CN218667777U - Intelligent closestool - Google Patents

Abstract

The utility model discloses an intelligent closestool, which comprises a closestool main body, a flushing pipeline and a urine detection component, wherein the closestool main body is provided with a flushing tank and a discharge pipe communicated with the flushing tank, and the side wall of the flushing tank is provided with a urine collecting port; the flushing pipeline is used for communicating the water inlet pipe with the sewage discharge pipe; the urine test assembly comprises a detection portion and an inner pipeline, the inner pipeline comprises a urine collection pipe communicated with a urine collection port, the detection portion and the urine collection pipe can be communicated and arranged to detect urine, the inner pipeline further comprises a water supply pipe and a waste water discharge pipe, the water supply pipe is used for communicating a water inlet pipe and the urine collection pipe, and the waste water discharge pipe is used for communicating a liquid outlet and a flushing pipeline of the urine collection pipe. Through setting up the delivery pipe and collecting the ureter intercommunication, the liquid outlet and the flushing pipe way of collecting the ureter simultaneously pass through the waste water pipe intercommunication of discharging, can arrange the waste water after washing to collection urine mouth and flushing pipe way, need not to set up in addition flushing system with intelligent closestool's bath waterway system intercommunication to solve current intelligent closestool's urine examination pipe-line system complex problem.

Description

Intelligent closestool

Technical Field

The utility model relates to a cleaners and polishes field especially relates to intelligent closestool.

Background

Ordinary intelligent closestool's function in the market all only concerns about improving the travelling comfort that the user like the lavatory, and people are more and more high to healthy attention degree, and it will be the market needs to use health monitoring technique on intelligent closestool, adds the conventional monitoring function of urine on ordinary intelligent closestool and will become the new breakthrough in the market.

Among the urine examination structure of current trade design, the urine examination waterway system all is independent design, and separately with intelligent closestool bath waterway system to corresponding configuration a lot of hardware such as positive displacement pump, confession urine pump, the pipeline is very complicated, so, the pipeline is numerous can lead to bacterial growing and the remaining risk of urine can increase.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an intelligent closestool aims at solving current intelligent closestool's urine examination pipe-line system complex problem.

In order to achieve the above object, the utility model provides an intelligent closestool, intelligent closestool includes:

the toilet bowl comprises a toilet bowl main body, a flushing groove and a drainage pipe communicated with the flushing groove, wherein a urine collecting port is formed in the side wall of the flushing groove;

the flushing pipeline is used for communicating the water inlet pipe with the sewage discharge pipe; and the number of the first and second groups,

urine test subassembly, including detection portion and internal pipeline, internal pipeline include with the collection ureter that collection urine mouth intercommunication set up, detection portion with but collection ureter intercommunication sets up, is used for detecting urine in the collection ureter, internal pipeline still includes delivery pipe and waste pipe, the delivery pipe be used for intercommunication the inlet tube with collection ureter, waste pipe is used for the intercommunication the liquid outlet of collection ureter with the flushing pipe way, so that the rivers of delivery pipe pass through behind the collection ureter, waste liquid after the washing is followed respectively collection urine mouth with waste pipe arranges extremely the blow off pipe.

Optionally, a first pump body is disposed on the urine collection tube, and the first pump body is disposed between the liquid inlet of the urine collection tube and the detection portion, and is configured to pump urine from the liquid inlet of the urine collection tube into the urine collection tube toward the liquid outlet of the urine collection tube.

Optionally, the urine test assembly further comprises a switch assembly for opening and closing the urine collection port, the switch assembly comprising:

the blocking part is movably arranged on the closestool main body so as to open and close the urine collecting port in the moving process of the closestool main body;

the air pump is used for driving the plugging part to move;

and the elastic piece is arranged between the driving part of the air pump and the blocking part.

Optionally, the urine test assembly further comprises a waste water tank for collecting waste liquid discharged from the liquid outlet of the urine collection tube;

the waste water discharge pipe is communicated with the waste water tank and the flushing pipeline.

Optionally, a first check valve is further disposed on the urine collection tube, and the check valve is disposed between the first pump body and the urine collection port and is used for conducting in a direction from the urine collection port to the first pump body;

the liquid outlet of the water supply pipe is communicated with the position of the urine collection pipe between the first one-way valve and the urine collection port and is close to the first one-way valve.

