CN211080455U

CN211080455U - Intelligent full-automatic flushing toilet

Info

Publication number: CN211080455U
Application number: CN201921055213.9U
Authority: CN
Inventors: 蔡添寿
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-07-08
Filing date: 2019-07-08
Publication date: 2020-07-24
Anticipated expiration: 2029-07-08

Abstract

The utility model discloses an intelligent full-automatic flushing closestool, which comprises a closestool seat, a water tank unit, a water outlet pipeline, a first electric water inlet pipeline, a second electric water inlet pipeline, a pipeline unit, an electric switching valve and an induction control unit, wherein the water tank unit comprises an outer box body, an inner box body, a first water outlet valve seat, a second water outlet valve seat, a water stopping piece, a driving mechanism and an upper cover arranged at the top end of the outer box body; when the electric switching valve is in a blocking state, the first electric water inlet pipeline is blocked from being communicated with the second electric water inlet pipeline, and when the electric switching valve is in a communicating state, the first electric water inlet pipeline is communicated with the second electric water inlet pipeline; the induction control unit is used for controlling the switching of the electric switching valve.

Description

Intelligent full-automatic flushing toilet

Technical Field

The present invention relates to a toilet, and more particularly to an intelligent full-automatic toilet.

Background

After a user goes to a toilet, the user usually needs to press an operation button on a water tank to generate a flushing effect, and once the user forgets to flush, the environmental sanitation in the toilet is affected, and troubles are caused to subsequent users.

SUMMERY OF THE UTILITY MODEL

Accordingly, it is an object of the present invention to provide an intelligent fully automatic toilet that overcomes at least one of the disadvantages of the prior art.

Based on this, the utility model mainly adopts the following technical means to realize the above-mentioned purpose.

An intelligent full automatic flush toilet comprising: a toilet seat, a water tank unit, a pipeline unit, an electric switching valve, and an induction control unit.

A toilet seat having a toilet space;

A water tank unit, including an outer box, an inner box disposed in the outer box and forming a water storage space, a first water outlet valve seat disposed in the inner box, a second water outlet valve seat disposed in the inner box, a water stop member disposed in the water storage space, and a driving mechanism disposed in at least one of the inner and outer boxes, wherein the first water outlet valve seat has a first water outlet hole, the second water outlet valve seat has a second water outlet hole, the water stop member is movable between a closed position blocking the second water outlet hole and an open position not blocking the second water outlet hole relative to the second water outlet valve seat, and the driving mechanism is used for driving the water stop member to move from the closed position to the open position;

The pipeline unit comprises a water outlet pipeline communicated with the defecation space, a first electric water inlet pipeline connected with the first water outlet valve seat, a second electric water inlet pipeline connected with the water outlet pipeline, and a manual water inlet pipeline connected between the second water outlet valve seat and the water outlet pipeline;

The electric switching valve is connected between the first electric water inlet pipeline and the second electric water inlet pipeline in series, can be switched between a blocking state and a communicating state, blocks the communication between the first electric water inlet pipeline and the second electric water inlet pipeline when the electric switching valve is in the blocking state, and communicates the first electric water inlet pipeline and the second electric water inlet pipeline when the electric switching valve is in the communicating state; and

And the induction control unit is used for controlling the electric switching valve to switch between the blocking state and the communicating state.

An intelligent full automatic flush toilet, comprising: a toilet seat, a water tank unit, a pipeline unit, an electric switching valve, an induction control unit, and a manual switch valve.

A toilet seat having a toilet space;

The water tank unit comprises an outer box body, an inner box body arranged in the outer box body and provided with a water storage space, a first water outlet valve seat arranged in the inner box body, and a second water outlet valve seat arranged in the inner box body, wherein the first water outlet valve seat is provided with a first water outlet hole, and the second water outlet valve seat is provided with a second water outlet hole;

The pipeline unit comprises a water outlet pipeline communicated with the defecation space, a first electric water inlet pipeline connected with the first water outlet valve seat, a second electric water inlet pipeline connected with the water outlet pipeline, a first manual water inlet pipeline connected with the second water outlet valve seat and a second manual water inlet pipeline connected with the water outlet pipeline;

The electric switching valve is connected between the first electric water inlet pipeline and the second electric water inlet pipeline in series, can be switched between a blocking state and a communicating state, blocks the communication between the first electric water inlet pipeline and the second electric water inlet pipeline when the electric switching valve is in the blocking state, and communicates the first electric water inlet pipeline and the second electric water inlet pipeline when the electric switching valve is in the communicating state;

The induction control unit is used for controlling the electric switching valve to switch between the blocking state and the communicating state; and

The manual switch valve is connected between the first manual water inlet pipeline and the second manual water inlet pipeline in series, and can be switched between a closed state and an open state.

