CN217399833U - Clean water route of intelligent toilet bowl - Google Patents

Abstract

The utility model discloses a clean water path of an intelligent toilet bowl, wherein the clean water path of the intelligent toilet bowl comprises a switching valve, an instant heating assembly, a spray gun and a scale inhibition member, the switching valve is provided with a first water inlet and a second water inlet, and the first water inlet is used for water inlet; the instant heating assembly is connected with the switching valve and communicated with the switching valve; the spray gun is connected with one end of the instant heating component, which is far away from the switching valve, and is communicated with the instant heating component; the scale inhibition part is connected with the switching valve and is communicated with the second water inlet. The utility model discloses technical scheme clears away the incrustation scale of clean water route inner wall, prevents that clean water route from blockking up.

Description

Clean water route of intelligent toilet bowl

Technical Field

The utility model relates to a toilet bowl technical field, in particular to intelligent toilet's clean water route.

Background

The existing intelligent toilet bowl has a body cleaning function, the body cleaning function effectively reduces anal diseases of users and bacterial infection of female private parts, and the prevalence rate of gynecological diseases and anorectal diseases is greatly reduced. Intelligent toilet bowl on the existing market all has hot water buttockss to wash, the woman washes the function, and the harder area of quality of water, running water is after the hot subassembly heating promptly of intelligent toilet bowl, and the mineral substance of aquatic is easily appeared and is formed the incrustation scale, and the incrustation scale of formation adsorbs outer wall or the pipeline inner wall of the hot subassembly promptly easily, and long-time incrustation scale accumulation leads to blockking up the water route to the incrustation scale breeds the bacterium easily, and harmful user is healthy.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims at providing an intelligent toilet's clean water route aims at cleaing away the incrustation scale of clean water route inner wall, prevents that clean water route from blockking up.

In order to achieve the above object, the utility model provides an intelligent toilet's clean water route, intelligent toilet's clean water route includes:

the switching valve is provided with a first water inlet and a second water inlet, and the first water inlet is used for water inlet;

the instant heating assembly is connected with the switching valve and communicated with the switching valve;

the spray gun is connected with one end, far away from the switching valve, of the instant heating assembly and is communicated with the instant heating assembly; and

and the scale inhibition part is connected with the switching valve and is communicated with the second water inlet.

In one embodiment, the clean water path of the intelligent toilet further comprises a shunt valve, and the shunt valve is arranged between the instant heating component and the spray gun; the shunt valve is provided with at least one first communicating hole and one second communicating hole, the spray gun is provided with a functional channel and a self-cleaning channel, the first communicating hole is communicated with the functional channel, and the second communicating hole is communicated with the self-cleaning channel.

In one embodiment, the clean water path of the intelligent toilet further comprises a reduced-pressure water inlet solenoid valve, and the reduced-pressure water inlet solenoid valve is connected with one end of the switching valve, which is far away from the instant heating assembly, and one end of the scale inhibition member, which is far away from the switching valve, and is communicated with the first water inlet and the scale inhibition member.

In one embodiment, the cleaning waterway of the intelligent toilet further comprises a vacuum breaker, the vacuum breaker is arranged between the reduced-pressure water inlet electromagnetic valve and the switching valve, and the vacuum breaker is connected with one end of the scale inhibition member, which is far away from the switching valve, and is communicated with the reduced-pressure water inlet electromagnetic valve, the scale inhibition member and the first water inlet.

In one embodiment, the vacuum breaker is provided with an overflow port for draining excess water.

In one embodiment, the scale inhibitor comprises:

a first housing to which the switching valve is connected; the first shell is provided with a first inner cavity, a first communicating port and a plurality of water inlet holes, the first communicating port and the plurality of water inlet holes are communicated with the first inner cavity, the plurality of water inlet holes are positioned on one side of the first shell, and the first communicating port is positioned on one side of the first shell, which is far away from the water inlet holes;

the first filtering blocking structure is arranged in the first inner cavity and is positioned at the first communication port; and

the second shell is detachably connected with the first shell and provided with a second inner cavity, a second communicating port and a plurality of first water outlet holes, the second communicating port and the first water outlet holes are communicated with the second inner cavity, and the first water outlet holes are positioned on one side, back to the first shell, of the second shell and are communicated with the second water inlet; the second communication port is positioned on one side of the second shell facing the first shell and is communicated with the first communication port; the second inner cavity is used for placing a scale inhibitor.

