing and cannot be blocked by the plug 130, the washing wastewater with impurities often is discharged through the main water pipe 300, which cannot be recycled, which is very wasteful, and the water purified by the photocatalyst generator 200 has a higher recycling value than the common water, therefore, the present patent sets up the recycling device to recycle the wastewater discharged from the main water pipe 300, and separate the silt in the wastewater and the small particle impurities thereof, the recycling device includes a first recycling mechanism, a second recycling mechanism and an auxiliary recycling mechanism, which are used in cooperation with the first recycling mechanism, the second recycling mechanism and the auxiliary recycling mechanism, which can effectively remove the silt and other small particle impurities in the wastewater, the recycled water can be used for secondary washing, which can also be used for other aspects such as toilet water, etc., which effectively saves water, wherein, by setting the first recycling mechanism, both ends of the first recycling mechanism are respectively communicated with the main water pipe 300 and the second small particle impurities in the main water pipe 300, the water can be used for secondary washing, and can be used for improving the effect of the solid impurities left in the rotary filter screen 410 by the rotary filter screen 411, which is set up and the rotary filter screen 410, which can be set up and the secondary separation of the rotary filter screen 410, the rotary screen 410, which can be set up for primarily set up for the first recycling mechanism, which can be used for recycling the solid impurities in the rotary screen 410, in liquid inflow storage water tank 520, fixed impurity then left over waits for further processing in recovery tube 500, when retrieving liquid through filter screen 521, sets up to assist and retrieves the mechanism and retrieve the mechanism to the second and assist to improve recovery efficiency and effect.

Example 3:

the embodiment of the application provides a basin of intelligence purification of water quality that disinfects, except including above-mentioned technical characteristics, the basin of intelligence purification of water quality that disinfects of the embodiment of the application still includes following technical characteristics.

As shown in fig. 2 and 3, the first recovery mechanism further includes:

the rotating structure comprises a convex ring 420 arranged on the inner wall of the recovery box 400 and a boss 421 arranged on the outer wall of the rotating box 410, wherein the boss 421 is provided with a groove 422 matched with the convex ring 420, and a bearing 423 is also arranged in the groove 422;

the driving structure comprises a gear ring 430 arranged on the outer wall of the rotary box 410 and a first motor 431 arranged on the outer wall of the recovery box 400, wherein a gear 432 is arranged on an output shaft of the first motor 431, the gear 432 is meshed with the gear ring 430, and the first motor 431 drives the rotary box 410 to rotate through the gear 432 and the gear 432;

a recycling structure including a first falling object port 440 disposed at the bottom of the rotary case 410 and communicated with the second falling object port 510, a cover 441 disposed on the first falling object port 440, and a pressure sensor disposed on the cover 441, wherein the cover 441 is opened when the pressure sensor receives a certain pressure;

a drainage structure including a water guide plate 450 disposed on the first drop port 440, a water guide groove 451 formed between the water guide plate 450 and the inner wall of the recovery tank 400, and a water guide pipe 452 disposed between the water guide groove 451 and the water storage tank 520;

the top of the recycling tank 400 and the top of the rotating tank 410 are respectively provided with a first through hole 401 and a second through hole 412 through which a water supply pipe passes, and sealing structures are arranged between the first through hole 401 and the water pipe and between the second through hole 412 and the water pipe.

In the embodiment of the application, the first recycling mechanism is arranged to primarily recycle wastewater, the main water pipe 300 sequentially passes through the first through hole 401 and the second through hole 412 and extends into the rotary tank 410, the wastewater is directly guided into the rotary tank 410, the driving structure is started at the moment and operates in cooperation with the rotary structure, the first motor 431 is started and drives the gear 432 to rotate, the gear 432 rotates to drive the rotary tank 410 to rotate through the gear ring 430, the rotary tank 410 rotates in the recycling tank 400 through the convex ring 420 and the groove 422, the abrasion is reduced while the rotation effect is improved by arranging the bearing 423 in the groove 422, the service life is prolonged, when the rotary tank 410 rotates, liquid is thrown onto the inner wall of the recycling tank 400 through the water storage hole, and is accumulated in the water guide groove 451 through the inner wall of the recycling tank 400 and the water guide plate 450, water in the water guide groove 451 is guided into the water storage tank 520 through the water guide pipe 452, after the first motor 431 of the rotary tank 410 stops, the sealing cover 441 on the first falling object port 440 is opened, solid impurities are collected in the recycling pipe 500, and then are further treated, most of the impurities can be collected together.

