CN115403115A

CN115403115A - System for generating acidic solution by electrolyzing water and intelligent closestool thereof

Info

Publication number: CN115403115A
Application number: CN202211014789.7A
Authority: CN
Inventors: 陈勇; 孙平; 胡丽娟; 吴辉
Original assignee: Hefei Royalstar Electronic Appliance Group Co Ltd
Current assignee: Hefei Royalstar Electronic Appliance Group Co Ltd
Priority date: 2022-08-23
Filing date: 2022-08-23
Publication date: 2022-11-29
Anticipated expiration: 2042-08-23
Also published as: CN115403115B

Abstract

The invention discloses a system for generating an acidic solution by electrolyzing water and an intelligent closestool thereof, which comprises a system main body, wherein two groups of electrolyzed water chambers are arranged in the system main body, an ionic membrane is arranged between the two groups of electrolyzed water chambers, the ionic membrane is fixedly connected in the system main body, two ends of a filter plate are respectively and movably connected with a transmission gear, the transmission gear is meshed in a tooth socket, an L-shaped toothed bar is movably connected in a second guide groove, the second guide groove is arranged in the system main body, and one end of the L-shaped toothed bar, which is far away from the second gear, extends into the tooth socket; the setting through a plurality of groups of through-holes can filter and store the great impurity in the acid solution that the electrolysis came out and alkaline solution in the electrolysis intracavity, rotates through control conveying gear and drives the filter and remove, and the water source can't pass through the through-hole when the in-process slide of drainage can slide the chamber and carry out the shutoff, realizes the filtration and the clearance discharge to impurity, prevents that impurity from making the delivery port shutoff to appear.

Description

System for generating acidic solution by electrolyzing water and intelligent closestool thereof

Technical Field

The invention relates to the technical field of a toilet electrolytic water system, in particular to a system for generating an acidic solution by electrolyzing water and an intelligent toilet thereof.

Background

For example, chinese patent No. CN210559550U discloses a toilet water electrolysis device, which comprises a body, wherein the body is provided with a water inlet, an acidic water outlet and an alkaline water outlet, an electrolyzer is arranged in the body between the water inlet, the acidic water outlet and the alkaline water outlet, the electrolyzer comprises a positive electrode communicated with the acidic water outlet and a negative electrode communicated with the alkaline water outlet, the body is provided with an automatic salt feeding device, and a cation exchange membrane is arranged between an acidic water electrolysis region and an alkaline water electrolysis region.

However, the above scheme has the following disadvantages: the acid water and the alkaline water are electrolyzed by electrifying the positive electrode and the negative electrode, when the electrodes are electrified for a long time to electrolyze water, because the water contains partial mineral substances, the mineral substances can form partial impurities and accumulate under the action of electrolysis, and the water outlet can be blocked after long-time use.

Disclosure of Invention

The invention aims to provide a system for generating an acidic solution by electrolyzing water and an intelligent closestool thereof, so as to solve the problems in the background technology.

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

a system for generating an acidic solution by electrolyzing water comprises a system main body, wherein two groups of electrolyzed water cavities are formed in the system main body, an ionic membrane is arranged between the two groups of electrolyzed water cavities, the ionic membrane is fixedly connected in the system main body, two groups of metal sheets are arranged in the electrolyzed water cavities, one end of each metal sheet is fixedly connected with a blocking block, the blocking blocks are movably arranged in one end of the system main body, the two groups of metal sheets are movably sleeved in a filter plate, both ends of the filter plate are movably connected with transmission gears, the transmission gears are meshed in tooth sockets, and the tooth sockets are arranged in the wall of the electrolyzed water cavities;

two groups of sliding connection cavities are formed in one end, away from the plugging block, of the electrolyzed water cavity, a plurality of groups of through holes are formed in the two sides of each sliding connection cavity, sliding plates are movably connected in the sliding connection cavities, transmission toothed bars are fixedly connected to the opposite surfaces of the two groups of sliding plates, the transmission toothed bars are movably connected in first guide grooves, the first guide grooves are formed in the system main body, one sides, close to the electrolyzed water cavity, of the transmission toothed bars are meshed with first gears, and the lower ends of the first gears are fixedly connected with second gears;

the second gear is movably connected in the system main body, one end, far away from the sliding plate, of the second gear is meshed with the L-shaped toothed bar, the L-shaped toothed bar is movably connected in the second guide groove, the second guide groove is formed in the system main body, and one end, far away from the second gear, of the L-shaped toothed bar extends into the tooth groove.