Optionally, the water supply pipe is further provided with a second check valve, and the second check valve is used for communicating in a direction from the liquid inlet of the water supply pipe to the liquid outlet of the water supply pipe.

Optionally, a second pump body is arranged on the waste water discharge pipe, and the second pump body is used for discharging waste water in the waste water tank to the flushing pipeline.

Optionally, the first pump body and/or the second pump body is a peristaltic pump.

Optionally, a siphon port and a jet orifice are arranged on the sewage discharge pipe;

the flushing pipeline comprises a main flushing pipe, a first connecting pipe and a second connecting pipe, wherein a liquid inlet of the main flushing pipe is communicated with the water inlet pipe, a liquid outlet of the main flushing pipe is communicated with liquid inlets of the first connecting pipe and the second connecting pipe, a liquid outlet of the first connecting pipe is communicated with the jet orifice, a liquid outlet of the second connecting pipe is communicated with the siphon port, and the wastewater discharge pipe is communicated with the wastewater tank and the first connecting pipe;

and a distribution valve is arranged on the main flushing pipe and used for distributing the inlet water of the main flushing pipe to the first connecting pipe and the second connecting pipe.

Optionally, the intelligent toilet further comprises a mounting seat arranged on the toilet main body;

the main flushing pipe is also provided with a water tank and a water suction pump, and the water suction pump is arranged between the water tank and the sewage discharge pipe;

the first pump body, the air pump, the second pump body and the suction pump all are in threaded connection with the mounting seat.

The utility model provides an among the technical scheme, the urine test subassembly includes detection portion and internal pipeline, and internal pipeline is including collection ureter, collection ureter is collected from the urine that collection urine mouth got into, and the detection portion detects the urine that collection ureter was collected, after the detection, because of delivery pipe intercommunication inlet tube with collection ureter, can be right collection ureter washes, and the waste liquid that washes can arrange respectively extremely waste pipe with collection urine mouth to finally arrange to the blowdown intraductally. Through setting up with the collection ureter of collection urine mouth intercommunication can realize passing through the detection portion carries out the urine examination, will the delivery pipe set up with collection ureter intercommunication can arrange the waste water after washing partly extremely collection urine mouth, simultaneously the liquid outlet of collection ureter with the flushing pipe way passes through the waste water drainage pipe intercommunication can arrange the waste water after washing extremely the flushing pipe way realizes promptly and intelligent closestool's bath waterway system intercommunication, discharges whole waste liquid jointly extremely the blow off pipe need not to set up in addition flushing system to solve current intelligent closestool's urine examination pipe-line system complex problem.

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 perspective view of an embodiment of an intelligent toilet provided by the present invention;

FIG. 2 is a schematic cross-sectional view of the intelligent toilet of FIG. 1;

fig. 3 is a partial structural schematic view of the detection part and the flushing pipe in fig. 1;

FIG. 4 is a perspective view of FIG. 3 from another perspective;

fig. 5 is a schematic diagram of the system of the flush line and internal circuit of fig. 1.

The reference numbers illustrate:

reference numerals	Name (R)	Reference numerals	Name (R)
				100	Intelligent closestool	4	Internal piping
200	Water inlet pipe	41	Urine collecting tube
				1	Toilet main body	42	Water supply pipe
1a	Flushing tank		43					Waste water discharge pipe
				1b	Blow-off pipe	44	Waste water tank
1c	Urine collecting port	5	First pump body
				1d	Jet orifice	6	Air pump
1e	Siphon mouth	7	First check valve
				2	Flushing pipeline	8	Second check valve
21	Main flushing pipe	9	Second pump body
				22	First connecting pipe	10	Mounting seat
23	Second connecting pipe	11	Water pump
				24	Distribution valve	12	Plugging part
3	Detection part

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 accompanying 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, if directional indications (such as upper, lower, left, right, front and rear \8230;) are involved in the embodiments of the present invention, the directional indications are only used to explain the relative positional relationship between the components in a specific posture (as shown in the attached drawings), the motion situation, etc., and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the meaning of "and/or" appearing throughout includes three juxtapositions, exemplified by "A and/or B" including either A or B or both A and B. 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.

Among the urine examination structure of current trade design, the urine examination waterway system all is independent design, and separately with intelligent closestool bath waterway system to corresponding configuration a lot of hardware such as positive displacement pump, confession urine pump, the pipeline is very complicated, so, the pipeline is numerous can lead to bacterial growing and the remaining risk of urine can increase.