In an embodiment, the second inner cavity includes an accommodating cavity and a water outlet channel, and the accommodating cavity is communicated with the water outlet channel and the second communication port and is arranged adjacent to the first shell;

the second casing still includes a plurality of second apopores, and is a plurality of the second apopore is located the periphery of second casing, and is a plurality of first apopore and a plurality of the second apopore all with outlet channel with the second water inlet intercommunication sets up.

In one embodiment, a mounting ring is convexly arranged on one side of the first shell, which is back to the water inlet hole, the mounting ring extends around the periphery of the first shell, and the inner wall of the mounting ring is provided with first threads;

and the outer wall of the second shell is provided with second threads, and the second threads are meshed with the first threads so as to enable the first shell to be detachably connected with the second shell.

In an embodiment, the scale inhibitor further comprises a sealing ring, and the sealing ring is installed between the inner wall of the mounting ring and the outer wall of the second shell.

The utility model discloses a clean water path of intelligent toilet bowl of technical scheme includes diverter valve, instant heating assembly, spray gun and hinders dirty piece, and the diverter valve has first water inlet and second water inlet, and first water inlet is used for intaking; the instant heating assembly is connected with the switching valve and communicated with the switching valve; the spray gun is connected with one end of the instant heating component far away from the switching valve and is communicated with the instant heating component; the scale inhibition part is connected with the switching valve and is communicated with the second water inlet; when the switching valve is in the on state, the first water inlet of switching valve is closed this moment, the second water inlet is opened for water can form the scale inhibition liquid from the scale inhibition piece earlier, the scale inhibition liquid flows into the instant heating subassembly from the second water inlet of switching valve again, scale inhibition liquid is when being heated by the instant heating subassembly, the incrustation scale of the internal wall of instant heating subassembly can be dissolved to the antisludging agent composition in the scale inhibition liquid, so set up, the warm scale inhibition liquid behind the instant heating subassembly can also bring the incrustation scale that dissolves into the spray gun together, make the spray gun can spout the warm heat scale inhibition liquid that has the incrustation scale together, the incrustation scale of the internal wall of spray gun also can be dissolved to the antisludging liquid, thereby avoid intelligent toilet's clean water route to block up.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic structural view of a clean water path of the intelligent toilet of the present invention;

FIG. 2 is a schematic structural view of a first embodiment of the scale inhibition member of the clean water path of the intelligent toilet of the present invention;

fig. 3 is a schematic structural view of a second embodiment of the scale inhibition component of the clean water path of the toilet of the present invention.

The reference numbers illustrate:

the realization, the functional characteristics and the advantages of the utility model are further explained by combining the embodiment and referring to the attached drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that all the directional indicators (such as upper, lower, left, right, front, rear … …) in the embodiments of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit ly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of the feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

The utility model provides a clean water route of intelligent toilet bowl.

In the embodiment of the present invention, referring to fig. 1, the clean water path of the intelligent toilet includes a switching valve 10, an instant heating assembly 20, a spray gun 30 and a scale inhibitor 40, the switching valve 10 has a first water inlet and a second water inlet, and the first water inlet is used for water intake; the heating assembly 20 is connected with the switching valve 10 and communicated with the switching valve 10; the spray gun 30 is connected with one end of the instant heating assembly 20 far away from the switching valve 10 and is communicated with the instant heating assembly 20; the scale inhibition member 40 is connected with the switching valve 10 and is communicated with the second water inlet.

In this embodiment, when the diverter valve 10 is in the outage state, the first water inlet of diverter valve 10 was opened this moment, and the second water inlet is closed, and water can directly get into instant heating assembly 20 from the first water inlet of diverter valve 10 in, and water is direct to be heated by instant heating assembly 20 and forms the warm water, and the warm water is spout from spray gun 30, lets intelligent toilet realize the function that warm water buttock washed or warm water woman washed.

