CN108867793B - Spray pipe, closestool cover plate assembly and closestool - Google Patents

Abstract

The invention relates to a spray pipe, a closestool cover plate assembly and a closestool, wherein the spray pipe can spray water to a human body part to clean the human body part, the spray pipe comprises a head end and a tail end, a first magnetic attraction piece is arranged on the head end, and a second magnetic attraction piece which can be attracted with the first magnetic attraction piece is arranged on the tail end. The invention ensures that the replacement spray pipe and the to-be-replaced spray pipe which are mutually attracted lose the holding effect of magnetic force instantly when the replacement spray pipe and the to-be-replaced spray pipe are separated in the process of replacing the spray pipe, so that the to-be-replaced spray pipe shakes in the discharge conduit channel, and the shaking generated by sudden separation prompts the to-be-replaced spray pipe to slide and be discharged, reduces the auxiliary operation of manually drawing the to-be-replaced spray pipe out of the discharge conduit channel, and can smoothly discharge the to-be-replaced spray pipe, thereby being convenient and sanitary.

Description

Spray pipe, closestool cover plate assembly and closestool

[ technical field ] A method for producing a semiconductor device

The invention relates to a spray pipe capable of spraying water to a local part of a human body to clean the local part of the human body, a closestool cover plate assembly and a closestool.

[ background of the invention ]

An existing intelligent toilet will generally be provided with a human body part cleaning assembly for cleaning a human body part. The existing human body local cleaning assembly generally comprises a spray pipe capable of spraying cleaning water and a telescopic driving mechanism for driving the spray pipe to do telescopic motion so that the spray pipe can extend out of a basin cavity of a basin body when in use and can retract into a shell to be hidden when not in use. Cross-contamination of viruses, bacteria or other hygiene problems may occur due to concerns over the long-term use of the spout by a large number of people (e.g., toilets in public places such as parks, hotels, etc.). In the prior art, there are assembly ways in which the nozzle can be replaced.

In the body part washing assembly, the toilet cover assembly and the toilet disclosed in the chinese patent application publication CN107354986A, the nozzle replacement method is as follows: the replacing spray pipe pushes against the to-be-replaced spray pipe to move along the pipe replacing channel, after the replacing spray pipe is in place, the to-be-replaced spray pipe is partially arranged in the toilet cover plate assembly and partially arranged outside the toilet cover plate assembly, at the moment, the to-be-replaced spray pipe inclines downwards, and the weight of the to-be-replaced spray pipe forms a downward component force, so that the to-be-replaced spray pipe slides out of the toilet cover plate assembly. However, since the toilet lid assembly is relatively wet, water is adsorbed between the nozzle to be replaced and the calandria conduit, there is a certain probability that the nozzle to be replaced cannot be smoothly discharged out of the toilet lid assembly, and the nozzle to be replaced is partially in the toilet lid assembly and partially out of the toilet lid assembly.

[ summary of the invention ]

In order to solve the problems in the prior art, an embodiment of the invention provides a spray pipe, which comprises a head end and a tail end, wherein the head end is provided with a first magnetic attraction piece, and the tail end is provided with a second magnetic attraction piece which can attract the first magnetic attraction piece.

The embodiment of the invention further provides a toilet cover plate assembly, which comprises a spray pipe and a discharge conduit, wherein the discharge conduit is provided with a discharge conduit channel through which the spray pipe can pass when moving along the length direction of the spray pipe, and the spray pipe is the spray pipe as described above; the discharge conduit channel is sized to allow the nozzle to be dithered therein.

The embodiment of the invention also provides a closestool which comprises a pot body and a closestool cover plate assembly arranged on the pot body, wherein the closestool cover plate assembly is the closestool cover plate assembly.

By using the toilet lid assembly provided by the embodiment of the invention, in the process of replacing the spray pipe, the replacement spray pipe and the to-be-replaced spray pipe which are mutually attracted (particularly mutually attracted end to end) lose the magnetic holding effect instantly when being separated, so that the to-be-replaced spray pipe shakes in the discharge conduit channel, and the shaking generated by sudden separation prompts the to-be-replaced spray pipe to slide and be discharged, thereby reducing the auxiliary operation of manually drawing the to-be-replaced spray pipe out of the discharge conduit channel, namely smoothly discharging the to-be-replaced spray pipe, and being convenient and sanitary.

The spray pipe provided by the embodiment of the invention is applied to the toilet cover plate component so as to solve the technical problem of the toilet cover plate component.