In order to solve the above problem, the present invention provides an intelligent toilet 100, and fig. 1 to 5 illustrate a specific embodiment of the intelligent toilet 100.

Referring to fig. 1 to 4, the intelligent toilet 100 includes a toilet main body 1, a flushing pipeline 2 and a urine test assembly, wherein the toilet main body 1 is formed with a flushing tank 1a and a sewage discharge pipe 1b communicated with the flushing tank 1a, and a urine collection port 1c is opened on a side wall of the flushing tank 1 a; the flushing pipeline 2 is used for communicating the water inlet pipe 200 with the sewage discharge pipe 1b; the urine test subassembly includes detection portion 3 and internal pipeline 4, internal pipeline 4 include with collection urine pipe 41 that collection urine mouth 1c intercommunication set up, detection portion 3 with collection urine pipe 41 can communicate the setting, is used for detecting urine in collection urine pipe 41, internal pipeline 4 still includes delivery pipe 42 and waste water discharge pipe 43, delivery pipe 42 be used for intercommunication inlet tube 200 with collection urine pipe 41, waste water discharge pipe 43 is used for the intercommunication collection urine pipe 41's liquid outlet with wash water pipeline 2, so that delivery pipe 42's rivers pass through behind collection urine pipe 41, the waste liquid after the washing is followed respectively collection urine mouth 1c with waste water discharge pipe 43 arranges extremely blow off pipe 1b.

The utility model provides an among the technical scheme, the urine test subassembly includes detection portion 3 and internal pipe 4, and internal pipe 4 is including collection ureter 41, collection ureter 41 collects the urine that gets into from collection urine mouth 1c, and detection portion 3 detects the urine that collection ureter 41 was collected, after the detection, because of delivery pipe 42 intercommunication inlet tube 200 with collection ureter 41, can be right collection ureter 41 washes, and the waste liquid that washes can arrange respectively extremely waste pipe 43 with collection urine mouth 1c to finally arrange to in blow off pipe 1b. Through setting up with the collection ureter 41 of collection urine mouth 1c intercommunication can realize passing through detection portion 3 carries out the urine examination, will delivery pipe 42 set up with collection ureter 41 intercommunication can be with the waste water after the washing partly arrange extremely collection urine mouth 1c, simultaneously the liquid outlet of collection ureter 41 with flushing pipe 2 passes through waste water pipe 43 intercommunication can arrange the other part waste water after the washing extremely flushing pipe 2 realizes the bath waterway system intercommunication with intelligent closestool 100 promptly, discharges whole waste liquid jointly extremely blow off pipe 1b need not to set up the water flushing system in addition to solve the current urine examination pipe-line system complex problem of intelligent closestool 100.

Specifically, in order to facilitate the detection by the detection unit 3, in the present embodiment, the urine collection tube 41 is provided with the first pump 5, the first pump 5 is provided between the liquid inlet of the urine collection tube 41 and the detection unit 3, and the urine flowing into the urine collection tube 41 from the urine collection port 1c can be pumped toward the detection unit 3 by providing the first pump 5. With this arrangement, the first pump body 5 can accurately control the flow rate of the pump to the detection portion 3.

Further, in this embodiment, the urine test assembly further comprises a switch assembly, the switch assembly is used for opening and closing the urine collection port 1c, the switch assembly comprises a blocking portion 12, an air pump 6 and an elastic member, the blocking portion 12 is movably disposed on the toilet main body 1 to open and close the urine collection port 1c during the moving stroke, and when the urine test is not required, the urine collection port 1c can be closed to prevent urine from entering the urine collection tube 41 and breeding bacteria; when a urine test is required, the urine collection port 1c is opened, and the first pump body 5 starts to operate, and the detection portion 3 starts to detect urine by sending the urine toward the discharge port of the urine collection tube 41.