When the switching valve 10 is in the power-on state, the first water inlet of the switching valve 10 is closed at the moment, the second water inlet is opened, so that water can form scale blocking liquid from the scale blocking part 40, the scale blocking liquid flows into the instant heating component 20 from the second water inlet of the switching valve 10, and the scale inhibitor component in the scale blocking liquid can prevent water and scale from condensing in the instant heating component 20.

In one embodiment, referring to fig. 1, the clean water path of the intelligent toilet further includes a shunt valve 50, the shunt valve 50 being disposed between the instant heating assembly 20 and the spray gun 30; the shunt valve 50 has at least a first communicating hole communicating with the functional passage 30a and a second communicating hole communicating with the self-cleaning passage 30b, and the spray gun 30 has the functional passage 30a and the self-cleaning passage 30 b.

In this embodiment, by arranging the shunt valve 50 between the instant heating assembly 20 and the spray gun 30, and communicating the shunt valve 50 with the functional channel 30a and the self-cleaning channel 30b of the spray gun 30, the clean waterway can selectively control the water outlet of the functional channel 30a or the self-cleaning channel 30b of the spray gun 30 by reasonably using the shunt valve 50 according to the requirements of different descaling steps, so that the clean waterway is comprehensively descaled and cleaned, and the degree of cleanness of the clean waterway is improved. Specifically, the functional channel 30a includes a bidet sub-channel, a hip-wash sub-channel, and a purgation sub-channel, which are all communicated with the first communication hole. Of course, in other embodiments, the functional channel 30a may also include sub-channels for other functions.

In an embodiment, referring to fig. 1, the cleaning waterway of the intelligent toilet further includes a pressure-reducing water inlet solenoid valve 70, and the pressure-reducing water inlet solenoid valve 70 is connected to one end of the switching valve 10 away from the instantaneous heating assembly 20 and one end of the scale inhibiting member 40 away from the switching valve 10, and is communicated with the first water inlet and the scale inhibiting member 40.

In this embodiment, the pressure-reducing water inlet solenoid valve 70 is utilized to more effectively control the water to enter and exit the scale-inhibiting member 40 or enter and exit the first water inlet of the switching valve 10, so that the pressure-reducing water inlet solenoid valve 70 can better cooperate with the switching valve 10, thereby

In an embodiment, referring to fig. 1, the cleaning waterway of the intelligent toilet further includes a vacuum breaker 80, the vacuum breaker 80 is disposed between the reduced-pressure water inlet solenoid valve 70 and the switching valve 10, and the vacuum breaker 80 is connected to one end of the scale inhibiting member 40 far away from the switching valve 10 and is communicated with the reduced-pressure water inlet solenoid valve 70, the scale inhibiting member 40 and the first water inlet.

In this embodiment, vacuum breaker 80 can eliminate the negative pressure in the pipeline in whole clean water route automatically, avoids hindering dirty liquid or clear water can prevent promptly to hinder dirty liquid or water refluence because of the siphon backward flow to clean water route appears in the negative pressure, guarantees that hydroenergy circulates in clean water route one-way in proper order to guarantee clean water route's normal operating.

In one embodiment, referring to FIG. 1, the vacuum breaker 80 is provided with an overflow port for draining excess water. So set up, when vacuum breaker 80 is the in-process of the pressure boost in the pipeline of whole clean water route, when the water of the pipeline of clean water route is not following current in time, the water accessible overflow mouth that is greater than the volume of clean water route flows, avoids unnecessary water to follow decompression water inlet solenoid valve 70 and discharges.

In an embodiment, referring to fig. 1 and 2, the scale inhibitor 40 includes a first housing 41, a first filtering blocking structure 42 and a second housing 43, and the switching valve 10 is connected to the first housing 41; the first casing 41 is provided with a first inner cavity 41a, a first communication port 41b and a plurality of water inlet holes 41c, the first communication port 41b and the plurality of water inlet holes 41c are both communicated with the first inner cavity 41a, the plurality of water inlet holes 41c are positioned on one side of the first casing 41, and the first communication port 41b is positioned on one side of the first casing 41 away from the water inlet holes 41 c; the first filtering blocking structure 42 is arranged in the first inner cavity 41a and is positioned at the first communication port 41 b; the second housing 43 is detachably connected to the first housing 41, the second housing 43 is provided with a second inner cavity 43a, a second communication port 43b and a plurality of first water outlet holes 43c, the second communication port 43b and the plurality of first water outlet holes 43c are both communicated with the second inner cavity 43a, and the plurality of first water outlet holes 43c are located on one side of the second housing 43, which faces away from the first housing 41, and are communicated with the second water inlet; the second communication port 43b is located on the side of the second housing 43 facing the first housing 41, and communicates with the first communication port 41 b; the second inner cavity 43a is used for placing scale inhibitor.