A toilet seat forming a toilet space;

A water tank unit, including an outer box forming a water storage space, a first outlet valve seat arranged on the outer box, a second outlet valve seat arranged on the outer box, a water stop member positioned in the water storage space, and a driving mechanism arranged on the outer box, wherein the first outlet valve seat is provided with a first water outlet hole, the second outlet valve seat is provided with a second water outlet hole, the water stop member can move between a closing position blocking the second water outlet hole and an opening position not blocking the second water outlet hole relative to the second outlet valve seat, and the driving mechanism is used for driving the water stop member to move from the closing position to the opening position;

An intelligent full automatic flush toilet comprising: a toilet seat, a water tank unit, a pipeline unit, an electric switching valve, an induction control unit, and a manual switch valve.

A toilet seat having a toilet space;

The water tank unit comprises an outer box body, a first water outlet valve seat and a second water outlet valve seat, wherein a water storage space is formed in the outer box body;

The utility model has the advantages that: the utility model discloses intelligent full-automatic flush toilet utilizes this electronic diverter valve of this pipeline unit cooperation, and this electronic diverter valve of this response control unit control should block the design of automatic switch-over between state and this intercommunication state, can reach the effect of closestool automatic flushing to keep the clean environment in the lavatory. The whole set of closestool and the old closestool replacement room can realize automatic flushing only by a power supply, and the replacement installation convenience is high. Furthermore, the utility model discloses when having a power failure, this stagnant water piece of usable this actuating mechanism control is washed by water manually, perhaps, utilizes this manual switch valve to wash by water manually, has the power failure auxiliary function.

Drawings

Fig. 1 is a schematic front view of a first embodiment of an intelligent full automatic toilet of the present invention;

FIG. 2 is a schematic side view of the first embodiment;

FIG. 3 is a partial cross-sectional view of the first embodiment;

FIG. 4 is a fragmentary, partial cross-sectional view of an electrically operated switch valve and a line unit of the first embodiment, illustrating the electrically operated switch valve in a blocked state;

FIG. 5 is a view similar to FIG. 4 illustrating the electrically operated switch valve in a communicating state;

FIG. 6 is a view similar to FIG. 2 illustrating a sensing control unit of the first embodiment sensing the initiation of a user's toileting;

FIG. 7 is a view similar to FIG. 3 illustrating the electrically operated switch valve in the blocking state;

FIG. 8 is a view similar to FIG. 6 illustrating the sensing control unit sensing that the user is done using the toilet;

FIG. 9 is a view similar to FIG. 7 illustrating the electrically operated switch valve in the connected state;

FIG. 10 is a view similar to FIG. 7 illustrating the electrically operated switching valve in the blocking state and a water stop of the first embodiment in an open state;

FIG. 11 is a view similar to FIG. 4 illustrating a variation of the electrically operated directional valve in the blocked state;

Fig. 12 is a view similar to fig. 11, illustrating the modification of the electric changeover valve in the communication state;

FIG. 13 is a view similar to FIG. 4 illustrating another variation of the electrically operated directional valve in the blocking state;

Fig. 14 is a view similar to fig. 13 illustrating the other variation of the electric changeover valve in the communication state;

FIG. 15 is a schematic partial cross-sectional view of a second embodiment of the intelligent automatic flush toilet of the present invention, illustrating a manual switch valve of the second embodiment in a closed position;

FIG. 16 is a view similar to FIG. 15, illustrating the manually operated switch valve in an open state;

Fig. 17 is a schematic partial cross-sectional view of a third embodiment of the intelligent full automatic toilet of the present invention; and

Fig. 18 is a schematic partial cross-sectional view of a fourth embodiment of the intelligent automatic flushing toilet of the present invention.