The toilet provided by the embodiment of the invention comprises the toilet cover plate component and has all the beneficial technical effects of the spray pipe.

[ description of the drawings ]

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 shows a perspective view of the toilet of the present invention with the spout in a retracted position within the chamber;

FIG. 2 shows a perspective view of the spout;

FIG. 3 shows a J-J cross-sectional view of FIG. 2;

FIG. 4 shows a perspective exploded view of the housing of the present invention;

FIG. 5 shows an enlarged view of section A of FIG. 4;

FIG. 6 shows an enlarged view of section B of FIG. 4;

FIG. 7 shows a schematic orthographic view of the housing of the present invention;

FIG. 8 shows a cross-sectional view A-A of FIG. 7;

FIG. 9 shows a cross-sectional view B-B of FIG. 8;

figures 10 and 11 show schematic perspective views of two different angles of the discharge conduit of the present invention;

FIG. 12 shows a cross-sectional K-K view of FIG. 10;

FIG. 13 shows a schematic structural view of a pre-push mechanism of the present invention;

FIG. 14 shows an enlarged view of section C of FIG. 9;

FIG. 15 shows the projections of the spout of the present invention in a plane perpendicular to the length of the spout when the spout is within the discharge conduit passageway;

FIG. 16a shows a cross-sectional view taken along line D of FIG. 15, wherein the nozzle is not shown in cross-section;

FIG. 16b is a schematic view showing the nozzle of the present invention in a dithered state within the exit conduit path;

FIGS. 17 and 18 show a schematic representation of the operating principle of the replacement nozzle of the present invention;

fig. 19 and 20 show two different angled perspective views of another embodiment of the drain conduit of the present invention, respectively.

[ detailed description ] embodiments

In order to make the technical problems, technical solutions and advantageous effects solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1 to 18, an embodiment of the present invention provides a toilet bowl, which includes a bowl body 10 and a toilet lid assembly disposed on the bowl body 10, wherein the toilet lid assembly includes a body part washing assembly to which the nozzle 301 is detachably mounted, the body part washing assembly can rotate the nozzle 301 mounted thereon to make the length direction of the nozzle 301 selectively parallel or intersect with the discharge conduit channel 603, and in particular, the body part washing assembly can rotate the nozzle 301 mounted thereon to make the length direction of the nozzle 301 selectively parallel or intersect with the discharge conduit channel 603. In this embodiment, the nozzle 301 is located in the extending direction of the discharge duct channel 603 when the length direction of the nozzle is parallel to the discharge duct channel 603 (i.e. on the tube changing channel described in the chinese patent application publication No. CN 107354986A), and the nozzle 301 is located in the telescopic channel away from the tube changing channel described in the chinese patent application publication No. CN107354986A when the length direction of the nozzle is perpendicular to the discharge duct channel 603. The specific structure of the local human body cleaning assembly in this embodiment can be referred to as "local human body cleaning assembly" in the chinese patent application publication No. CN107354986A, which is not described herein again.

The toilet lid assembly further comprises a spout 301 and an exhaust conduit 60, the exhaust conduit 60 having an exhaust conduit channel 603 through which the spout 301 passes when moving along the length of the spout 301, the exhaust conduit channel 603 being sized to allow the spout 301 to be shaken therein.

To enable the spout 301 to undergo a whipping action within the discharge conduit channel 603, the maximum dimension of the spout 301 perpendicular to the length of the spout 301 is less than the minimum dimension of the discharge conduit channel 603 perpendicular to the length of the spout 301;

the maximum dimension of the spray pipe 301 in the direction perpendicular to the length direction of the spray pipe 301 can also be understood as the maximum dimension of the projection of the spray pipe 301 on a plane perpendicular to the length direction of the spray pipe 301;

the minimum dimension of the discharge conduit channel 603 in a direction perpendicular to the length of the lance 301, which may also be understood as the minimum dimension of the projection of the discharge conduit channel 603 on a plane perpendicular to the length of the lance 301;

that is, the maximum dimension of the projection of the spout 301 onto a plane perpendicular to the length direction of the spout 301 is smaller than the minimum dimension of the projection of the discharge conduit channel 603 onto a plane perpendicular to the length direction of the spout 301.

Specifically, the discharge conduit 60 has two opposite ends, the discharge conduit channel 603 extends from one end of the discharge conduit 60 to the other end, and the discharge conduit channel 603 forms an opening through which the nozzle 301 passes at the two ends of the discharge conduit 60, wherein one opening is a discharge conduit inlet and the other opening is a discharge conduit outlet, and the discharge conduit channel 603 is in a trumpet shape with the small discharge conduit inlet and the large discharge conduit outlet. In this embodiment, the nozzle enters the exhaust conduit channel from the exhaust conduit inlet and exits the exhaust conduit channel through the exhaust conduit outlet.