In the prior art, a mechanical driving mechanism is often used to drive the blocking portion 12 to move, and the driving mechanism is generally in the form of a motor or an electromagnet, so as to open and close the urine collection port 1 c. Meanwhile, mechanical transmission mechanisms such as a gear rack, a screw rod or a lever need to be arranged between the motor and the electromagnet. Most of collected samples are highly corrosive, and motors and electromagnets are easily corroded by urine. And mechanical transmission machines such as gear racks, screws or levers have high precision requirements, complex structures and complicated control and high cost. In the embodiment, the air pump 6 is arranged to drive the blocking portion 12 to move, so that the air pump 6 has a simple structure and is not easily corroded by urine. In order to enable the blocking portion 12 to be restored, the elastic member is provided between the driving portion of the air pump 6 and the blocking portion 12. When the air pump 6 is not operated, the elastic member will push against the blocking portion 12 to close the urine collection port 1c, and after the air pump 6 starts to operate, the driving portion of the air pump 6 will press the elastic member to make the blocking portion 12 move to open the urine collection port 1c, and the blocking portion 12 is preferably a sliding screw rod slidably arranged on the urine collection port 1c along the axial direction thereof, which is a simple and reliable structure.

Specifically, in this embodiment, the urine test assembly further includes a waste water tank 44, and the waste water tank 44 is used for collecting waste liquid discharged from the liquid outlet of the urine collection tube 41; the waste drain 43 communicates between the waste tank 44 and the flush line 2. After the urine detection is finished, the cleaning pipeline is communicated with the water inlet pipe 200 to start water inlet, the water flowing out from the liquid outlet of the water supply pipe 42 flows to the urine collection pipe 41, at this time, the first pump body 5 does not work, water cannot pass through, because the urine collection pipe 41 is communicated with the urine collection port 1c, the pipe section between the liquid outlet of the water supply pipe 42 and the urine collection port 1c is cleaned, after the cleaning is finished, the urine collection port 1c is closed, the first pump body 5 is opened at the same time, at this time, the water flowing out from the liquid outlet of the water supply pipe 42 flows to the first pump body 5, so that the pipe section between the liquid outlet of the water supply pipe 42 and the liquid outlet of the urine collection pipe 41 starts to be cleaned, because the waste water groove 44 is arranged at the position of the urine collection pipe 41, the waste water groove 44 collects the flushed waste liquid, and after the pipe section between the liquid outlet of the water supply pipe 42 and the liquid outlet of the urine collection pipe 41 is completely cleaned, the waste water in the waste groove 44 is completely discharged to the flush pipeline 2 through the waste pipe 41, so that the cleaning of the urine collection pipe 41 is finished.

Further, in order to stabilize the direction of the water flow and avoid the backflow of the waste water when the urine collection tube 41 is cleaned, in this embodiment, the urine collection tube 41 is further provided with a first check valve 7, the first check valve 7 is disposed between the first pump body 5 and the urine collection port 1c and is used for conducting the water flow in the direction from the urine collection port 1c to the first pump body 5, and the liquid outlet of the water supply tube 42 is communicated with the position of the urine collection tube 41 between the first check valve 7 and the urine collection port 1c, so that when a tube section between the liquid outlet of the cleaning tube and the liquid outlet of the urine collection tube 41 is cleaned, the waste water in the tube section is prevented from flowing back to the tube section between the liquid outlet of the cleaning tube and the liquid inlet of the urine collection tube 41 when the first pump body 5 is in operation. Preferably, the liquid outlet of the water supply pipe 42 is disposed near the first check valve 7.

Similarly, in order to avoid the backflow of the waste liquid, in this embodiment, the water supply pipe 42 is further provided with a second check valve 8, and the second check valve 8 is used for conducting in a direction from the liquid inlet of the water supply pipe 42 to the liquid outlet of the water supply pipe 42.

Specifically, in order to facilitate even discharge of the waste liquid in the waste water tank 44, in this embodiment, the second pump body 9 is disposed on the waste water discharge pipe 43, and the second pump body 9 is configured to discharge the waste water in the waste water tank 44 to the flushing water pipeline 2. This arrangement enables waste water accumulated in the waste water tank 44 to be discharged to the flush water pipe 2 without providing a separate waste water discharge pipe 43.

Further, in this embodiment, the first pump body 5 and/or the second pump body 9 are peristaltic pumps, and the peristaltic pumps are not in contact with urine and waste water, so that liquid in the pipeline is driven to flow by squeezing the pipeline, and the influence on the pump body is not great.