[ notation ] to show

100 flush toilet

10 toilet seat

11 space for relieving the bowels

20 Water tank unit

21 outer box

211 electric wire perforation

212 water storage space

22 inner box body

221 water storage space

23 water inlet valve

24 floating ball

25 first outlet valve seat

251 first water outlet

26 second outlet valve seat

261 second water outlet

27 water stop

28 drive mechanism

281 discharge rod

282 operating button

283 connecting piece

29 upper cover

291 bottom wall part

292 upright wall part

293 electric wire perforation

294 installation space

30 pipeline unit

31 water outlet pipeline

32 first electric water inlet pipeline

33 second electric water inlet pipeline

34 manual water inlet pipeline

35 first manual water inlet pipeline

36 second manual water inlet pipeline

40 electric switching valve

41 valve body

42 valve

421 communication hole

43 drive motor

50 induction control unit

51 inductor

511 inductive head

52 MCD microcomputer controller

60 hand-operated switch valve

The handle is switched on and off 61.

Detailed Description

Referring to fig. 1, 2 and 3, in order to illustrate a first embodiment of the intelligent full automatic toilet 100 of the present invention, the toilet 100 includes a toilet seat 10, a water tank unit 20, a pipeline unit 30, an electric switching valve 40, and an induction control unit 50.

The toilet seat 10 is formed with a urination and defecation space 11.

The water tank unit 20 includes an outer case 21, an inner case 22 disposed in the outer case 21 and forming a water storage space 221, a water inlet valve 23 disposed in the inner case 22 and having a bottom penetrating the outer case 21, a floating ball 24 pivotally disposed at a top end of the water inlet valve 23 and used for controlling whether the water inlet valve 23 enters water, a first water outlet valve seat 25 disposed in the inner case 22 and having a bottom penetrating the outer case 21, a second water outlet valve seat 26 disposed in the inner case 22 and having a bottom penetrating the outer case 21, a water stop 27 disposed in the water storage space 221, a driving mechanism 28 disposed in the inner case 22 and the outer case 21, and an upper cover 29 detachably disposed at a top end of the outer case 21.

The outer case 21 has a wire through hole 211, the inner case 22 and the outer case 21 are spaced from each other, and the space between the inner and

outer cases

22, 21 can be used as a wire space.

The first outlet valve seat 25 has a first outlet hole 251, and the second outlet valve seat 26 has a second outlet hole 261.

The water stop 27 is movable relative to the second outlet valve seat 26 between a closed position blocking the second outlet orifice 261 and (see fig. 3) an open position not blocking the second outlet orifice 261 (see fig. 10), and in the first embodiment, the water stop 27 is pivotally mounted on the second outlet valve seat 26.

The driving mechanism 28 is used for driving the water stop 27 to move from the closed position (see fig. 3) to the open position (see fig. 10), and in the first embodiment, the driving mechanism 28 has a drain rod 281 disposed in the inner box 22 and extending into the water storage space 221, an operation button 282 connected to the drain rod 281 and located outside the outer box 21, and a connecting member 283 connected between the drain rod 281 and the water stop 27, wherein the operation button 282 is used for driving the water stop 27 to move from the closed position (see fig. 3) to the open position (see fig. 10) via the drain rod 281 and the connecting member 283.

The upper cover 29 has a bottom wall portion 291, and a standing wall portion 292 disposed on the bottom wall portion 291 and extending upward, the bottom wall portion 291 has a wire through hole 293, the standing wall portion 292 is formed with a mounting space 294, and the mounting space 294 is communicated with the wire through hole 293 of the bottom wall portion 291.

The pipe unit 30 includes a water outlet pipe 31 connected to the urination and defecation space 11, a first electric water inlet pipe 32 connected to the first water outlet valve seat 25, a second electric water inlet pipe 33 connected to the water outlet pipe 31, and a manual water inlet pipe 34 connected between the second water outlet valve seat 26 and the water outlet pipe 31.

The electric switching valve 40 is connected in series between the first electric water inlet pipe 32 and the second electric water inlet pipe 33, the electric switching valve 40 can be switched between a blocking state (see fig. 4 and 7) and a communicating state (see fig. 5 and 9), in the first embodiment, as shown in fig. 4 and 5, the electric switching valve 40 is an electric ball valve and includes a valve body 41, a spherical valve 42 rotatably disposed on the valve body 41, and a driving motor 43 disposed on the valve body 41 and used for driving the valve 42 to rotate, and the valve 42 has a communicating hole 421.

As shown in fig. 4 and 7, when the electric switching valve 40 is in the blocked state, the valve 42 of the electric switching valve 40 blocks the communication between the first electric water inlet line 32 and the second electric water inlet line 33, and as shown in fig. 5 and 9, when the electric switching valve 40 is in the communicating state, the communication hole 421 of the valve 42 of the electric switching valve 40 communicates between the first electric water inlet line 32 and the second electric water inlet line 33.

