CN216428459U - Sterilization waterway assembly, toilet cover and toilet - Google Patents

Abstract

The utility model provides a sterilization waterway assembly, a toilet cover and a toilet, wherein the sterilization waterway assembly comprises a base, a driving piece, a flushing assembly, an electrolyzed water module, a heating assembly, a valve assembly and an electric control assembly, the base is provided with a chute and the driving piece, the flushing assembly is arranged in the chute, the valve assembly is used for controlling water entering the electrolyzed water module, the electrolyzed water module is used for electrolyzing water flowing in from the valve assembly into sterilized water, the heating assembly is used for heating the water flowing in from the electrolyzed water module, and the electric control assembly is used for controlling other parts of assemblies and a protection circuit; the toilet lid comprises a shell, a lid body and a sterilization waterway assembly, wherein the lid body and the sterilization waterway assembly are both arranged on the shell; the closestool comprises a closestool main body and a closestool cover, wherein the closestool cover is arranged on the closestool main body. The application provides a water route subassembly disinfects sets up electrolysis water module and heating element on a water route, reduces the use of waterway structure to the pipeline to save closestool inner space.

Description

Sterilization waterway assembly, toilet cover and toilet

Technical Field

The utility model relates to the field of toilet waterway layout, in particular to a sterilization waterway assembly, a toilet cover and a toilet.

Background

More and more families now install toilets in toilets, and as the market develops, the functions of the toilets are gradually diversified. The traditional closestool does not have the functions of automatic cleaning and the like, so that after a period of time, a user needs to clean the closestool in a manual treatment mode, and more users select the intelligent closestool capable of self-cleaning. In most of the existing self-cleaning toilets, an electrolysis device is arranged in the internal structure of the toilet and is used for electrolyzing common water, the electrolyzed water contains hypochlorous acid, so that the electrolyzed water can be sterilized and sterilized, and after a period of time, the electrolyzed and sterilized water can be automatically reduced to the common water.

However, in the existing intelligent closestool, a plurality of water ways with the electrolysis device are set as the second water way and are separately set with the water way for the human body, so that the use of the internal pipeline of the closestool is increased, and the space of other components in the water way is compressed.

SUMMERY OF THE UTILITY MODEL

An object of the application is to provide a water route subassembly, toilet lid and closestool disinfect, can improve the inside space utilization of closestool.

In a first aspect, an embodiment of the present invention provides a sterilizing waterway assembly, which includes a base, a driving member, a flushing assembly, an electrolyzed water module, a heating assembly, a valve assembly, and an electric control assembly. The base is provided with a sliding chute; the driving piece is arranged on the base; the flushing assembly is arranged in the sliding groove in a sliding manner, and the driving piece is used for driving the flushing assembly; the water electrolysis module comprises an electrolysis tank and an electrolyzer, wherein the electrolysis tank is arranged on the base, and the electrolyzer is arranged in the electrolysis tank; the electrolytic tank is provided with a water inlet and a water outlet, and the water outlet is communicated with the flushing assembly; the heating assembly is arranged between the flushing assembly and the water outlet and is used for heating water entering the flushing assembly; the valve assembly is arranged on one side of the water electrolysis module and is used for controlling water flow entering the water inlet; the electric control assembly is arranged on the base and positioned on one side of the valve assembly, and the valve assembly is positioned between the water electrolysis module and the electric control assembly; the electric control assembly comprises a control board assembly which is electrically connected with the driving member, the electrolyzer, the heating assembly and the valve assembly.

In some embodiments, an ion exchange membrane is disposed within the electrolytic tank, the ion exchange membrane separating the electrolytic tank into a first electrolytic chamber and a second electrolytic chamber; the electrolyzer comprises a positive electrode and a negative electrode, the positive electrode is arranged in the first electrolysis cavity, the negative electrode is arranged in the second electrolysis cavity, and the water outlet is communicated with the first electrolysis cavity.

In some embodiments, the heating assembly includes a hot water tank bracket, a hot water tank, and a heater, the hot water tank bracket disposed at the base; the hot water tank is arranged on the hot water tank support and is provided with a first water inlet and a first water outlet, the first water inlet is communicated with the water outlet, and the first water outlet is communicated with the flushing assembly; the heater is arranged in the hot water tank.

In some embodiments, the heating assembly further comprises a temperature sensor disposed in the hot water tank and located at the first water outlet.