In this embodiment, when the switching valve 10 is powered on, the second water inlet of the switching valve 10 is opened, so that water enters the second water inlet of the switching valve 10 from the scale inhibitor 40 first.

Specifically, water enters the first inner cavity 41a of the first shell 41 of the scale inhibiting member 40 from the plurality of water inlet holes 41c, and after the water passes through the first filtering blocking structure 42 in the first inner cavity 41a, water can be primarily filtered, so that particulate matters in the inlet water are reduced;

the water after the preliminary filtration enters the second inner cavity 43a from the second communicating port 43b of the second shell 43, so that more scale inhibitors can be blended into the filtered water, and thus scale inhibitor liquid with higher concentration is formed, and the instant heating assembly 20, the shunt valve 50 and the spray gun 30 in the cleaning water path can be descaled more thoroughly.

In an embodiment, referring to fig. 1 to 3, the antisludging member 40 further includes a second filtering and blocking structure, which is installed in the second inner cavity 43a of the second housing 43 and is disposed adjacent to the plurality of first water outlet holes 43 c. So set up, water after first filtration barrier structure 42 and antisludging agent reentries the second and filters barrier structure for hydroenergy obtains secondary filter, and then further reduces the particulate matter in the aquatic, thereby promotes the clean degree of water.

In an embodiment, referring to fig. 1 and 2, the second inner cavity 43a includes a receiving chamber 431a and a water outlet passage 431b, and the receiving chamber 431a communicates with the water outlet passage 431b and the second communication port 43b and is disposed adjacent to the first housing 41; the second housing 43 further includes a plurality of second outlet holes 43d, the plurality of second outlet holes 43d are located on the periphery of the second housing 43, and the plurality of first outlet holes 43c and the plurality of second outlet holes 43d are both communicated with the outlet channel 431b and the second water inlet.

In this embodiment, by dividing the second inner cavity 43a into the accommodating cavity 431a and the water outlet channel 431b, with this configuration, when water enters the accommodating cavity 431a from the second communication port 43b of the second housing 43 first to form the scale inhibition liquid, and then the scale inhibition liquid enters the water outlet channel 431b, and finally water can be discharged from the first water outlet holes 43c and the second water outlet holes 43d to the second water inlet of the switching valve 10, so as to further increase the water outlet area of the scale inhibition member 40, thereby increasing the water outlet speed of the scale inhibition member 40.

In an embodiment, referring to fig. 1 and 2, a mounting ring 411 is convexly disposed on a side of the first housing 41 facing away from the water inlet hole 41c, the mounting ring 411 extends around a periphery of the first housing 41, and an inner wall of the mounting ring 411 is provided with a first thread; the outer wall of the second housing 43 is provided with a second screw thread engaged with the first screw thread to detachably connect the first housing 41 and the second housing 43. So set up, be convenient for the user to dismantle first casing 41 with second casing 43 of scale removal spare for the user washs the inner wall of the first inner chamber 41a of first casing 41 and the second inner chamber 43a of second casing 43 more easily, prolongs the life of antisludging piece 40, and adds antisludging agent to the second inner chamber 43a of second casing 43 more easily.

In another embodiment, referring to fig. 1 and 3, a mounting ring 411 is convexly disposed on a side of the first housing 41 facing away from the water inlet hole 41c, the mounting ring 411 extends around a periphery of the first housing 41, and an outer wall of the mounting ring 411 is provided with a first thread; the inner wall of the second housing 43 is provided with a second thread, the mounting ring 411 is arranged at the second communication port 43b of the second housing 43 in a penetrating manner, and the second thread is engaged with the first thread, so that the first housing 41 and the second housing 43 can be detachably connected.