The nozzle 301 comprises a head end 3011 and a tail end 3012, a first magnetic attraction piece 1 is arranged on the head end 3011, and a second magnetic attraction piece 2 which can attract the first magnetic attraction piece 1 is arranged on the tail end 3012. By using the nozzle tube provided by the embodiment of the present invention, in combination with the tube changing method disclosed in the chinese patent application publication No. CN107354986A, in the process of changing the nozzle tube, the head and the tail of the replacement nozzle tube 308 and the nozzle tube 309 are attracted to each other, that is, the first magnetic attraction member 1 at the head end of the replacement nozzle tube 308 and the second magnetic attraction member 2 at the tail end of the replacement nozzle tube 309 are attracted to each other, and when the rotating base of the local human body cleaning assembly is switched from the tube changing position to the working position (that is, the local human body cleaning assembly drives the nozzle tube 301 mounted thereon to rotate from the position where the length direction of the nozzle tube 301 is parallel to the discharge conduit channel 603 to the position where the length direction of the nozzle tube 301 is perpendicular to the discharge conduit channel 603), the replacement nozzle tube 308 and the nozzle tube 309 attracted to be replaced lose the magnetic attraction function instantly when the nozzle tube 309 and the nozzle tube to be replaced are separated from each other, and the shaking generated by the sudden separation promotes the nozzle 309 to be replaced to slide down and be discharged, which is convenient and sanitary, and reduces the auxiliary operation of manually drawing the nozzle to be replaced out of the discharge conduit channel. Meanwhile, by adding the magnetic attraction technical scheme between the replacing spray pipe 308 and the to-be-replaced spray pipe 309, the stability of the spray pipe in the pipe replacing process can be effectively improved, and the spray pipe is prevented from falling off in the pipe replacing process. On the other hand, a magnetic sensor can be arranged at the periphery of the pipe replacing channel to detect the current position of the spray pipe, and the current position of the spray pipe is detected to be used as a basis for controlling the next action of the spray pipe, for example, when power is off in the process that the human body local cleaning component drives the spray pipe 301 arranged on the human body local cleaning component to rotate, the position of the spray pipe needs to be judged after power is on to determine the next action.

At least one of the first magnetic attraction piece 1 and the second magnetic attraction piece 2 is a permanent magnet. Specifically, one of the first magnetic attraction member 1 and the second magnetic attraction member 2 is a permanent magnet, and the other one of the first magnetic attraction member and the second magnetic attraction member can be the same permanent magnet, or can be a soft magnet such as an iron block, an iron-silicon alloy, pure carbon steel, silicon steel, or manganese-zinc ferrite.

The principle of the technical scheme is as follows: in the tube replacement process, the tail end of the spray tube 301 positioned in the discharge conduit channel 603 and the head end of the spray tube 301 arranged on the human body local cleaning component attract each other due to the action of magnetic force; the nozzle 301 in the discharge conduit channel 603 is marked as a nozzle 309 to be replaced (for example, an old nozzle that has been used), the nozzle 301 mounted on the private parts washing unit for replacing the nozzle 309 to be replaced is marked as a replacement nozzle 308 (for example, a new nozzle that has not been used), when the private parts washing unit rotates the replacement nozzle 308 mounted thereon, the length direction of the replacement nozzle 308 is switched from a state parallel to the discharge conduit channel 603 to a state intersecting (in particular, perpendicularly intersecting) the discharge conduit channel 603, in the process, the tail end of the nozzle 309 to be replaced follows the head end of the replacement nozzle 308 due to the magnetic force, the head end of the replacement nozzle 308 is separated from the tail end of the nozzle 309 to be replaced due to the restriction of the discharge conduit to the nozzle 309 to be replaced, and the nozzle 309 to be replaced shakes in the discharge conduit channel 603 after the magnetic force with the replacement nozzle 308 disappears, thereby facilitating the nozzle 309 to be replaced to slide down and be discharged out of the conduit channel 603, it should be noted that, when the nozzle 308 is separated from the nozzle 309 to be replaced by rotating, the faster the rotating speed is, the larger the nozzle to be replaced shakes; this is because, in the process of separating the replacement nozzle 308 from the nozzle 309 to be replaced by rotation, the nozzle 309 to be replaced is initially moved by the replacement nozzle 308 under the action of magnetic force, specifically, the tail end of the nozzle 309 to be replaced moves along the tangential direction of the rotation circumference of the head end of the replacement nozzle 308, that is, the tail end of the nozzle 309 to be replaced moves along the direction perpendicular to the nozzle discharging direction, and after the head end of the replacement nozzle 308 rotates to be separated from the tail end of the nozzle 309 instantaneously, based on the principle of inertia, the tail end of the nozzle 309 to be replaced still has a velocity perpendicular to the nozzle discharging direction, and under the condition that the mass of the nozzle 309 to be replaced is unchanged, the greater the velocity is, the greater the kinetic energy of the nozzle 309 to be replaced is, the greater the generated shaking is obviously, and the nozzle discharging is facilitated. The discharge duct channel 603 is in the shape of a horn with a small inlet and a large outlet, so that the nozzle can be smoothly discharged under the action of gravity.