In some embodiments, the heating element is disposed on one side of the electrolytic water module, and the electrolytic water module is located between the heating element and the valve assembly.

In some embodiments, the flushing assembly includes a spray gun telescopically disposed within the chute, the spray gun having a second water inlet and a spray gun port, the second water inlet communicating with the spray gun port, the second water inlet being connected to the first water outlet.

In some embodiments, the electronic control assembly further comprises a power board assembly and a bluetooth module, the power board assembly is arranged on the base, and the control board assembly is arranged on the power board assembly; the power board assembly is electrically connected with the control board assembly;

the Bluetooth module is arranged on the base and is electrically connected with the control panel component.

In some embodiments, the valve assembly comprises a solenoid valve holder and a solenoid pressure reducing valve, the solenoid valve holder being disposed on the base; the electromagnetic pressure reducing valve is arranged on the electromagnetic valve bracket; the second water inlet and the second water outlet are arranged on the electromagnetic reducing valve.

In a second aspect, an embodiment of the present invention provides a toilet lid, which includes a lid body and the above-mentioned sterilizing waterway assembly, wherein the lid body is installed on the sterilizing waterway assembly.

In a third aspect, an embodiment of the present invention provides a toilet, including a toilet main body and the toilet lid, where the toilet lid is mounted on the toilet main body.

According to the sterilization waterway assembly provided by the embodiment of the utility model, the electrolyzed water module and the heating assembly are arranged on a waterway, namely, common water entering from a valve passes through the electrolyzed water module and the heating assembly in sequence and is finally sprayed out from the flushing assembly, meanwhile, the control plate assembly can control the working states of the electrolyzed water module and the heating assembly, so that whether the water sprayed out from the flushing assembly is used for cleaning a human body or sterilizing the flushing assembly and a closestool is determined, the scheme can reduce the use of a pipeline by a waterway structure, and thus the internal space of the closestool is saved and the space rate of the interior of the closestool is improved.

The toilet lid provided by the embodiment of the utility model is provided with the sterilizing waterway assembly, so that the utilization rate of the internal space of the toilet lid is increased, and other assemblies can be added in the saved space, so that the functions of the toilet lid are more diversified.

The toilet provided by the embodiment of the utility model is provided with the toilet cover, so that the internal space of the toilet can be saved under the condition of realizing self-cleaning of the toilet, the size of the toilet can be reduced, and the cost is saved.

Drawings

Fig. 1 is a schematic structural diagram proposed in the embodiment of the present application;

FIG. 2 is an exploded view of the electrolytic water module of FIG. 1 according to an embodiment of the present application;

FIG. 3 is a cross-sectional view of the electrolyzed water module of FIG. 2 according to an embodiment of the present application;

FIG. 4 is an exploded view of the heating assembly of FIG. 1 according to an embodiment of the present application;

FIG. 5 is a cross-sectional view of a hot water tank of the heating assembly of FIG. 4 according to an embodiment of the present application;

fig. 6 is an exploded view of the electronic control assembly of fig. 1 according to an embodiment of the present disclosure;

FIG. 7 is an exploded view of the flushing assembly of FIG. 1 according to an embodiment of the present application;

FIG. 8 is a schematic structural diagram of the flushing assembly of FIG. 7 according to an embodiment of the present disclosure;

FIG. 9 is an exploded view of the valve assembly of FIG. 1 according to an embodiment of the present application;

FIG. 10 is a schematic view of a toilet lid according to an embodiment of the present invention;

fig. 11 is a schematic structural view of a toilet bowl according to an embodiment of the present disclosure.

Detailed Description

To further illustrate the technical means and effects of the present invention for achieving the intended purpose of the utility model, the following detailed description of the embodiments, structures, features and effects according to the present invention will be made with reference to the accompanying drawings and preferred embodiments.