Example 4:

the embodiment of the application provides a basin of purifying water quality disinfects of intelligence, except including above-mentioned technical characteristics, the basin of purifying water quality disinfects of intelligence of the embodiment of the application still includes following technical characteristics.

As shown in fig. 2 and 4, the second recovery mechanism further includes:

the pushing structure comprises a screw rod 530 arranged on the outer wall of the recovery pipe 500, the screw rod 530 is provided with a slide block 531 penetrating into the recovery pipe 500, the recovery pipe 500 is provided with a chute 532 for the slide block 531 to move, a push block 533 connected with the slide block 531 is arranged in the recovery pipe 500, and the outer wall of the push block 533 is attached to the inner wall of the recovery pipe 500;

the extrusion structure comprises an arc convex cover 540 arranged at the top of the recovery pipe 500, a rotating rod 541 is arranged in the arc convex cover 540, a plurality of extrusion plates 542 are rotatably connected to the rotating rod 541, the side walls of the extrusion plates 542 are attached to the side walls of the recovery pipe 500, and the extrusion plates 542 are attached to the inner wall of the arc convex cover 540 when rotating;

the recovery device comprises a recovery pipe 500, a fixed block 550, a pushing mechanism, a reset block 551, a first spring 552, a folding protective sleeve 553, a first spring 552 and a second spring 552, wherein the fixed block 550 is arranged in the recovery pipe 500, the fixed block 550 is arranged on one side, away from the pushing mechanism, of the squeezing mechanism, the end, close to the squeezing mechanism, of the fixed block 550 is provided with the reset block 551, the first spring 552 is arranged between the reset block 551 and the fixed block 550, and the folding protective sleeve 553 is wrapped by the first spring 552;

the number of the pressing plates 542 is at least 4, and when the pressing plates 542 rotate, the pressing plates 542 abut against the reset block 551.

In the embodiment of the present application, after the first recycling mechanism recycles, liquid may remain on the solid impurities falling into the recycling pipe 500, and when the fixed impurities are introduced, the liquid may hardly fall into the recycling pipe 500 together, and by providing the second recycling mechanism, the liquid may be recycled, when the cover 441 is closed, the pushing structure is activated, the screw 530 drives the slider 531 to move in the chute 532, the slider 531 drives the push block 533 to move when moving, the push block 533 gradually pushes the solid impurities towards the direction of the extrusion structure when moving, at this time, the solid impurities contact with one side of the extrusion plate 542, because the reset structure is provided on the other side of the extrusion plate 542, both of the solid impurities are squeezed, and when the liquid remaining on the solid impurities is squeezed and falls into the water storage tank 520 through the filter screen 521, when the push block 533 continuously drives the solid impurities to push towards the extrusion plate 542, the extrusion plate 542 drives the reset block 551, the box fixing block 550 to move, the first spring 552 between the reset block 551 and the fixing block 550 is gradually compressed, until the thrust force applied to the extrusion plate 542 is greater than the elastic force of the first spring 552 reset, the extrusion plate 542 pushes away the sliding block and rotates along the rotating rod 541 in the arc-shaped convex cover 540, when the extrusion plate 542 rotates, the extruded solid impurities can be moved to one side of the recovery pipe 500 away from the pushing structure and fall into the waste material box 700 through the first pipeline 710 for centralized recovery, so as to facilitate subsequent centralized treatment, wherein the outer wall of the push block 533 is attached to the inner wall of the recovery pipe 500, namely the outer wall of the push block 533 is attached to the recovered inner wall, so that the pushing and sealing effects can be improved, the extrusion plate 542 is attached to the inner wall of the arc-shaped convex cover 540 when rotating, so as to play a role in closing the inner space of the arc-shaped convex cover 540, and then improve the extrusion effect, simultaneously, after stripper plate 542 and sliding block separation, lead screw 530 is beaten ejector pad 533 and is reset, the sliding block resets under first spring 552's effect, next stripper plate 542 and sliding block butt, wait for next extrusion, can also be with the solid impurity recovery processing after the separation waste water in the recovery waste water, the recovery efficiency is improved, can also avoid solid impurity to accumulate in recovery tube 500, be equipped with folding lag 553 between stripper plate 551 and fixed block 550 in addition, first spring 552 wraps up in folding lag 553, can prevent that solid impurity from blockking first spring 552.