As shown in fig. 1, 2 and 3, the sensing control unit 50 is used for controlling the electric switching valve 40 to switch between the blocking state (see fig. 4 and 7) and the communicating state (see fig. 5 and 9). In the first embodiment, the sensing control unit 50 includes a sensor 51 disposed in the installation space 294 of the vertical wall 292 of the upper cover 29, and a MCD microcomputer controller 52 disposed in the electric switching valve 40, the sensor 51 is an infrared sensor, an ultrasonic sensor or a radar, the sensor 51 has a sensor head 511 extending outward from the vertical wall 292, and the MCD microcomputer controller 52 is integrated with the driving motor 43 of the electric switching valve 40.

In the first embodiment, the MCD microcomputer controller 52 is in signal connection with the sensor 51, the MCD microcomputer controller 52 is in signal connection with the driving motor 43 of the electric switching valve 40, the MCD microcomputer controller 52 can receive the sensing signal of the sensor 51 and transmit the control signal to the driving motor 43, it is understood that the MCD microcomputer controller 52 and the sensor 51 can be connected by a wire (not shown) passing through the wire through hole 293 of the upper cover 29, the space between the inner case 22 and the outer case 21 and the wire through hole 211 of the outer case 21, and further, preferably, the MCD microcomputer controller 52 can control how long (e.g. 3 seconds) the sensing signal of the sensor 51 is received and then transmit the control signal to the driving motor 43, and the MCD microcomputer controller 52 can control the electric switching valve 40 to be kept in the connection state (e.g. 3 seconds), and the MCD microcomputer controller 52 can control the electric switching valve 40 to be kept in the connection state 5-10 seconds) to control the amount of water flushed into the toilet seat 10.

Therefore, as shown in fig. 6 and 7, when the sensor 51 of the sensing control unit 50 senses that a user starts to go to the toilet while sitting on the toilet seat 10, the sensor 51 will transmit a sensing signal to the MCD microcomputer controller 52, and the MCD microcomputer controller 52 will transmit a control signal to the driving motor 43, so that the electric switching valve 40 is kept in the blocking state, and thus, the water source in the inner box 22 cannot flow into the outlet pipe 31 through the first outlet hole 251 of the first outlet valve seat 25, the first electric inlet pipe 32, the electric switching valve 40 and the second electric inlet pipe 33.

As shown in fig. 8 and 9, after the sensor 51 of the sensing control unit 50 senses that a user sits on the toilet seat 10 and starts to go to the toilet, the sensor 51 will sense that the user goes to the toilet and leaves the toilet seat 10, the MCD microcomputer controller 52 receives the sensing signal of the sensor 51, and then transmits a control signal to the driving motor 43 after a set time (e.g. 3 seconds) to switch the electric switching valve 40 to the communication state, so that the water source in the inner case 22 can flow into the water outlet pipe 31 through the first water outlet 251 of the first water outlet valve seat 25, the first electric water inlet pipe 32, the electric switching valve 40 and the second electric water inlet pipe 33, and then flush into the toilet seat 10 through the water outlet pipe 31 to flush out the urinate, and after the urinate is flushed out, the MCD microcomputer controller 52 can issue a control signal again, the electrical switch valve 40 is returned to the blocking state (see fig. 7) to prevent water from flowing into the toilet seat 10, and the MCD microcomputer controller 52 can control a flushing time (e.g. 5-10 seconds) for the electrical switch valve 40 to remain in the communication state, so as to control the amount of water flushed into the toilet seat 10.

As shown in FIG. 10, when a power failure occurs, the user operates the operation button 282 to drive the water stop member 27 to move to the open position via the discharge rod 281 and the connection member 283 after going to the toilet, so that the water in the inner housing 22 can flow into the water outlet pipe 31 via the second water outlet hole 261 of the second water outlet valve seat 26 and the manual water inlet pipe 34, and then flush into the toilet seat 10 through the water outlet pipe 31 to flush out the excrement, and thereafter, after the user does not operate the operation button 282, the water stop member 27 can return to the closed state (see FIG. 7) to prevent the water from flowing into the toilet seat 10.