Preferably, the upper end and the lower end of the sliding plate are fixedly connected with T-shaped blocks, the T-shaped blocks are connected into T-shaped grooves in a sliding mode, the T-shaped grooves are formed in the wall of the sliding cavity, first springs are fixedly connected into the T-shaped grooves, and the other ends of the first springs are fixedly connected with the T-shaped blocks.

Preferably, a water drainage through groove is formed in the lower end of the electrolyzed water cavity, a water baffle is arranged in the water drainage through groove, the water baffle is movably connected in the accommodating groove, a second spring is fixedly connected in the accommodating groove, the other end of the second spring is fixedly connected with the water baffle, and an insulating layer is arranged on the outer side of one end, close to the plugging block, of the metal sheet.

Preferably, be equipped with a plurality of groups screw rod in the shutoff piece, the shutoff piece is through a plurality of groups screw rod movable mounting in the system main part, fixedly connected with inlet tube in the shutoff piece, two sets of drain pipes of fixedly connected with in the shutoff piece one end are kept away from to the system main part, the drain pipe is corresponding with electrolysis water cavity position.

In addition, in order to achieve the purpose, the invention also provides an intelligent closestool which comprises the system for generating the acid solution by electrolyzing water.

Compared with the prior art, the invention has the beneficial effects that: the setting through a plurality of groups of through-holes can filter and store the great impurity in the acid solution that the electrolysis came out and alkaline solution in the electrolysis intracavity, it removes to drive the filter to rotate through control transfer gear, make impurity pushed the upper end that the groove was led to the drainage, the filter can promote the running water discharge electrolysis water cavity that makes to have impurity to the breakwater simultaneously, and the water source can't pass through the through-hole when the in-process slide of drainage can the sliding connection chamber carry out the shutoff, the realization is discharged with the clearance to the filtration of impurity, prevent that impurity from making the delivery port appear the shutoff.

Drawings

FIG. 1 is a schematic cross-sectional view of the present invention;

FIG. 2 is a schematic top view of the present invention;

FIG. 3 is a schematic side sectional view of the present invention;

FIG. 4 is a schematic perspective view of the connection between the metal sheet and the filter plate according to the present invention;

FIG. 5 is a schematic view of the connection between the first gear and the transmission rack of the present invention;

in the figure: 1. a system main body; 2. a water drainage through groove; 3. a drive rack; 4. a second guide groove; 5. an L-shaped toothed bar; 6. a water baffle; 7. a tooth socket; 8. an electrolytic water chamber; 9. a screw; 10. a plugging block; 11. a water inlet pipe; 12. a metal sheet; 13. a sliding connection cavity; 14. a receiving groove; 15. a drain pipe; 16. a first guide groove; 17. an insulating layer; 18. a transmission gear; 19. a through hole; 20. a filter plate; 21. a first gear; 22. a second gear; 23. a slide plate; 24. a second spring; 25. a T-shaped groove; 26. a first spring; 27. a T-shaped block; 28. and (4) an ionic membrane.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution:

example 1:

a system for generating acidic solution by electrolyzing water comprises a system main body 1, wherein two groups of electrolytic water chambers 8 are arranged in the system main body 1, an ionic membrane 28 is arranged between the two groups of electrolytic water chambers 8, the ionic membrane 28 is fixedly connected in the system main body 1, two groups of metal sheets 12 are arranged in the electrolytic water chambers 8, the metal sheets 12 in the two groups of electrolytic water chambers 8 are sequentially electrified, the two groups of metal sheets 12 on the upper side become positive electrodes, the two groups of metal sheets 12 on the lower side become negative electrodes, one end of each metal sheet 12 is fixedly connected with a blocking block 10, the blocking block 10 is movably arranged in one end of the system main body 1, the blocking block 10 can be taken down by screwing down a screw 9 for fixing the blocking block 10, at the moment, the metal sheets 12 can be separated from the electrolytic water chambers 8, the two groups of metal sheets 12 are movably sleeved in a filter plate 20, the filter plate 20 can push impurities in the electrolytic water chambers 8, meanwhile, normal running water can be ensured to pass through when being pushed, both ends of the filter plate 20 are movably connected with a transmission gear 18, the transmission gear 18 is fixedly connected with a micro motor, the filter plate 18 is fixedly arranged in the filter plate 20, when the micro motor is started, the micro motor, the output end of the micro motor can drive the transmission gear to drive the filter plate 18 to rotate, and the transmission gear 18 to drive the filter plate to drive the transmission gear to start to move under the filter plate 7;

the transmission gear 18 is meshed in the tooth socket 7, the tooth socket 7 is arranged in the wall of the electrolytic water cavity 8, two groups of sliding connection cavities 13 are formed in one end, away from the plugging block 10, of the electrolytic water cavity 8, a plurality of groups of through holes 19 are formed in two sides of each sliding connection cavity 13, a plurality of groups of through holes 19 formed in the right side of the electrolytic water cavity 8 of the electrolyzed water source are used for filtering, the filtered electrolytic water respectively enters the corresponding water drainage pipes 15, the electrolyzed alkaline solution can be used for cleaning the inner wall of the intelligent closestool, and the electrolyzed acidic solution can be used for disinfecting the inner wall of the intelligent closestool or cleaning private parts of a user by spraying water through the intelligent closestool;

the sliding connection cavity 13 is movably connected with a sliding plate 23, opposite surfaces of the two groups of sliding plates 23 are fixedly connected with a transmission toothed bar 3, the transmission toothed bar 3 is movably connected into a first guide groove 16, the first guide groove 16 is arranged in the system main body 1, one side, close to the electrolytic water cavity 8, of the transmission toothed bar 3 is meshed with a first gear 21, the lower end of the first gear 21 is fixedly connected with a second gear 22, when the second gear 22 rotates, the first gear 21 is driven to rotate, the transmission toothed bar 3 can move inwards under the driving of the first gear 21, the sliding plate 23 moves inwards and compresses a first spring 26 through a T-shaped block 27, when the two groups of sliding plates 23 completely enter the sliding connection cavity 13, tap water cannot be drained through a through hole 19, the second gear 22 is movably connected into the system main body 1, one end, far away from the sliding plate 23, of the second gear 22 is meshed with the L-shaped toothed bar 5, the L-shaped toothed bar 5 is movably connected into a second guide groove 4, the second guide groove 4 is arranged in the system main body 1, one end, far away from the second gear 22, and extends into the L-shaped toothed bar 7, and drives the transmission gear to move to the L-shaped toothed bar 22 to move when the L-shaped toothed bar 22 rotates.

Example 2:

on the basis of embodiment 1, in order to enable the sliding plate 23 to recover to the original position after plugging is completed and simultaneously enable tap water with impurities to be discharged from the electrolytic water cavity 8, the upper end and the lower end of the sliding plate 23 are fixedly connected with T-shaped blocks 27, the T-shaped blocks 27 are slidably connected in T-shaped grooves 25, the T-shaped grooves 25 are arranged in the cavity wall of the sliding connection cavity 13, the T-shaped grooves 25 are fixedly connected with first springs 26, the other ends of the first springs 26 are fixedly connected with the T-shaped blocks 27, when the sliding plate 23 starts to move along the sliding connection cavity 13, the T-shaped blocks 27 start to move along the T-shaped grooves 25 under the driving of the sliding plate 23, at the moment, the T-shaped blocks 27 compress the first springs 26, when plugging is completed, under the elastic force of the first springs 26, the sliding plate 23 recovers to the original position, and at the moment, the acid or alkaline solution after electrolysis can be discharged from the through hole 19;