Referring to fig. 1, an embodiment of the present application provides a sterilizing waterway assembly 10, which includes a base 100, an electrolyzed water module 110, a heating assembly 120, an electric control assembly 130, a flushing assembly 160, and a valve assembly 170, wherein the electrolyzed water module 110, the heating assembly 120, the electric control assembly 130, the flushing assembly 160, and the valve assembly 170 may be disposed on the base 100, that is, the base 100 is used to carry components constituting the waterway; the electrolyzed water module 110 is connected with the valve assembly 170 and the flushing assembly 160, and is used for electrolyzing the ordinary water flowing in from the valve assembly 170 to generate electrolyzed sterile water, and the electrolyzed sterile water is sprayed out through the flushing assembly 160 to sterilize the flushing assembly 160 and the closestool; the heating assembly 120 is disposed between the electrolyzed water module 110 and the flushing assembly 160, and is used for heating the water flowing into the flushing assembly 160; the valve assembly 170 is used to control the flow of water into the sterilizing waterway; the electronic control component 130 is mainly used for controlling other parts of components, and can also protect the whole control circuit, so as to avoid the circuit damage such as circuit short circuit caused by component damage. In addition, the valve assembly 170 is disposed at one side of the water electrolysis module 110, the electric control assembly 130 is disposed at one side of the valve assembly 170, and the valve assembly 170 is located between the water electrolysis module 110 and the electric control assembly 130.

Specifically, referring to fig. 2 and 3, the electrolytic water module 110 may include an electrolytic tank 1100 and an electrolyzer 1110 for electrolyzing water flowing from the valve assembly 170 into the electrolytic tank 1100, for example, the electrolytic tank 1100 may be directly disposed on the base 100, or may be bolted to the valve assembly 170, so as to reduce a gap between the electrolytic tank 1100 and the valve assembly 170; electrolyzer 1110 is disposed within electrolytic tank 1100, electrolytic tank 1100 is provided with water inlet 1120 and water outlet 1130, water inlet 1120 is in communication with valve assembly 170, and water outlet 1130 is in communication with flush assembly 160.

In some embodiments, an ion exchange membrane 1140 is disposed in the electrolytic chamber 1100, the ion exchange membrane 1140 divides the electrolytic chamber 1100 into a first electrolytic chamber 1101 and a second electrolytic chamber 1102, both the first electrolytic chamber 1101 and the second electrolytic chamber 1102 are communicated with the valve assembly 170, the ion exchange membrane 1140 can be a cation exchange membrane 1140, and only permeates cations and a small amount of water molecules; meanwhile, a pipeline communicated with the water inlet 1120 can be arranged on the inner wall of the electrolytic tank 1100, two outlets are arranged on the pipeline, one outlet is communicated with the first electrolytic chamber 1101, and the other outlet is communicated with the second electrolytic chamber 1102, so that water entering the electrolytic tank 1100 from the water inlet 1120 can be ensured to smoothly flow into the two separated electrolytic chambers. Furthermore, electrolyzer 1110 may include a positive electrode 1111 and a negative electrode 1112, both of which are connected to the ac-dc converter, and positive electrode 1111 is disposed in first electrolytic chamber 1101, first electrolytic chamber 1101 is in communication with water outlet 1130, and negative electrode 1112 is disposed in second electrolytic chamber 1102. When the electrolyzer 1110 needs to work, the alternating current-direct current converter converts alternating current into direct current, because tap water in China contains free residual chlorine, hypochlorous acid and the like can be generated at the position of the positive electrode 1111, the hypochlorous acid has strong oxidizing property, so that the sterilizing function is achieved, the sterilizing water containing the hypochlorous acid flows out through the water outlet 1130 arranged in the first electrolytic chamber 1101, then flows into the flushing assembly 160 and is sprayed out through the flushing assembly 160, the sprayed sterilizing water containing the hypochlorous acid disinfects the flushing assembly 160 and a toilet so as to achieve the purpose of self cleaning, and meanwhile, because the hypochlorous acid has strong oxidizing property, oxidation-reduction reaction is easy to occur, so that the sterilizing water can be automatically reduced into common water after a period of time; the cation exchange membrane 1140 is selectively permeable to allow only cations (e.g., sodium ions) and a small amount of water molecules to permeate, so that anions (e.g., hydroxide ions) generated at the cathode cannot pass through the ion exchange membrane 1140 to the anode, thereby forming alkaline water that can be used to clean the inner wall of the toilet. Illustratively, the second electrolytic chamber 1102 can also be in communication with the flushing assembly 160, and the alkaline water generated in the second electrolytic chamber 1102 is then sprayed through the flushing assembly 160 for cleaning calcified dirt on the inner wall of the toilet.

In other embodiments, a device for delivering electrolyte can be added to both the first electrolytic chamber 1101 and the second electrolytic chamber 1102, the electrolyte device delivers a proper amount of electrolyte such as sodium chloride to the electrolytic chambers, so as to increase the content of hypochlorous acid generated after electrolysis of the positive electrode 1111 while enhancing the rate of electrolytic reaction, and further enhance the sterilization effect of the electrolyzed and sterilized water.