Example 5:

the embodiment of the application provides a basin of purifying water quality disinfects of intelligence, except including above-mentioned technical characteristics, the basin of purifying water quality disinfects of intelligence of the embodiment of the application still includes following technical characteristics.

As shown in fig. 2 to 4, the auxiliary recovery mechanism includes:

the connecting table 600 is arranged at the bottom of the filter screen 521, the bottom of the connecting table 600 is rotatably connected with an installation cylinder 610, one end of the installation cylinder 610, which is far away from the connecting table 600, is provided with a circular groove 611, and the side wall of the installation cylinder 610 is provided with a movable groove 612;

one end of the first connecting rod 620 is arranged in the circular groove 611, the other end of the first connecting rod 620 is provided with a reset groove 621, the end of the first connecting rod 620, which is provided with an opening, is provided with a guide ring 630, the guide ring 630 is composed of arc-shaped protrusions 631 and arc-shaped grooves 632 which are distributed at intervals, and the arc-shaped protrusions 631 and the arc-shaped grooves 632 are distributed annularly around the reset groove 621;

the cleaning rod 640 is arranged on the outer wall of the first connecting rod 620, a scraper 641 is arranged on one side of the cleaning rod 640 close to the filter screen 521, and bristles 642 are densely distributed on the scraper 641;

the second motor 650 is arranged in the water storage tank 520, a second connecting rod 651 is arranged on an output shaft of the second motor 650, one end of the second connecting rod 651 extends into the reset groove 621, a limiting head 652 is arranged at one end, far away from the second motor 650, of the second connecting rod 651, a poke rod 653 is arranged on the outer wall of the second connecting rod 651, and the poke rod 653 is abutted against the guide ring 630;

the second spring 660 is arranged in the reset groove 621 and sleeved outside the second connecting rod 651, one end of the second spring 660 is connected with the limiting head 652, one end of the second spring 660 is provided with a sealing head 661, and the sealing head 661 is arranged at the opening of the reset groove 621;

the first connecting rod 620 is further provided with a movable rod 613, and one end of the movable rod 613, which is far away from the first connecting rod 620, extends into the movable groove 612.

In some embodiments of the present application, when the auxiliary recycling mechanism is used, the auxiliary recycling mechanism needs to be used in synchronization with the second recycling mechanism, when the pushing block 533 and the pressing plate 542 squeeze solid impurities, the auxiliary recycling mechanism is activated, at this time, the second motor 650 is turned on and drives the second connecting rod 651 to rotate, under the action of the second spring 660, the shifting rod 653 abuts against the arc protrusion 631 or the arc groove 632 in the guide ring 630, so that the second connecting rod 651 can drive the first connecting rod 620 to rotate in a normal state, while the first connecting rod 620 rotates, the cleaning rod 640 drives the scraper 641 to rotate, since the bristles 642 are densely distributed on the scraper 641, it is possible to effectively prevent smaller particles in the solid impurities from being embedded into the filter screen 521 under the brushing action of the bristles 642, not only the cleaning and protecting effects on the filter screen 521 are achieved, but also small particles of solid impurities can be prevented from entering the water storage tank 520, meanwhile, when the cleaning rod 640 or the first connecting rod 620 is locked, at this time, the second motor 650 continues to drive the second connecting rod 651 to rotate, while the second connecting rod 651 rotates, while the second connecting rod 631 continuously rotates, and the arc protrusion 631 and the first connecting rod 620 is connected to the filter screen 521, when the arc protrusion 631 and the filter screen 600 is moved, the first connecting rod 521, the arc protrusion 631 and the filter screen 600 is moved, the filter screen 600 is returned to the filter screen 600, the filter screen 600 is returned, the filter screen 521, the filter screen is returned, the filter screen 600 is returned, the filter screen is returned to the filter cylinder, the filter screen 600, when the filter screen 521, can effectively improve the recovery effect, but also can shake when cleaning the unable function of pole 640, avoid filter screen 521 to produce and block up, in addition, through the setting of activity groove 612 and movable rod 613, can play certain limiting action to the home range of first link 620, the home range of first link 620 is decided by the length of activity groove 612.

Example 6:

the embodiment of the application provides a basin of purifying water quality disinfects of intelligence, except including above-mentioned technical characteristics, the basin of purifying water quality disinfects of intelligence of the embodiment of the application still includes following technical characteristics.