Correspondingly, a first accommodating cavity 1A is formed in the head end 3011, the first magnetic attraction piece 1 is arranged in the first accommodating cavity 1A, a second accommodating cavity 2A is formed in the tail end 3012, and the second magnetic attraction piece 2 is arranged in the second accommodating cavity 2A. First magnetism inhale the piece with the piece is inhaled to the second can be fixed respectively at the both ends of spray tube through integrative injection moulding's mode, first holding chamber with the second holding chamber also can be through in manufacturing the spray tube in-process, predetermines the cavity in spray tube both ends when the spray tube shaping, and the cavity apron that the cavity can be sealed in preparation simultaneously will again first magnetism inhale the piece with the piece is inhaled to the second magnetism is established respectively in the cavity at spray tube both ends, then closes with cavity apron lid, and reuse glue encapsulation forms, and of course, also can use fasteners such as screw will first magnetism inhale the piece with the piece is inhaled respectively to the second is fixed the spray tube both ends, can adopt the mode of buckle even will first magnetism inhale the piece with the piece is inhaled to the second magnetism and is fixed respectively the spray tube both ends.

In this embodiment, a nozzle water flow channel outlet 30111 is disposed on the head end 3011 of the nozzle 301, a nozzle water flow channel inlet is disposed on the tail end 3012 of the nozzle 301, and correspondingly, a seat body is further disposed in the accommodating chamber 201, the seat body is provided with a seat body water flow channel outlet 315 communicated with a water supply system, the nozzle is selectively disposed on the seat body so as to communicate the seat body water flow channel outlet 315 with the nozzle water flow channel inlet, and particularly, the nozzle is selectively disposed on the seat body in a snap-fit manner, which specifically refers to an assembly structure of the nozzle and the seat body disclosed in chinese patent application publication CN107354986A, and is not described herein again. An elastic sealing ring 3151 is further arranged at the outlet 315 of the water flow passage of the seat body, the elastic sealing ring 3151 protrudes out of the outlet 315 of the water flow passage of the seat body, on one hand, the elastic sealing ring can play a role in sealing and leakage prevention, and on the other hand, the elastic sealing ring can utilize the elasticity of the elastic sealing ring to prop and clamp the spray pipe on the seat body so as to prevent the spray pipe from freely passing through the seat body and allow the spray pipe to forcibly pass through the seat body.

The toilet cover plate assembly further comprises a casing 20, wherein an accommodating chamber 201 is arranged in the casing 20, a pipe replacing channel 203 through which a spray pipe can pass is further arranged in the accommodating chamber 201, and a pipe pre-pushing mechanism 3 for driving the spray pipe 301 to enter the pipe replacing channel 203 from the outside of the accommodating chamber 201;

the pipe pre-pushing mechanism 3 comprises a rolling driving mechanism 5 located on one side of the pipe replacing channel 203, a roller 6 for pressing the spray pipe 301 entering the pipe replacing channel 203 is arranged on the rolling driving mechanism 5, preferably, the outer edge of the roller 6 is made of rubber, and the tangential direction of the roller 6 is overlapped with the direction of the spray pipe 301 entering the pipe replacing channel 203.

In the above technical solution, when the substitution nozzle 308 extends into the nozzle and the front end of the substitution nozzle 308 contacts the outer edge of the roller of the pipe pre-pushing mechanism during pipe replacement, the roller rolls to automatically feed the substitution nozzle 308 into the pipe replacement channel, and when the tail end of the substitution nozzle 308 is disengaged from the roller, the tail end of the substitution nozzle 308 just reaches a specific position. Further, a pressure sensor can be arranged on the outer edge of the roller, when the pipe is fed in place of the spray pipe 308, the pressure sensor is subjected to pressure to trigger the pipe pre-pushing mechanism to start working, the pipe pre-pushing mechanism can realize automatic pipe feeding, and manual pipe replacement operation is simplified.