Specifically, on the spray siphon toilet, the flushing pipeline is generally divided into two paths, one path is flushed from the siphon port of the drain pipe, and the other path is flushed from the jet port, that is, in the prior art, the flushing pipeline is provided with two branches, one end of the flushing pipeline is connected with the water inlet pipe, the liquid outlet of one branch at the other end is communicated with the siphon port, and the liquid outlet of the other branch is communicated with the jet port, please refer to fig. 2, in this embodiment, a siphon port 1e and a jet port 1d are provided on the drain pipe 1b, the flushing pipeline 2 includes a main flushing pipe 21, a first connecting pipe 22 and a second connecting pipe 23, the liquid inlet of the main flushing pipe 21 is communicated with the water inlet pipe 200, the liquid outlet of the main flushing pipe 21 is communicated with the liquid inlets of the first connecting pipe 22 and the second connecting pipe 23, the liquid outlet of the first connecting pipe 22 is communicated with the jet port 1d, the liquid outlet of the second connecting pipe 23 is communicated with the siphon port 1e, the drainage pipe 43 is communicated with the first connecting pipe 22 and thus provided, and the wastewater in the drainage pipe 43 is further adjacent to the waste water outlet 1b, thereby reducing the possibility of wastewater pollution. Of course, in order to prevent the reverse flow by the anti-siphon structure, a distribution valve 24 is provided on the main flush pipe 21, and the distribution valve 24 is used for distributing the inlet water of the main flush pipe 21 to the first connection pipe 22 and the second connection pipe 23.

Further, in order to facilitate the installation at the early stage and the maintenance at the later stage, please refer to fig. 3 and 4, in this embodiment, the intelligent toilet 100 further includes an installation seat 10 disposed on the toilet main body 1; the main flushing pipe 21 is also provided with a water tank and a water suction pump 11, and the water suction pump 11 is arranged between the water tank and the distribution valve 24; the first pump body 5 the air pump 6 the second pump body 9 with the equal spiro union of suction pump 11 in mount pad 10, also be provided with the double-screw bolt on the mount pad 10 the first pump body 5 the air pump 6 the second pump body 9 with all be provided with on the suction pump 11 with correspond the screw that the double-screw bolt set up, then directly fix the pump body on the double-screw bolt through butterfly nut.

Further, in this embodiment, an elastic pad is disposed between the water pump 11 and the mounting seat 10, and the elastic pad can reduce vibration and noise generated when the water pump 11 works. In addition, in order to reduce the weight of the intelligent closestool 100, the mounting seat 10 is hollow, and reinforcing ribs are further arranged on the mounting seat 10, so that the mounting seat 10 is not easy to deform and the overall strength is improved.

Further, because of the utility model discloses a detection substrate be reagent, different urine examination test items correspond different reagents, independently save detection reagent respectively through an independent kit, and the urine presents different colours (wet chemistry method) with the reagent to corresponding after reacting during the detection, then quantifies the result through optical detection system and exports the server again, later stage reagent use up the back directly change can, for convenient change, in this embodiment, the test section 3 includes the kit and locates test agent in the kit, kit detachably locates closestool main part 1's core. Compared with the existing test paper box detection scheme adopted in the industry, the test paper box detection scheme needs to be placed in a place for collecting urine (namely the inside of a closestool), and is very unfavorable for subsequent maintenance.

Referring to fig. 5, the intelligent toilet 100 works as follows:

firstly, when the urine test is needed, the air pump 6 drives and compresses the elastic member to make the blocking portion 12 movably open the urine collection port 1c, so as to collect urine, the urine enters the urine collection tube 41 through the urine collection port 1c, and at the same time, the first pump body 5 works, so that the urine can only flow towards the direction of the liquid outlet of the urine collection tube 41 due to the limiting action of the first check valve 7 and the second check valve 8, and the detection portion 3 detects the urine in the urine collection tube 41. After the urine detection is finished, the cleaning pipeline is communicated with the water inlet pipe 200 to start to feed water, the water flowing out from the liquid outlet of the water supply pipe 42 flows to the urine collection pipe 41, at this time, the first pump body 5 does not work, water cannot pass through, the pipe section between the liquid outlet of the water supply pipe 42 and the urine collection port 1c is cleaned, after the cleaning is finished, the urine collection port 1c is closed, the first pump body 5 is opened, at this time, the water flowing out from the liquid outlet of the water supply pipe 42 flows to the first pump body 5, so that the pipe section between the liquid outlet of the water supply pipe 42 and the liquid outlet of the urine collection pipe 41 is cleaned, the waste water in the waste water tank 44 is collected by the waste water tank 44, after the pipe section between the liquid outlet of the water supply pipe 42 and the liquid outlet of the urine collection pipe 41 is completely cleaned, all the waste water in the waste water tank 44 is discharged to the first connection pipe 22 through the waste water discharge pipe 43 and finally discharged to the drain pipe 1b, so that all the cleaning of the urine collection pipe 41 is finished.