In an embodiment, referring to fig. 1 and 2, the scale inhibitor 40 further comprises a sealing ring 44, and the sealing ring 44 is installed between the inner wall of the mounting ring 411 and the outer wall of the second housing 43. With this arrangement, the sealing ring 44 further seals the gap between the inner wall of the mounting ring 411 and the outer wall of the second housing 43, thereby improving the sealing performance between the first housing 41 and the second housing 43.

In another embodiment, referring to fig. 1 and 3, a sealing ring 44 is installed between the outer wall of the mounting ring 411 and the inner wall of the second housing 43 to seal a gap between the outer wall of the mounting ring 411 and the inner wall of the second housing 43, thereby improving the sealing performance of the first housing 41 and the second housing 43.

The descaling method of the clean waterway of the intelligent toilet bowl comprises the following steps:

referring to fig. 1 and 2, step 1: after the spray gun 30 finishes the cleaning work, the pressure-reducing water inlet electromagnetic valve 70 is controlled to be closed, so that the cleaning waterway stops water inlet;

step 2: controlling the switching valve 10 to be electrified, and opening a second water inlet of the switching valve 10 and communicating with the scale inhibition member 40;

and step 3: when the pressure-reducing water inlet electromagnetic valve 70 is controlled to be opened for the first preset time, the first communication hole of the control shunt valve 50 is communicated with the functional channel 30 a;

and 4, step 4: when the first communication hole of the shunt valve 50 is communicated with the functional channel 30a for the second preset time, the pressure-reducing water inlet electromagnetic valve 70 is controlled to be closed so as to stop the water inlet of the cleaning water path;

and 5: controlling the switching valve 10 to be powered off so that the second water inlet of the switching valve 10 is communicated with the scale inhibition member 40; the second communication hole of the control shunt valve 50 communicates with the self-cleaning passage 30 b.

After the spray gun 30 finishes normal hip washing or gynecological washing, the pressure-reducing water inlet electromagnetic valve 70 is controlled to be closed, water inlet to the cleaning waterway is stopped, and subsequent waterway switching is convenient to carry out; then the switching valve 10 is controlled to be powered on, after the switching valve 10 is powered on, the second water inlet of the switching valve 10 is opened, so that the second water inlet is communicated with the scale inhibition member 40, and the first water inlet of the switching valve 10 is closed, so that the waterway is switched to flow through the scale inhibition member 40; after the second water inlet is opened, the pressure-reducing water inlet electromagnetic valve 70 is controlled to be opened, so that water is introduced into the clean water path; the water flows through the scale inhibition component 40 and the second water inlet of the switching valve 10 in sequence, so that the water can be mixed with the scale inhibitor in the scale inhibition component 40 to form scale inhibition liquid, and the scale inhibition liquid flows through the second water inlet of the switching valve 10 in sequence in the instant heating assembly 20 and the spray gun 30, so that the inner walls of the instant heating assembly 20 and the spray gun 30 are descaled.

When the opening time of the pressure-reducing water inlet electromagnetic valve 70 is continued to first preset time, the cleaning waterway can be filled with scale inhibiting liquid, and the scale inhibiting liquid can continuously remove scales on the inner wall of the cleaning waterway; at the moment, the first communication hole of the shunt valve 50 is controlled to be communicated with the functional channel 30a, so that the scale inhibition liquid can enter the functional channel 30a of the spray gun 30 through the first communication hole of the shunt valve 50 to descale the inner wall of the functional channel 30a of the spray gun 30; until the first communicating hole of the water diversion valve 50 is communicated with the functional passage 30a of the spray gun 30 to the second preset time, the scale inhibition liquid finishes descaling the functional passage 30a of the spray gun 30; and then, the decompression water inlet electromagnetic valve 70 is controlled to be closed, the water supply to the clean water channel is stopped again, the switching valve 10 is controlled to be powered off, so that the second water inlet of the switching valve 10 is closed, the first water inlet of the switching valve 10 is opened, and meanwhile, the second communication hole of the shunt valve 50 is controlled to be communicated with the self-cleaning channel 30b of the spray gun 30, so that the scale inhibition liquid formed before is still remained in the clean water channel, and the scale inhibition liquid enters the self-cleaning channel 30b of the spray gun 30 through the second communication hole of the shunt valve 50 so as to descale the inner wall of the self-cleaning channel 30b of the spray gun 30.