seted up the logical groove of drainage 2 in the 8 lower extremes of brineelectrolysis chamber, be equipped with breakwater 6 in the logical groove of drainage 2, breakwater 6 is the setting of L type, 6 swing joint of breakwater are in accomodating groove 14, can promote breakwater 6 and remove to accomodating the inslot 14 along with the continuous removal of filter 20, second spring 24 is compressed this moment, accomodate the interior fixedly connected with second spring 24 of inslot 14, the second spring 24 other end and breakwater 6 fixed connection, when the logical groove of drainage 2 of upside is opened completely, at this moment, the running water that has impurity flows into to the logical groove of downside 2 in, the logical groove of drainage 2 of downside is opened the back simultaneously, discharge system's main part 1 behind the running water that has impurity, sheetmetal 12 is close to the interior fixedly connected with drain pipe 15 of blocking piece 10 one end, be equipped with insulating layer 17 outside the plugging piece 10, be equipped with a plurality of groups screw rod 9 in the plugging piece 10, plugging piece 10 is through a plurality of groups screw rod 9 swing joint in system's main part 1, fixedly connected with inlet tube 11 in plugging piece 10, system's main part 1, system's 10 interior fixedly connected with inlet tube 15, drain pipe 15 is corresponding with brineelectrolysis chamber 8 positions.

According to the working principle, when the water supply device is used, an external tap water pipe is connected with the water inlet pipe 11, tap water can respectively enter the two groups of electrolytic water cavities 8 along the water inlet pipe 11, at the moment, the metal sheets 12 in the two groups of electrolytic water cavities 8 are sequentially electrified, the two groups of metal sheets 12 on the upper side become positive electrodes, the two groups of metal sheets 12 on the lower side become negative electrodes, and as the ionic membrane 28 can enable a small amount of water molecules in the two groups of electrolytic water cavities 8 to move back and forth, the metal sheets 12 with positive electricity and the metal sheets 12 with negative electricity can form a closed loop under the action of the tap water;

the two groups of metal sheets 12 with the positive electrodes on the upper side electrolyze tap water into acidic water, the two groups of metal sheets 12 with the negative electrodes on the lower side electrolyze the tap water into alkaline water, and meanwhile, the ion membrane 28 has selective permeability and only allows sodium ions to enter with a small amount of water molecules, and because of the existence of the ion membrane 28, hydroxide ions in a negative electrode area cannot move to a positive electrode area and can only be enriched in the negative electrode area to form an alkaline solution of sodium hydroxide;

a plurality of groups of through holes 19 arranged on the right side of the electrolyzed water cavity 8 of the electrolyzed water source are used for filtering, the filtered electrolyzed water respectively enters the corresponding drain pipes 15, the electrolyzed alkaline solution can be used for cleaning the inner wall of the intelligent closestool, and the electrolyzed acidic solution can be used for disinfecting the inner wall of the intelligent closestool or cleaning the private parts of a user by spraying water through the intelligent closestool;

when impurities in the electrolytic water cavity 8 need to be cleaned, the energization of the two groups of metal sheets 12 is turned off at the moment, tap water is continuously led into the two groups of electrolytic water cavities 8, the two groups of transmission gears 18 are connected with the micro motor, the two groups of transmission gears 18 are controlled to rotate and start to move along the tooth grooves 7 at the moment, the filter plate 20 moves rightwards at the moment and drives the impurities to move rightwards, and when the transmission gears 18 move to the position of the L-shaped toothed bar 5, the L-shaped toothed bar 5 moves rightwards at the moment and drives the second gear 22 to start to rotate;

the second gear 22 rotates to drive the first gear 21 to start rotating, the transmission rack bar 3 moves inwards under the drive of the first gear 21, at the moment, the sliding plates 23 move inwards and compress the first springs 26 through the T-shaped blocks 27, when two groups of sliding plates 23 finish entering the sliding connection cavity 13, tap water cannot drain through the through holes 19, meanwhile, the water baffle 6 is pushed to move towards the accommodating groove 14 along with the continuous movement of the filter plate 20, at the moment, the second springs 24 are compressed, when the drainage through groove 2 on the upper side is completely opened, the tap water with impurities flows into the drainage through groove 2 on the lower side, and meanwhile, the drainage through groove 2 on the lower side is opened;