Referring to fig. 4 and 5, in some embodiments, the heating assembly 120 includes a hot water tank support 1200, a hot water tank 1210, a heater 1220 and a temperature sensor 1230, the hot water tank support 1200 may be disposed on the base 100 by being clamped or bolted, and the hot water tank 1210 may be bolted to the hot water tank support 1200. For example, the heater 1220 may be disposed outside the hot water tank 1210 and communicated with the hot water tank 1210, and the water flowing from the electrolyzed water module 110 to the heating assembly 120 may flow into the heater 1220 first, and the heater 1220 heats the water and then flows into the hot water tank 1210 for storage, so that the heater 1220 may be replaced conveniently, and in addition, the heater 1220 may also be disposed at an intermediate position in the hot water tank 1210, so that the heater 1220 and the hot water tank 1210 form a whole, and the heating while storing may be performed, thereby effectively reducing heat loss before the heated water enters the flushing assembly 160; the heater 1220 may employ an electric heating tube for heating water flowing into the hot water tank 1210. In addition, the hot water tank 1210 is provided with a first water inlet 1240 and a first water outlet 1250, the first water inlet 1240 is communicated with the water outlet 1130 of the electrolyzed water module 110 through a pipe, the first water outlet 1250 is communicated with the rinsing assembly 160 through a pipe, and a temperature sensor 1230 is provided at the first water outlet 1250 for monitoring the temperature of water in the hot water tank 1210. According to the scheme, the heating assembly 120 is independently arranged into one assembly, the heating efficiency of water flowing through the hot water tank 1210 can be increased as much as possible, meanwhile, the hot water tank 1210 has the function of storing water, when the flushing assembly 160 does not work, water flowing out of the electrolyzed water module 110 is stored in the hot water tank 1210, the heater 1220 can keep the constant temperature of the water stored in the hot water tank 1210, when the flushing assembly 160 works, the stored constant temperature water flows out of the hot water tank 1210, when the flushing assembly 160 works, the water flowing out of the electrolyzed water module 110 is stored in the hot water tank 1210 and is heated, and the reciprocating operation is carried out in such a way, so that the purpose that the constant temperature water flowing into the flushing assembly 160 from the heating assembly 120 is achieved. In addition, for example, the heating assembly 120 may be disposed at one side of the electrolyzed water module 110 with the electrolyzed water module 110 being located between the heating assembly 120 and the valve assembly 170, and other components may be disposed between the heating assembly 120 and the electrolyzed water module 110 to increase the space utilization.

In other embodiments, the heating element 120 may be a heating wire, and when the outlet 1130 of the electrolyzed water and the rinsing element 160 are directly connected through a pipe, the heating wire is wound on the outside of the pipe, and then a layer of sponge is covered on the pipe wound with the heating wire, and then a heat dissipation prevention film is covered on the outside of the sponge, wherein the heat dissipation prevention film may be an aluminum film. The above scheme may heat the water as it flows out of the electrolyzed water module 110 to the rinsing assembly 160.

Referring to fig. 6, the electronic control assembly 130 includes a control board assembly 1300, and the control board assembly 1300 is mainly used for controlling other components or assemblies, and specifically, the control board assembly 1300 is electrically connected to the driving member 140, the electrolyzer 1110, the heater 1220 and the valve assembly 170. The user controls the operation or non-operation and operation time of the valve assembly 170 and the driving assembly by using the control panel assembly 1300, thereby controlling the operation or non-operation and operation time of the flushing assembly 160; meanwhile, the control panel assembly 1300 is electrically connected with the electrolyzer 1110, so that a user can further set the working time and working state of the electrolyzed water module 110 through the control panel assembly 1300, and the control panel assembly 1300 can control the electrolyzer 1110 to be started to work at intervals; in addition, the control board assembly 1300 is electrically connected with the heater 1220, and for example, the control board assembly 1300 can also be electrically connected with the temperature sensor 1230 in the heating assembly 120, and the above scheme can control the control board assembly 1300 to perform heating treatment on the water in the hot water tank 1210 by analyzing the temperature signal acquired by the temperature sensor 1230, so that energy is saved easily.