The above only be the preferred embodiment of the utility model discloses a not consequently restriction the utility model discloses a patent range, all are in the utility model discloses a conceive, utilize the equivalent structure transform of what the content was done in the description and the attached drawing, or direct/indirect application all is included in other relevant technical field the utility model discloses a patent protection within range.

Claims (9)

1. The utility model provides an intelligent toilet's clean water route which characterized in that, intelligent toilet's clean water route includes:

the switching valve is provided with a first water inlet and a second water inlet, and the first water inlet is used for feeding water;

the instant heating assembly is connected with the switching valve and communicated with the switching valve;

the spray gun is connected with one end, far away from the switching valve, of the instant heating assembly and is communicated with the instant heating assembly; and

and the scale inhibition part is connected with the switching valve and is communicated with the second water inlet.

2. The clean water path of the intelligent toilet according to claim 1, wherein the clean water path of the intelligent toilet further comprises a shunt valve, the shunt valve being disposed between the instant heating assembly and the spray gun; the shunt valve is provided with at least one first communicating hole and one second communicating hole, the spray gun is provided with a functional channel and a self-cleaning channel, the first communicating hole is communicated with the functional channel, and the second communicating hole is communicated with the self-cleaning channel.

3. The clean water path of the intelligent toilet according to claim 1, further comprising a pressure-reducing water inlet solenoid valve connected to one end of the switching valve away from the instantaneous heating assembly and one end of the scale inhibition member away from the switching valve and communicating with the first water inlet and the scale inhibition member.

4. The clean waterway of the intelligent toilet according to claim 3, further comprising a vacuum breaker, wherein the vacuum breaker is disposed between the reduced-pressure water inlet solenoid valve and the switching valve, and the vacuum breaker is connected to an end of the scale inhibition member away from the switching valve and is communicated with the reduced-pressure water inlet solenoid valve, the scale inhibition member and the first water inlet.

5. The clean water path of the intelligent toilet according to claim 4, wherein the vacuum breaker is provided with an overflow port for discharging excess water.

6. The cleaning waterway of the intelligent toilet according to claim 1, wherein the scale inhibition member comprises:

a first housing to which the switching valve is connected; the first shell is provided with a first inner cavity, a first communication port and a plurality of water inlet holes, the first communication port and the plurality of water inlet holes are communicated with the first inner cavity, the plurality of water inlet holes are positioned on one side of the first shell, and the first communication port is positioned on one side, far away from the water inlet holes, of the first shell;

the first filtering blocking structure is arranged in the first inner cavity and is positioned at the first communication port; and

the second shell is detachably connected with the first shell, the second shell is provided with a second inner cavity, a second communicating port and a plurality of first water outlet holes, the second communicating port and the plurality of first water outlet holes are communicated with the second inner cavity, and the plurality of first water outlet holes are positioned on one side of the second shell, which faces away from the first shell, and are communicated with the second water inlet; the second communication port is positioned on one side of the second shell facing the first shell and is communicated with the first communication port; the second inner cavity is used for placing a scale inhibitor.

7. The cleaning waterway of the intelligent toilet according to claim 6, wherein the second inner chamber includes a receiving chamber and a water outlet passage, the receiving chamber being in communication with the water outlet passage and the second communication port and being disposed adjacent to the first housing;

the second casing still includes a plurality of second apopores, and is a plurality of the second apopore is located the periphery of second casing, and is a plurality of first apopore and a plurality of the second apopore all with outlet channel with the second water inlet intercommunication sets up.

8. The cleaning waterway of the intelligent toilet bowl according to claim 6, wherein a mounting ring is convexly arranged on one side of the first shell facing away from the water inlet hole, the mounting ring is arranged to extend around the periphery of the first shell, and the inner wall of the mounting ring is provided with a first thread;

and the outer wall of the second shell is provided with second threads, and the second threads are meshed with the first threads so as to enable the first shell to be detachably connected with the second shell.

9. The clean water path of the intelligent toilet bowl according to claim 8, wherein the scale inhibition member further comprises a sealing ring installed between an inner wall of the mounting ring and an outer wall of the second housing.

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