the running water with impurities is discharged out of the system body 1, at the moment, after the impurities are cleaned, the filter plate 20 is controlled to return to the original position, at the moment, under the elastic action of the first spring 26, the sliding plate 23 returns to the original position, at the moment, the through holes 19 of the groups are opened again, and under the elastic action of the second spring 24, the water baffle 6 can be used for plugging the drainage through groove 2 again.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A system for producing an acidic solution by electrolysis of water, comprising a system body (1), characterized in that: the system is characterized in that two groups of electrolytic water cavities (8) are formed in the system main body (1), an ionic membrane (28) is arranged between the two groups of electrolytic water cavities (8), the ionic membrane (28) is fixedly connected into the system main body (1), two groups of metal sheets (12) are arranged in the electrolytic water cavities (8), one ends of the metal sheets (12) are fixedly connected with a blocking block (10), the blocking block (10) is movably arranged in one end of the system main body (1), the two groups of metal sheets (12) are movably sleeved in a filter plate (20), two ends of the filter plate (20) are both movably connected with transmission gears (18), the transmission gears (18) are meshed in tooth grooves (7), and the tooth grooves (7) are formed in the wall of the electrolytic water cavities (8);

two groups of sliding connection cavities (13) are formed in one end, far away from the plugging block (10), of the electrolytic water cavity (8), a plurality of groups of through holes (19) are formed in two sides of each sliding connection cavity (13), sliding plates (23) are movably connected in the sliding connection cavities (13), transmission toothed bars (3) are fixedly connected to opposite surfaces of the two groups of sliding plates (23), each transmission toothed bar (3) is movably connected into a first guide groove (16), each first guide groove (16) is formed in the system main body (1), one side, close to the electrolytic water cavity (8), of each transmission toothed bar (3) is meshed with a first gear (21), and the lower end of each first gear (21) is fixedly connected with a second gear (22);

second gear (22) swing joint is in system main part (1), slide (23) one end and the meshing of L type ratch (5) are kept away from in second gear (22), L type ratch (5) swing joint is in second guide way (4), set up in system main part (1) second guide way (4), second gear (22) one end is kept away from in L type ratch (5) and is stretched into to tooth's socket (7).

2. A system for electrolyzing water to produce an acidic solution in accordance with claim 1, wherein: the equal fixedly connected with T type piece (27) of lower extreme on slide (23), T type piece (27) sliding connection has in T type groove (25), T type groove (25) are seted up and are slided and connect chamber (13) chamber wall in, first spring (26) of fixedly connected with in T type groove (25), first spring (26) other end and T type piece (27) fixed connection.

3. A system for electrolyzing water to produce an acidic solution in accordance with claim 1, wherein: the electrolytic water cavity is characterized in that a water drainage through groove (2) is formed in the lower end of the electrolytic water cavity (8), a water baffle (6) is arranged in the water drainage through groove (2), the water baffle (6) is movably connected into a containing groove (14), a second spring (24) is fixedly connected into the containing groove (14), the other end of the second spring (24) is fixedly connected with the water baffle (6), and an insulating layer (17) is arranged on the outer side of one end, close to the plugging block (10), of the metal sheet (12).

4. The system of claim 1 for electrolyzing water to produce an acidic solution, wherein: be equipped with a plurality of screw rods (9) of organizing in shutoff piece (10), shutoff piece (10) are through a plurality of screw rods (9) movable mounting in system main part (1) of organizing, fixedly connected with inlet tube (11) in shutoff piece (10), two sets of drain pipes (15) of fixedly connected with in shutoff piece (10) one end are kept away from in system main part (1), drain pipe (15) are corresponding with electrolysis water cavity (8) position.

5. An intelligent toilet comprising the system for producing an acidic solution by electrolysis of water according to any one of claims 1 to 4.