As shown in fig. 2 and 6, the recycling apparatus further includes a collecting mechanism for recycling the waste water and the waste material, the collecting mechanism including:

the waste box 700 is used for storing the collected waste materials and waste residues, and a first pipeline 710 communicated with the recovery pipe 500 is arranged on the waste box 700;

the first wastewater tank 720 is used for collecting and storing wastewater, a second pipeline 721 communicated with the water storage tank 520 is arranged on the first wastewater tank 720, the diameter of the second pipeline 721 is smaller than that of the first pipeline 710, the second pipeline 721 is merged into the first pipeline 710, and a first control valve 722 and a second control valve 723 are respectively arranged at two ends of the second pipeline 721;

wherein, still include clean structure, clean structure is connected with second pipeline 721 for dredge second pipeline 721.

In the embodiment of the present application, by providing the waste tank 700, waste materials and waste residues, i.e., solid impurities, discharged from the recycling pipe 500 may be collected, the solid impurities may fall from the recycling pipe 500 into the waste tank 700 through the first pipe 710, in order to prevent the solid impurities from being accumulated at the corner of the first pipe 710, the first pipe 710 may be arranged in a straight line type without any corner, by providing the first waste tank 720, waste water derived from the water storage tank 520 may be collected, water in the water storage tank 520 may be delivered to the first waste tank 720 through the water pump and the second pipe 721, wherein the second pipe 721 is incorporated into the first pipe 710 during installation, which may effectively reduce an occupied space, and may also simplify an installation route of the second pipe 721, thereby making an overall layout simpler, and further, the second pipe 721 may generate scale or other impurities on an inner wall after long-time use, which may cause the second pipe 721 to be blocked, which may reduce a flow rate of the second pipe 721, and thus may need to be periodically cleaned, but since a portion of the second pipe 721 is incorporated into the first pipe 710, the second pipe 721 may not need to be cleaned, and thus the second pipe 721 may not need to be removed at any time without dredging the second pipe 721, and may be cleaned.

Further, the cleaning structure includes:

a flow rate detection device 730 provided in the second pipe 721 and configured to detect a flow rate in the second pipe 721;

a circulation pipe 740, disposed on the second pipe 721 and communicated with the second pipe 721, wherein the circulation pipe 740 is located between the first control valve 722 and the second control valve 723, two ends of the circulation pipe 740 are respectively provided with a third control valve 741 and a fourth control valve 742, and the circulation pipe 740 is further provided with a circulation pump 743;

a first transfer pipe 750 disposed on the first wastewater tank 720 and communicated with the circulation pipe 740, the first transfer pipe 750 being provided with a fifth control valve 751;

a discharge pipe 761 communicated with the circulation pipe 740 is arranged on the second waste water tank 760, and a sixth control valve 762 is arranged on the discharge pipe 761;

a liquid storage tank 770, wherein cleaning liquid is stored in the liquid storage tank 770, a second conveying pipeline 771 communicated with the circulating pipeline 740 is arranged on the liquid storage tank 770, and a seventh control valve 772 is arranged on the second conveying pipeline 771;

wherein, still include reserve pipeline 780, reserve pipeline 780 sets up between first waste water tank 720 and storage water tank 520 and communicates first waste water tank 720 and storage water tank 520, just be equipped with eighth control valve 781 on the reserve pipeline 780.