Through the above description, the advantages of the present invention can be summarized as follows:

One, the utility model discloses utilize this pipeline unit 30 cooperation this electric changeover valve 40, and this response control unit 50 control this electric changeover valve 40 should block the design of automatic switch-over between state and this intercommunication state, can reach the effect of closestool automatic flushing, and can effectively maintain the sanitation in the lavatory to it is convenient in subsequent user like the lavatory.

Second, the utility model discloses when having a power failure, this stagnant water piece 27 of usable this actuating mechanism 28 control is washed by water manually, has the power failure auxiliary function, can not lead to the problem that can not wash by water completely because of having a power failure.

Third, the aperture of the communication hole 421 of the valve 42 of the electric switching valve 40 of the present invention is equal to the inner aperture of the water outlet pipeline 31 and the first and second electric

water inlet pipelines

32 and 33, so that when the electric switching valve 40 is switched to the communication state, the water outlet pipeline 31 can be ensured to flush a sufficient amount of water into the toilet seat 10.

Fourthly, the MCD microcomputer controller 52 of the sensing control unit 50 of the present invention can control the length of the flushing time of the electric switching valve 40 kept in the communication state, so as to effectively control the amount of water flushed into the toilet seat 10, thereby saving water.

It is to be noted that, in another modification of the first embodiment, as shown in fig. 11 and 12, the electric changeover valve 40 may be replaced with an electric rotary valve, the valve 42 is disk-shaped, the electric changeover valve 40 may be also automatically switched between the blocked state (see fig. 11) and the communication state (see fig. 12), and, as shown in fig. 13 and 14, the electric changeover valve 40 may be replaced with an electric plunger valve, the valve 42 is plunger-shaped, and the electric changeover valve 40 may be also automatically switched between the blocked state (see fig. 13) and the communication state (see fig. 14).

Referring to fig. 15 and 16, a second embodiment of the present invention is similar to the first embodiment, and the difference between the second embodiment and the first embodiment is:

The water tank unit 20 eliminates the provision of the water stop 27 (see fig. 3) and the drive mechanism 28 (see fig. 3).

The pipe unit 30 includes the water outlet pipe 31, the first electric water inlet pipe 32, the second electric water inlet pipe 33, a first manual water inlet pipe 35 connected to the second water outlet valve seat 26, and a second manual water inlet pipe 36 connected to the water outlet pipe 31.

The second embodiment also includes a manual on-off valve 60.

The manual switch valve 60 is connected in series between the first and second manual

water inlet pipes

35, 36, and includes a switch handle 61, the manual switch valve 60 is switchable between a closed state (see fig. 15) and an open state (see fig. 16), when the manual switch valve 60 is in the closed state, the manual switch valve 60 blocks the first manual water inlet pipe 35 from communicating with the second manual water inlet pipe 36, and when the manual switch valve 60 is in the open state, the manual switch valve 60 communicates the first manual water inlet pipe 35 with the second manual water inlet pipe 36.

As shown in FIG. 16, when a power failure occurs, after the user uses the toilet, the switch handle 61 can be operated to switch the manual switch valve 60 to the open state, so that the water in the inner housing 22 can flow into the water outlet pipe 31 through the second water outlet hole 261 of the second water outlet valve seat 26, the first manual water inlet pipe 35, the manual switch valve 60 and the second manual water inlet pipe 36, and then flush into the toilet seat 10 through the water outlet pipe 31 to flush out the excrement, and thereafter, as shown in FIG. 15, the user can operate the switch handle 61 again to return the manual switch valve 60 to the closed state to prevent the water from flowing into the toilet seat 10.

Thus, the second embodiment can achieve the same purpose and effect as the first embodiment.

Referring to fig. 17, a third embodiment of the present invention is similar to the first embodiment, and the difference between the third embodiment and the first embodiment is:

The water tank unit 20 is disposed without the inner case 22 (see fig. 3).

The water tank unit 20 includes the outer box 21 forming a water storage space 212, the inlet valve 23 disposed on the outer box 21, the floating ball 24, the first outlet valve seat 25 disposed on the outer box 21, the second outlet valve seat 26 disposed on the outer box 21, the water stop 27 located in the water storage space 212, the driving mechanism 28 disposed on the outer box 21, and the upper cover 29.

The outer case 21 is provided without the wire insertion hole 211 (see fig. 3), and the bottom wall portion 291 of the upper cover 29 is provided without the wire insertion hole 293 (see fig. 3).

Thus, the third embodiment can achieve the same purpose and effect as the first embodiment.