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 (10)

1. An intelligent toilet, comprising:

the toilet bowl comprises a toilet bowl main body, a flushing groove and a drainage pipe communicated with the flushing groove, wherein a urine collecting port is formed in the side wall of the flushing groove;

the flushing pipeline is used for communicating the water inlet pipe with the sewage discharge pipe; and (c) a second step of,

urine examination subassembly, including detection portion and internal pipeline, internal pipeline include with the collection ureter that collection urine mouth intercommunication set up, detection portion with collection ureter can communicate the setting, is used for detecting urine in the collection ureter, internal pipeline still includes delivery pipe and waste pipe, the delivery pipe be used for the intercommunication inlet tube with collection ureter, waste pipe is used for the intercommunication the liquid outlet of collection ureter with the flushing pipe way, so that the rivers of delivery pipe pass through behind the collection ureter, waste liquid after the washing is followed respectively collection urine mouth with waste pipe arranges extremely the blow off pipe.

2. The intelligent toilet according to claim 1, wherein the urine collection tube has a first pump disposed between the inlet of the urine collection tube and the detection portion for pumping urine from the inlet of the urine collection tube into the urine collection tube toward the outlet of the urine collection tube.

3. The intelligent toilet of claim 2, wherein the urine test assembly further comprises a switch assembly for opening and closing the urine collection port, the switch assembly comprising:

the blocking part is movably arranged on the closestool main body so as to open and close the urine collecting port in the moving process of the closestool main body;

the air pump is used for driving the plugging part to move; and the number of the first and second groups,

and the elastic piece is arranged between the driving part of the air pump and the blocking part.

4. The intelligent toilet according to claim 3, wherein the urine test assembly further comprises a waste water tank for collecting waste liquid discharged from the liquid outlet of the urine collection tube;

the waste water discharge pipe is communicated with the waste water tank and the flushing pipeline.

5. The intelligent toilet according to claim 4, wherein the urine collection tube is further provided with a first one-way valve, and the first one-way valve is arranged between the first pump body and the urine collection port and is used for conducting in a direction from the urine collection port to the first pump body;

the liquid outlet of the water supply pipe is communicated with the position of the urine collection pipe between the first one-way valve and the urine collection port and is close to the first one-way valve.

6. The intelligent toilet as claimed in claim 4, wherein the water supply pipe is further provided with a second check valve, and the second check valve is used for conducting in a direction from the liquid inlet of the water supply pipe to the liquid outlet of the water supply pipe.

7. The intelligent toilet according to claim 4, wherein a second pump is provided on the waste discharge pipe for discharging waste water in the waste tank to the flush line.

8. The intelligent toilet of claim 7, wherein the first pump body and/or the second pump body is a peristaltic pump.

9. The intelligent toilet according to claim 7, wherein the blow-off pipe is provided with a siphon port and a jet port;

the flushing pipeline comprises a main flushing pipe, a first connecting pipe and a second connecting pipe, wherein a liquid inlet of the main flushing pipe is communicated with the water inlet pipe, a liquid outlet of the main flushing pipe is communicated with liquid inlets of the first connecting pipe and the second connecting pipe, a liquid outlet of the first connecting pipe is communicated with the jet orifice, a liquid outlet of the second connecting pipe is communicated with the siphon orifice, and the wastewater discharge pipe is communicated with the wastewater tank and the first connecting pipe;

and a distribution valve is arranged on the main flushing pipe and used for distributing the inlet water of the main flushing pipe to the first connecting pipe and the second connecting pipe.

10. The intelligent toilet of claim 9, further comprising a mounting seat provided to the toilet body;

the main flushing pipe is also provided with a water tank and a water suction pump, and the water suction pump is arranged between the water tank and the sewage discharge pipe;

the first pump body, the air pump, the second pump body and the suction pump all are in threaded connection with the mounting seat.

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