In some embodiments of the present application, the flow rate detecting device 730 in the second pipe 721 detects the flow rate in the second pipe 721 in real time, when the detected values are normal, the first control valve 722 and the second control valve 723 on the second pipe 721 are in an open state, the other second control valve 723, the third control valve 741, the fourth control valve 742, the fifth control valve 751, the sixth control valve 762, the seventh control valve 772, the eighth control valve 781 and the circulation pump 743 are in a closed state, when the detected values are abnormal, that is, when the second pipe 721 is blocked, the cleaning structure is activated, the first control valve 722 and the second control valve 723 are closed, the third control valve 741 and the fourth control valve 742 on the circulation pipe 740 are opened, the fifth control valve 751 on the first delivery pipe 750 is opened, and the wastewater stored in the first wastewater tank 720 is introduced into the circulation pipe 740, the seventh control valve 772 of the second transfer line 771 is opened to introduce the cleaning liquid in the liquid storage tank 770 into the circulation line 740, and after the cleaning liquid and the waste water are introduced into the circulation line 740, the circulation pump 743 is opened to mix the cleaning liquid and the waste water and circulate the cleaning liquid and the waste water in the circulation line 740 and the second line 721 to clean the second line 721 by using the waste water stored in the first waste water tank 720, so that water resources can be effectively utilized without using tap water for cleaning, thereby saving water resources, and in order to avoid excessive liquid accumulation in the water storage tank 520 during cleaning, the eighth control valve 781 of the standby line 780 is opened during cleaning to allow the water in the water storage tank 520 to be continuously introduced into the first waste water tank 720 during cleaning, the introduced water can supplement the waste water for the first waste water tank 720, thereby avoiding insufficient water storage in the first waste water tank 720, and when the detected value after cleaning is normal, the cleaning is stopped, the sixth control valve 762 of the discharge pipe 761 is opened to discharge the mixed wastewater after the second pipe 721 and the circulation pipe 740 are cleaned into the second wastewater tank 760, and finally the seventh control valve 772 may be closed to continue opening the sixth control valve 762, and the wastewater in the first wastewater tank 720 is used for flushing, and then discharged into the second wastewater tank 760 after the flushing is completed, and finally all the valves except the first control valve 722 and the second control valve 723 are closed to close the circulation pump 743, and then the first control valve 722 and the second control valve 723 are opened to allow the second pipe 721 to be normally supplied with water.

Further, the flow rate control device further comprises a controller 800, and the controller 800 is connected to the flow rate detection device 730, the first control valve 722, the second control valve 723, the third control valve 741, the fourth control valve 742, the fifth control valve 751, the sixth control valve 762, the seventh control valve 772, the eighth control valve 781, and the circulation pump 743, wherein the flow rate detection device 730 detects and judges the flow rate flowing through the second pipeline 721 in real time, and sends the judgment result to the controller 800, the flow rate value detected by the flow rate detection device 730 in real time in the normal state is set to be Q, and the minimum flow rate value detected by the flow rate detection device 730 in the normal state is set to be Q1. By providing the controller 800, the second pipe 721 can be cleaned by itself when it is clogged, and it is not necessary to detach the second pipe 721 for cleaning.

Example 7:

the embodiment of the application provides a control method of the intelligent sterilizing water purifying sink, and as shown in fig. 7, the control method comprises the following steps:

s0, the controller 800 controls the first control valve 722 and the second control valve 723 to be opened, and all other control valves are in a closed state;

s1, the flow rate detecting device 730 detects the flow rate in the second pipe 721 in real time, determines whether Q is greater than or equal to Q1,

s2, when Q is more than or equal to Q1 in the step S1, the second pipeline 721 is not blocked;

s3, when Q is less than Q1 in the step S1, the second pipeline 721 is blocked, the controller 800 controls the first control valve 722 and the second control valve 723 to be closed, controls the third control valve 741 and the fourth control valve 742 to be opened at the same time, enables the circulating pipeline 740 to be communicated with the second water pipe, controls the fifth control valve 751 and the seventh control valve 772 at the same time, respectively injects water and cleaning liquid into the circulating pipeline 740 by the first waste water tank 720 and the liquid storage tank 770, and finally controls the circulating pump 743 to be opened to circularly clean the second pipeline 721;

s4, after the circulating pump 743 in the step S3 is started, the controller 800 controls the eighth control valve 781 to be opened, so that the wastewater in the water storage tank 520 flows into the first wastewater tank 720 through the standby pipeline 780;

s5, when the circulating pump 743 in the step S3 is started for a period of time, Q is larger than or equal to Q1, which indicates that the second pipeline 721 is cleaned, the controller 800 controls the sixth control valve 762 to be opened, so that the cleaning wastewater in the second pipeline 721 is discharged into the second wastewater tank 760, and then controls the first control valve 722 and the second control valve 723 to be opened, and controls the third control valve 741, the fourth control valve 742, the fifth control valve 751 and the seventh control valve 772 to be closed;

s6, when the circulating pump 743 in the step S3 is started for a period of time, Q is less than Q1, the second pipeline 721 is still blocked, and the controller 800 continues to control the circulating pump 743 to operate until Q is more than or equal to Q1.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one of 8230, and" comprising 8230does not exclude the presence of additional like elements in a process, method, article, or apparatus comprising the element. Further, it should be noted that the scope of the methods and apparatus of the embodiments of the present application is not limited to performing the functions in the order illustrated or discussed, but may include performing the functions in a substantially simultaneous manner or in a reverse order based on the functions involved, e.g., the methods described may be performed in an order different than that described, and various steps may be added, omitted, or combined. In addition, features described with reference to certain examples may be combined in other examples.