Referring to fig. 18, a fourth embodiment of the present invention is similar to the second embodiment, and the difference between the fourth embodiment and the second embodiment is:

The water tank unit 20 is disposed without the inner case 22 (see fig. 15).

The water tank unit 20 includes the outer case 21 formed with a water storage space 212, the inlet valve 23 disposed on the outer case 21, the float ball 24, the first outlet valve seat 25 disposed on the outer case 21, and the second outlet valve seat 26 disposed on the outer case 21.

The outer case 21 is provided without the wire insertion hole 211 (see fig. 15), and the bottom wall portion 291 of the upper cover 29 is provided without the wire insertion hole 293 (see fig. 15).

Thus, the fourth embodiment can achieve the same purpose and effect as the second embodiment.

To sum up, the utility model discloses an intelligent full-automatic bath closestool not only can automatic flushing, and has the power failure auxiliary function, so can reach the purpose of the utility model with low costs really.

The above description is only an embodiment of the present invention, and the scope of the present invention should not be limited thereby, and all the simple equivalent changes and modifications made according to the claims and the contents of the patent specification are still included in the scope covered by the present invention.

Claims

1. An intelligent full automatic flush toilet, comprising:

A toilet seat having a toilet space;

2. The intelligent full automatic flush toilet of claim 1, wherein: the water tank unit further comprises a water inlet valve arranged in the inner tank body, the bottom end of the water inlet valve penetrates out of the outer tank body, a floating ball pivoted at the top end of the water inlet valve, the water stopping piece is pivoted on the second water outlet valve seat, the driving mechanism is provided with a discharge rod arranged in the inner tank body and extending into the water storage space, an operation button connected with the discharge rod and located outside the outer tank body, and at least one connecting piece connected between the discharge rod and the water stopping piece, wherein the operation button is used for driving the water stopping piece to move from the closing position to the opening position through the discharge rod and the connecting piece.

3. The intelligent full automatic flush toilet of claim 1, wherein: the sensing control unit comprises a sensor and a MCD microcomputer controller, the MCD microcomputer controller is in signal connection with the sensor, and the MCD microcomputer controller is in signal connection with the electric switching valve.

4. The intelligent full automatic flush toilet of claim 3, wherein: the water tank unit further comprises an upper cover detachably arranged at the top end of the outer box body, the outer box body is provided with a wire through hole, the upper cover is provided with a bottom wall portion and a vertical wall portion arranged on the bottom wall portion and extending upwards, the bottom wall portion is provided with a wire through hole, an installation space is formed in the vertical wall portion, the installation space is communicated with the wire through hole of the bottom wall portion, the sensor is arranged in the installation space, the sensor is provided with an outward sensing head, and the MCD microcomputer controller is arranged in the electric switching valve.

5. The intelligent full automatic flush toilet of claim 3, wherein: the sensor is an infrared sensor, an ultrasonic sensor or a radar.

6. The intelligent full automatic flush toilet of claim 3, wherein: the electric switching valve is an electric ball valve.

7. The intelligent full automatic flush toilet of claim 3, wherein: the electrically operated switching valve is an electrically operated rotary valve.

8. The intelligent full automatic flush toilet of claim 3, wherein: the electrically operated switching valve is an electrically operated plunger valve.

9. An intelligent full automatic flush toilet, comprising:

A toilet seat having a toilet space;

10. The intelligent full automatic flush toilet of claim 9, wherein: the water tank unit further comprises a water inlet valve arranged on the inner box body and the bottom end of the water tank unit penetrates out of the outer box body, a floating ball pivoted to the top end of the water inlet valve, and an upper cover detachably arranged on the top end of the outer box body, the outer box body is provided with a wire through hole, the upper cover is provided with a bottom wall portion and a vertical wall portion arranged on the bottom wall portion and extending upwards, the bottom wall portion is provided with a wire through hole, an installation space is formed in the vertical wall portion and communicated with the wire through hole of the bottom wall portion, the induction control unit comprises an inductor and a micro computer controller (MCD), the inductor is arranged in the installation space, the inductor is provided with an outward induction head and is in signal connection with the inductor, the MCD is in signal connection with the electric switching valve, and the MCD is arranged in the electric switching valve.

11. An intelligent full automatic flush toilet, comprising:

A toilet seat forming a toilet space;

12. An intelligent full automatic flush toilet, comprising:

A toilet seat having a toilet space;