In some embodiments, the electronic control assembly 130 further comprises a power board assembly 1310, the power board assembly 1310 is disposed on the base 100, the control board assembly 1300 can be disposed on the power board assembly 1310 through bolts, and the power board assembly 1310 is electrically connected with the control board assembly 1300. The power board assembly 1310 is integrated with electronic components such as a resistor, a capacitor, a transformer, a fuse and the like, and can be used for converting and reducing the civil standard voltage to the voltage which can be borne by each component in the circuit, and preventing the current surge caused by the fault of the whole circuit from damaging other assemblies.

In other embodiments, the electronic control assembly 130 further includes a bluetooth module, the bluetooth module is electrically connected to the control board circuit, and after the user pairs the bluetooth in the mobile phone with the bluetooth module of the electronic control case, the user controls the control board assembly 1300 to send out a corresponding control signal by controlling the mobile phone, so as to implement multiple functions of the toilet.

Referring to fig. 7 and 8, the base 100 is provided with a sliding slot 150 and a driving member 140, the flushing assembly 160 is slidably disposed in the sliding slot 150, and the driving member 140 is used for driving the flushing assembly 160, so that the flushing assembly 160 reciprocates according to the signal transmitted by the electronic control assembly 130. Specifically, the driving member 140 may be a stepping motor, a guide rail and a rack and pinion structure may be disposed in the sliding groove 150, the flushing assembly 160 is disposed on the guide rail, and the flushing assembly 160 may be connected to the rack and pinion structure by a connecting member, and a rotating shaft of the stepping motor may be connected to the rack and pinion structure by a connecting member, so that the stepping motor controls the extension and retraction of the spray gun 1600 through the rack and pinion structure. In the above scheme, the stepping motor is adopted, the electric signal transmitted by the control panel assembly 1300 can be accurately converted into the angular displacement of the transmission shaft of the stepping motor, and the transmission shaft is meshed with the driving wheel in the gear rack structure, so that the corresponding linear displacement is realized on the gear rack, and the telescopic motion of the flushing assembly 160 is further realized.

In some embodiments, the flushing assembly 160 includes a spray gun 1600, the spray gun 1600 being telescopically disposed within the chute 150, the spray gun 1600 being provided with a second water inlet 1610 and a spray gun port 1620, the second water inlet 1610 being in communication with the spray gun port 1620, the second water inlet 1610 being in turn in communication with the first water outlet 1250 of the heating assembly 120. The second water inlet 1610 can be divided into a first branch water inlet, a second branch water inlet and a third branch water inlet; first, the first sub water inlet may be used to only pass through the constant temperature water acting on the human body, that is, the water flowing from the valve assembly 170 enters the heating assembly 120 through the inactive electrolyzed water module 110, and is heated to a certain temperature by the heating assembly 120 to become constant temperature water, and the constant temperature water flows out of the heating assembly 120, flows into the spray gun 1600 through the first sub water inlet, and is then sprayed out from the spray gun port 1620; in addition, the second branch water inlet can be used for only passing the electrolyzed sterilizing water generated by the electrolyzed water module 110, that is, the electrolyzed sterilizing water generated by the electrolyzed water module 110 flows into the spray gun 1600 from the second branch water inlet after passing through the heating assembly 120 which is not in operation, and then is sprayed out from the spray gun opening 1620; finally, the third branch water inlet can be used for only passing the alkaline water generated after the electrolysis of the electrolyzed water module 110, that is, the alkaline water generated after the electrolysis of the electrolyzed water module 110 can directly flow into the spray gun 1600 from the third branch water inlet through the pipeline and then flow out from the spray gun mouth 1620.

In other embodiments, a blocking plate for blocking the flushing assembly 160 from continuously extending out may be disposed in the sliding slot 150, a pressure sensor electrically connected to the control board assembly 1300 is disposed on the blocking plate, when the pressure sensor transmits a collected pressure signal applied by the flushing assembly 160 to the blocking plate to the control board assembly 1300, the control board assembly 1300 immediately controls the motor to stop working, and when the flushing assembly 160 needs to be retracted after use, the control board assembly 1300 controls the motor to rotate reversely, and then retracts the flushing assembly 160.