While the present embodiments have been described with reference to the accompanying drawings, it is to be understood that the invention is not limited to the precise embodiments described above, which are meant to be illustrative and not restrictive, and that various changes may be made therein by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (9)

1. The utility model provides a basin of intelligence purification of water that disinfects which characterized in that: the method comprises the following steps:

the main water tank (100) comprises a main tank body (110) and a main water tank (100) edge arranged on the edge of the main tank body (110), and the bottom of the main tank body (110) is also provided with a main drainage hole (112);

the auxiliary water tank (120) comprises an auxiliary tank body (121) and an auxiliary water tank (120) side arranged at the edge of the auxiliary tank body (121), and an auxiliary water drainage hole (123) is further formed in the bottom of the auxiliary tank body (121);

the water catalyst generator (200) is arranged on the main water tank (100), and an installation groove for installing the water catalyst generator (200) is formed in the side wall of the main water tank (100);

the water pipe comprises a main water pipe (300) and an auxiliary water pipe, the main water pipe (300) is arranged at the bottom of the main water tank (100) and is connected with the main drainage hole (112), and the auxiliary water pipe is arranged at the bottom of the auxiliary water tank (120) and is connected with the auxiliary drainage hole (123);

the recovery device is arranged on the main water pipe (300) and is used for recovering the waste water cleaned by the main water tank (100);

wherein, plugs (130) are arranged on the main drainage hole (112) and the auxiliary drainage hole (123).

2. The intelligent water tank capable of sterilizing and purifying water according to claim 1, wherein: the recovery device includes:

the first recovery mechanism is arranged at the bottom of the main water pipe (300) and communicated with the main water pipe (300), the first recovery mechanism comprises a recovery tank (400) and a rotary tank (410) arranged in the recovery tank (400), a plurality of water outlet holes (411) are formed in the side wall of the rotary tank (410), and the rotary tank (410) can rotate in the recovery tank (400);

the second recovery mechanism is arranged at the bottom of the first recovery mechanism and connected with the first recovery mechanism, the recovery mechanism comprises a recovery pipe (500), a second falling object opening (510) communicated with the rotary box (410) is formed in the top of the recovery pipe (500), a water storage tank (520) is communicated with the bottom of the recovery pipe (500), and a filter screen (521) is arranged at the connection position of the water storage tank (520) and the recovery pipe (500);

and the auxiliary recovery mechanism is connected with the second recovery mechanism and is used for assisting the second recovery mechanism to recover the wastewater.

3. The intelligent water tank capable of sterilizing and purifying water quality as claimed in claim 2, wherein: the first recycling mechanism further comprises:

the rotating structure comprises a convex ring (420) arranged on the inner wall of the recovery box (400) and a boss (421) arranged on the outer wall of the rotating box (410), wherein a groove (422) matched with the convex ring (420) is formed in the boss (421), and a bearing (423) is further arranged in the groove (422);

the driving structure comprises a gear ring (430) arranged on the outer wall of the rotating box (410) and a first motor (431) arranged on the outer wall of the recycling box (400), wherein a gear (432) is arranged on an output shaft of the first motor (431), the gear (432) is meshed with the gear ring (430), and the first motor (431) drives the rotating box (410) to rotate through the gear (432) and the gear (432);

the recycling structure comprises a first falling object opening (440) and a sealing cover (441), wherein the first falling object opening (440) is arranged at the bottom of the rotary box (410) and is communicated with the second falling object opening (510), and the sealing cover (441) is arranged on the first falling object opening (440);

a drainage structure, which comprises a water guide plate (450) arranged on the first falling object opening (440), wherein a water guide groove (451) is formed between the water guide plate (450) and the inner wall of the recovery box (400), and a water guide pipe (452) is arranged between the water guide groove (451) and the water storage tank (520);

the top parts of the recovery tank (400) and the rotary tank (410) are respectively provided with a first through hole (401) and a second through hole (412) through which water supply pipes penetrate, and sealing structures are arranged among the first through hole (401), the second through hole (412) and the water pipes.