In the present embodiment, for convenience of description, the substitute nozzle is denoted by reference numeral 308 in the drawings, and the nozzle to be replaced is denoted by reference numeral 309 in the drawings, however, the structures of the substitute nozzle and the nozzle to be replaced are the same, that is, the nozzle 301 in the present embodiment.

In summary, the invention has the following beneficial effects through the improvement on the structure:

1. in the process of replacing the spray pipe, the replacing spray pipe and the to-be-replaced spray pipe are attracted end to end, namely, the first magnetic attraction piece at the head end of the replacing spray pipe and the second magnetic attraction piece at the tail end of the to-be-replaced spray pipe are attracted mutually, the rotating base of the human body local cleaning assembly is switched to the working position from the pipe replacing position, the replacing spray pipe and the to-be-replaced spray pipe which are attracted mutually enable the to-be-replaced spray pipe to lose magnetic attraction and holding effect instantly when being separated, and the to-be-replaced spray pipe is made to slide and discharge due to shaking generated by sudden separation, so that convenience and sanitation are achieved, and auxiliary operation of manually drawing out the to-be-replaced spray pipe from a discharge conduit channel. Simultaneously, through replacing the spray tube and waiting to replace and increase magnetic force looks between the spray tube and inhale technical scheme, can effectively increase the spray tube and at the stability of tube replacement process, prevent that the spray tube from dropping on the way in tube replacement. On the other hand, a magnetic sensor can be arranged on the periphery of the pipe replacing channel to detect the current position of the spray pipe, and the current position of the spray pipe is detected to be used as a basis for controlling the next action of the spray pipe, for example, when the power is off in the process that the human body local cleaning assembly drives the spray pipe arranged on the human body local cleaning assembly to rotate, the position of the spray pipe needs to be judged after the power is on to determine the next action.

2. The elastic sealing ring can play a role in sealing and leakage prevention, and the spray pipe can be tightly pressed and clamped on the seat body by utilizing the elasticity of the elastic sealing ring so as to prevent the spray pipe from freely passing through the seat body and allow the spray pipe to forcibly pass through the seat body.

3. The pipe pre-pushing mechanism enables the replacing spray pipe to automatically feed the replacing spray pipe into the pipe replacing channel when the replacing spray pipe extends into the pipe opening and the front end of the replacing spray pipe contacts the outer edge of the roller of the pipe pre-pushing mechanism during pipe replacing, and enables the replacing spray pipe to just reach a specific position when the tail end of the replacing spray pipe is separated from the roller. Further, a pressure sensor can be arranged on the outer edge of the roller, when the pipe is fed instead of the spray pipe, the pressure sensor is subjected to pressure to trigger the pipe pre-pushing mechanism to start working, the pipe pre-pushing mechanism can realize automatic pipe feeding, and manual pipe replacement operation is simplified. .

The foregoing is illustrative of one or more embodiments provided in connection with the detailed description and is not intended to limit the practice of the invention to the particular forms disclosed. Similar or identical methods, structures and the like, or several technical deductions or substitutions on the premise of the conception of the invention, are considered to be the protection scope of the invention.

The present application is based on the improvement made by the applicant of the chinese invention patent (see the chinese invention patent application publication No. CN107354986A for details) applied earlier. Therefore, for ease of understanding, the applicant has duplicated the description of the above-mentioned earlier-applied patent as follows.

The first embodiment is as follows:

a closestool comprises a closestool body and a closestool cover plate assembly arranged on the closestool body, wherein the closestool cover plate assembly comprises a cover plate, a seat ring, a shell and a human body local cleaning assembly, the shell is arranged on the closestool body, particularly, the shell is arranged above the rear part of the closestool body, a containing chamber is arranged in the shell, the human body local cleaning assembly is arranged in the containing chamber, in the embodiment, equipment such as a water inlet valve, a pressure regulating valve and the like can be further arranged in the containing chamber, and the cover plate and the seat ring are respectively hinged with the shell;

in this embodiment, the toilet lid assembly and the bowl body are detachably assembled, so that the toilet lid assembly can be integrally replaced;

the human body local cleaning component comprises a seat body and a spray pipe which is detachably assembled on the seat body, wherein a spray pipe water flow channel is arranged in the spray pipe, a seat body water flow channel is arranged in the seat body, the spray pipe water flow channel is communicated with the seat body water flow channel when the spray pipe is assembled on the seat body, the seat body is provided with a seat body joint part, and the spray pipe is provided with a spray pipe joint part which is jointed with the seat body joint part so that the spray pipe is assembled on the seat body;

the seat body is provided with a moving channel for the spray pipe to pass through the seat body, and the spray pipe joint part can be selectively jointed with or separated from the seat body joint part when the spray pipe moves along the moving channel so as to assemble or disassemble the spray pipe from the seat body.