Referring to fig. 9, in some embodiments, the valve assembly 170 includes a solenoid valve bracket 1700 and an electromagnetic pressure reducing valve 1710, the solenoid valve bracket 1700 is connected to the base 100 by bolts, the electromagnetic pressure reducing valve 1710 is disposed on the solenoid valve bracket 1700, a third water inlet and a second water outlet are disposed on the electromagnetic pressure reducing valve 1710, the third water inlet is used for connecting an external water pipe supplying water to the waterway, and the second water outlet is communicated with the water inlet 1120 of the electrolyzed water module 110. The electromagnetic pressure reducing valve 1710 is equivalent to the combination of a pressure reducing valve and an electromagnetic valve, and can control a valve for pressure reduction by using an electromagnetic effect, reduce higher pressure before the valve by using the pressure of a pipeline, and prevent the stability of pressure after the valve from being affected by the change of flow and pressure before the valve. In other embodiments, pneumatic valves and the like may also be employed.

The first working principle of the sterilizing waterway assembly 10 provided by the embodiment is as follows: the valve assembly 170, the electrolyzed water module 110, the heating assembly 120 and the flushing assembly 160 are arranged on a water path, the water flow entering from the valve assembly 170 passes through the electrolyzed water module 110 and the heating module in sequence and is finally sprayed out of the flushing assembly 160, and the electric control assembly 130 is also arranged for controlling the operation of the whole water path. Set up a water route, can improve the inside space utilization of closestool when satisfying the service function of closestool, set up the subassembly that has other functions in other spaces of saving, and then increase other functions of closestool, make the closestool more intelligent.

Specifically, when spray gun 1600 and the toilet in flushing assembly 160 need to be sterilized and self-cleaned at intervals, a user can set control board assembly 1300, control board assembly 1300 sends out a working signal to electrolyzer 1110 at intervals, electrolyzer 1110 receives the working signal to start working, water flowing out from valve assembly 170 to electrolytic tank 1100 is electrolyzed, and then degerming water containing hypochlorous acid is generated in first electrolytic chamber 1101, after a period of time, electrolyzer 1110 stops working, flushing assembly 160 works, the electrolyzed degerming water in first electrolytic chamber 1101 flows into flushing assembly 160 through heating assembly 120, and finally is sprayed out from spray gun opening 1620 of flushing assembly 160, and the electrolyzed degerming water is used for sterilizing and disinfecting the toilet. It is worth mentioning that the heating assembly 120 may or may not be operated when the electrolyzed sterilizing water passes through the heating assembly 120.

In addition, when a user needs to use the toilet, the pressure sensor arranged in the gasket and the electrolyzer 1110 form a non-door relationship, namely the pressure sensor collects a pressure signal and transmits the pressure signal to the control panel assembly 1300, the control panel assembly 1300 immediately controls the electrolyzer 1110 to be in a state of stopping working, and meanwhile, a valve arranged at the first water inlet 1240 of the heating assembly 120 can be closed, so that the situation that when the user uses the toilet, the electrolyzer 1110 automatically works for a period of time, and a part of sterilizing water generated in the electrolytic tank 1100 is automatically sprayed out from the flushing assembly 160, and further injury is caused to the user is prevented; meanwhile, the pressure sensor arranged in the gasket and the heater 1220 form an AND gate relationship, namely, a pressure signal acquired by the pressure sensor is transmitted to the control panel assembly 1300, the control panel assembly 1300 immediately controls the heater 1220 to work, the heater 1220 heats water stored in the hot water tank 1210 to a certain temperature in a short time, when the water in the hot water tank 1210 is heated by the heater 1220 to an upper limit temperature threshold value set by the temperature sensor 1230, the temperature sensor 1230 sends a signal reaching the upper limit threshold value to the control panel assembly 1300, and the control panel assembly 1300 immediately controls the heater 1220 to stop working; when the temperature of the water in the hot water tank 1210 is below the offline temperature threshold, the temperature sensor 1230 sends a signal to the control board assembly 1300 that the lower threshold is reached, and the control board assembly 1300 then controls the heater 1220 to start working, so that the cycle is repeated, and when the user uses the toilet, the water in the hot water tank 1210 is always kept in a stable temperature range.

Finally, when the user uses the toilet, the constant temperature water stored in the heating assembly 120 cleans the user, ensuring the user's experience.

Referring to fig. 10, an embodiment of the present application provides a toilet lid 20, which includes a housing 21, a lid 22 and the sterilizing waterway assembly 10, where the lid 22 and the sterilizing waterway assembly 10 are both installed on the housing 21, and specifically, the lid 22 may include a seat ring and a flip cover, and the seat ring and the flip cover are both connected to the housing 21 through a damping assembly; sterilization waterway assembly 10 and casing 21 can both be provided with a clamping piece for mutual connection and matching, and sterilization waterway assembly 10 is installed on casing 21 through the matching of clamping piece.