4. The intelligent water tank capable of sterilizing and purifying water quality as claimed in claim 3, wherein: the second recovery mechanism further comprises:

the pushing structure comprises a lead screw (530) arranged on the outer wall of the recovery pipe (500), a sliding block (531) penetrating into the recovery pipe (500) is arranged on the lead screw (530), a sliding chute (532) for the sliding block (531) to move is arranged on the recovery pipe (500), a pushing block (533) connected with the sliding block (531) is arranged in the recovery pipe (500), and the outer wall of the pushing block (533) is attached to the inner wall of the recovery pipe (500);

the extrusion structure comprises an arc-shaped convex cover (540) arranged at the top of the recovery pipe (500), a rotating rod (541) is arranged in the arc-shaped convex cover (540), a plurality of extrusion plates (542) are rotatably connected to the rotating rod (541), the side walls of the extrusion plates (542) are attached to the side walls of the recovery pipe (500), and the extrusion plates (542) are attached to the inner wall of the arc-shaped convex cover (540) when rotating;

the recovery device comprises a recovery tube (500), a fixed block (550) is arranged in the recovery tube (500), the fixed block (550) is arranged on one side, away from the pushing structure, of the extrusion mechanism, a reset block (551) is arranged at one end, close to the extrusion structure, of the fixed block (550), a first spring (552) is arranged between the reset block (551) and the fixed block (550), a folding protective sleeve (553) is arranged between the reset block (551) and the fixed block (550), and the first spring (552) is wrapped in the folding protective sleeve (553);

the number of the extrusion plates (542) is at least 4, and when the extrusion plates (542) rotate, the extrusion plates (542) are abutted with the reset block (551).

5. The intelligent water tank capable of sterilizing and purifying water quality as claimed in claim 4, wherein: the auxiliary recovery mechanism comprises:

the filter screen connecting device comprises a connecting table (600) arranged at the bottom of a filter screen (521), the bottom of the connecting table (600) is rotatably connected with a mounting cylinder (610), one end, far away from the connecting table (600), of the mounting cylinder (610) is provided with a circular groove (611), and the side wall of the mounting cylinder (610) is provided with a movable groove (612);

one end of the first connecting rod (620) is arranged in the circular groove (611), the other end of the first connecting rod is provided with a reset groove (621), one end of the first connecting rod (620) provided with an opening is provided with a guide ring (630), the guide ring (630) is composed of arc-shaped protrusions (631) and arc-shaped grooves (632) which are distributed at intervals, and the arc-shaped protrusions (631) and the arc-shaped grooves (632) are distributed annularly around the reset groove (621);

the cleaning rod (640) is arranged on the outer wall of the first connecting rod (620), a scraping plate (641) is arranged on one side, close to the filter screen (521), of the cleaning rod (640), and bristles (642) are densely distributed on the scraping plate (641);

the water storage device comprises a water storage tank (520), a second motor (650) is arranged in the water storage tank (520), a second connecting rod (651) is arranged on an output shaft of the second motor (650), one end of the second connecting rod (651) extends into a reset groove (621), a limiting head (652) is arranged at one end, away from the second motor (650), of the second connecting rod (651), a poke rod (653) is arranged on the outer wall of the second connecting rod (651), and the poke rod (653) is abutted to a guide ring (630);

the second spring (660) is arranged in the reset groove (621) and sleeved outside the second connecting rod (651), one end of the second spring (660) is connected with the limiting head (652), one end of the second spring (660) is provided with a sealing head (661), and the sealing head (661) is arranged at the opening of the reset groove (621);

the first connecting rod (620) is further provided with a movable rod (613), and one end, far away from the first connecting rod (620), of the movable rod (613) extends into the movable groove (612).

6. The intelligent water tank capable of sterilizing and purifying water quality as claimed in claim 5, wherein: recovery unit still includes collects the mechanism for retrieving waste water and waste material, it includes to collect the mechanism:

the waste box (700) is used for storing the collected waste materials and waste residues, and a first pipeline (710) communicated with the recovery pipe (500) is arranged on the waste box (700);

the waste water treatment device comprises a first waste water tank (720) for collecting and storing waste water, wherein a second pipeline (721) communicated with a water storage tank (520) is arranged on the first waste water tank (720), the diameter of the second pipeline (721) is smaller than that of the first pipeline (710), the second pipeline (721) is merged into the first pipeline (710), and a first control valve (722) and a second control valve (723) are respectively arranged at two ends of the second pipeline (721);

wherein, still include clean structure, clean structure is connected with second pipeline (721), is used for dredging second pipeline (721).

7. The intelligent water tank capable of sterilizing and purifying water quality as claimed in claim 6, wherein: the cleaning structure includes:

a flow rate detection device (730) provided in the second pipe (721) and configured to detect a flow rate in the second pipe (721);

the circulating pipeline (740) is arranged on the second pipeline (721) and is communicated with the second pipeline (721), the circulating pipeline (740) is located between the first control valve (722) and the second control valve (723), a third control valve (741) and a fourth control valve (742) are respectively arranged at two ends of the circulating pipeline (740), and a circulating pump (743) is further arranged on the circulating pipeline (740);

a first delivery pipe (750) which is arranged on the first wastewater tank (720) and communicated with the circulating pipe (740), wherein a fifth control valve (751) is arranged on the first delivery pipe (750);

a discharge pipeline (761) communicated with the circulating pipeline (740) is arranged on the second waste water tank (760), and a sixth control valve (762) is arranged on the discharge pipeline (761);

the cleaning liquid is distributed and stored in the liquid storage tank (770), a second conveying pipeline (771) communicated with the circulating pipeline (740) is arranged on the liquid storage tank (770), and a seventh control valve (772) is arranged on the second conveying pipeline (771);

wherein, still include reserve pipeline (780), reserve pipeline (780) set up between first waste water tank (720) and storage water tank (520) and communicate first waste water tank (720) and storage water tank (520), just be equipped with eighth control valve (781) on reserve pipeline (780).

8. The intelligent water tank capable of sterilizing and purifying water according to claim 7, wherein: the flow rate control device further comprises a controller (800), the controller (800) is connected with the flow rate detection device (730), the first control valve (722), the second control valve (723), the third control valve (741), the fourth control valve (742), the fifth control valve (751), the sixth control valve (762), the seventh control valve (772), the eighth control valve (781) and the circulating pump (743), the flow rate detection device (730) detects the flow rate flowing through the second pipeline (721) in real time and judges the flow rate, the judgment result is sent to the controller (800), the flow rate value detected by the flow rate detection device (730) in real time in a normal state is set to be Q, and the minimum flow rate value detected by the flow rate detection device (730) in the normal state is set to be Q1.

9. The control method of the intelligent sterilizing and water purifying sink of claim 1, comprising the steps of:

s0, the controller (800) controls the first control valve (722) and the second control valve (723) to be opened, and all other control valves are in a closed state;

s1, a flow detection device (730) detects the flow in the second pipeline (721) in real time, judges whether Q is more than or equal to Q1,

s2, when Q is larger than or equal to Q1 in the step S1, the second pipeline (721) is not blocked;

s3, when Q is less than Q1 in the step S1, the second pipeline (721) is blocked, the controller (800) controls the first control valve (722) and the second control valve (723) to be closed, and controls the third control valve (741) and the fourth control valve (742) to be opened at the same time, so that the circulating pipeline (740) is communicated with the second water pipe, and controls the fifth control valve (751) and the seventh control valve (772) at the same time, the first waste water tank (720) and the liquid storage tank (770) respectively inject water and cleaning liquid into the circulating pipeline (740), and finally the circulating pump (743) is controlled to be opened to circularly clean the second pipeline (721);

s4, after the circulating pump (743) in the step S3 is started, the controller (800) controls the eighth control valve (781) to be started, so that the wastewater in the water storage tank (520) flows into the first wastewater tank (720) through the standby pipeline (780);

s5, when the circulating pump (743) in the step S3 is started for a period of time, Q is larger than or equal to Q1, the second pipeline (721) is cleaned completely, the controller (800) controls the sixth control valve (762) to be opened, the cleaning wastewater in the second pipeline (721) is discharged into the second wastewater tank (760), then the first control valve (722) and the second control valve (723) are controlled to be opened, and the third control valve (741), the fourth control valve (742), the fifth control valve (751) and the seventh control valve (772) are controlled to be closed;

s6, when the circulating pump (743) in the step S3 is started for a period of time and Q is less than Q1, the second pipeline (721) is still blocked, and the controller (800) continues to control the circulating pump (743) to operate until Q is more than or equal to Q1.

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