Referring to fig. 11, an embodiment of the present invention provides a toilet 30, which includes a toilet main body 31 and the toilet cover 20, wherein the toilet cover 20 is mounted on the toilet main body 31, specifically, the toilet cover 20 can be mounted on the toilet main body 31 through a mounting assembly, or a first engaging portion can be provided on the toilet 30, a second engaging portion is provided on the toilet main body 31, and the toilet cover 20 is mounted on the toilet main body 31 through the cooperation of the first engaging portion and the second engaging portion. The toilet body 31 may in turn be provided with a mounting cavity and a tank body, in some embodiments a water tank is mounted in the mounting cavity; in other embodiments, a pre-filter may be installed in the installation cavity, the pre-filter is connected to the valve assembly 170 through a solenoid valve connection pipe, and the pre-filter is further connected to a water inlet angle valve.

Although the present invention has been described with reference to the preferred embodiments, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (10)

1. A sterilizing waterway assembly, comprising:

the base is provided with a sliding groove;

the driving piece is arranged on the base;

the flushing assembly is arranged in the sliding groove in a sliding mode, and the driving piece is used for driving the flushing assembly;

the water electrolysis module comprises an electrolysis tank and an electrolyzer, wherein the electrolysis tank is arranged on the base, and the electrolyzer is arranged in the electrolysis tank; the electrolytic tank is provided with a water inlet and a water outlet, and the water outlet is communicated with the flushing assembly;

the heating assembly is arranged between the flushing assembly and the water outlet and is used for heating water entering the flushing assembly;

the valve assembly is arranged on one side of the water electrolysis module and is used for controlling water flow entering the water inlet; and

the electric control assembly is arranged on the base and positioned on one side of the valve assembly, and the valve assembly is positioned between the water electrolysis module and the electric control assembly; the electronic control assembly includes a control board assembly electrically connected to the driver, the electrolyzer, the heating assembly, and the valve assembly.

2. The sterilizing waterway assembly of claim 1, wherein an ion exchange membrane is disposed within the electrolytic tank, the ion exchange membrane dividing the electrolytic tank into a first electrolytic chamber and a second electrolytic chamber;

the electrolyzer comprises a positive electrode and a negative electrode, the positive electrode is arranged in the first electrolysis cavity, the negative electrode is arranged in the second electrolysis cavity, and the water outlet is communicated with the first electrolysis cavity.

3. The sterilizing waterway assembly of claim 1, wherein the heating assembly comprises:

the hot water tank support is arranged on the base;

the hot water tank is arranged on the hot water tank support and provided with a first water inlet and a first water outlet, the first water inlet is communicated with the water outlet, and the first water outlet is communicated with the flushing assembly;

a heater disposed in the hot water tank.

4. The sterilizing waterway assembly of claim 3, wherein the heating assembly further comprises:

and the temperature sensor is arranged in the hot water tank and is positioned at the first water outlet.

5. The sterilizing waterway assembly of claim 4, wherein the heating assembly is disposed at a side of the electrolyzed water module, and the electrolyzed water module is disposed between the heating assembly and the valve assembly.

6. The sterilizing waterway assembly of claim 4, wherein the flushing assembly comprises:

the spray gun, the spray gun telescopic set up in the spout, the spray gun is provided with second water inlet and spray gun mouth, the second water inlet with spray gun mouth intercommunication, the second water inlet with first delivery port links to each other.

7. The sterilizing waterway assembly of claim 1, wherein the electronic control assembly further comprises:

the power board assembly is arranged on the base, and the control board assembly is arranged on the power board assembly; the power board assembly is electrically connected with the control board assembly.

8. The sterilizing waterway assembly of claim 1, wherein the valve assembly comprises:

the electromagnetic valve bracket is arranged on the base;

the electromagnetic pressure reducing valve is arranged on the electromagnetic valve support.

9. A toilet lid, comprising:

a housing;

the cover body is connected to the shell; and

the sterilizing waterway assembly of any one of claims 1-8, mounted to the housing.

10. A toilet, comprising:

a toilet body; and

the toilet lid as claimed in claim 9, which is mounted to a toilet body.

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