According to the technical scheme, the spray pipe can be disassembled and assembled by driving the spray pipe to move along the moving channel, so that the spray pipe can be disassembled and assembled conveniently. In addition, the technical scheme can further realize that the used old spray pipe is separated (i.e. detached) from the seat body by pushing the unused new spray pipe, and the unused new spray pipe is assembled on the seat body in the process of pushing the unused new spray pipe, namely, the spray pipe can be replaced in an alternative mode, and the spray pipe replacement mode can ensure that people do not need to contact the used old spray pipe, so that viruses, bacteria and the like on the used old spray pipe are prevented from infecting human bodies.

The seat body comprises a base, a moving seat and a rotating seat, and the moving channel, the seat body joint part and the seat body water flow channel are all arranged on the rotating seat; the base is fixedly assembled in the accommodating chamber;

the movable seat can be glidingly assembled on the base, and the rotating seat can be rotatably assembled on the movable seat;

the human body local cleaning assembly also comprises a telescopic driving mechanism for driving the movable seat to slide relative to the base and a rotary driving mechanism for driving the rotary seat to rotate relative to the movable seat; the human body local cleaning assembly disclosed by the technical scheme is simple in structure, the spray pipe can be disassembled and assembled at a set position when being replaced by arranging the rotating seat, the set position can be other positions except the basin cavity of the basin body, and the set position enables people to accept the replacement operation of the spray pipe and avoids the blockage of a closestool caused by the spray pipe falling into the basin cavity of the basin body in the replacement operation process;

the rotation driving mechanism drives the rotation seat to switch between a working position and a tube replacement position when driving the rotation seat to rotate;

the pot body is provided with a pelvic cavity, the pelvic cavity is used for receiving human excrement, a telescopic channel is arranged in the containing chamber, in the embodiment, the containing chamber is communicated with the pelvic cavity through the telescopic channel, the sliding direction of the moving seat is parallel to the extending direction of the telescopic channel, and the extending direction of the telescopic channel is parallel to an X axis; when the rotating seat is in the working position, the spray pipe assembled on the rotating seat is positioned on the telescopic channel, namely, the length direction of the spray pipe assembled on the rotating seat is parallel to the extending direction of the telescopic channel when the rotating seat is in the working position, and when the rotating seat is in the working position, the rotating seat and the spray pipe assembled on the rotating seat both move along the telescopic channel along with the moving seat, so that the spray pipe assembled on the rotating seat can be selectively retracted into or extended out of the containing chamber, the spray pipe is hidden when retracted into the containing chamber and exposed when extended out of the containing chamber;

the accommodating chamber is also internally provided with a tube replacing channel for the spray tube to pass through, the extension direction of the tube replacing channel is intersected with the extension direction of the telescopic channel, particularly, the extension direction of the tube replacing channel is vertically intersected with the extension direction of the telescopic channel, and if the extension direction of the tube replacing channel is parallel to the Y axis; when the rotating seat is at the tube replacing position, the moving channel is positioned on the tube replacing channel, namely, the extending direction of the moving channel is parallel to the extending direction of the tube replacing channel when the rotating seat is at the tube replacing position;

the nozzle arranged on the rotary seat is a nozzle to be replaced (for example, a used old nozzle), and the nozzle arranged on the pipe replacing channel for replacing the nozzle to be replaced is a replacing nozzle (for example, an unused new nozzle);

the replacing nozzle moves towards the rotating seat along the pipe replacing channel when the rotating seat is at the pipe replacing position so as to push the nozzle to be replaced to move along the moving channel, thereby enabling the nozzle to be replaced to move

The nozzle joint part of the nozzle pipe to be replaced is disengaged from the seat body joint part so that the nozzle pipe to be replaced is pushed away from the rotating seat;

the nozzle joint part of the substitute nozzle is jointed with the seat body joint part so that the substitute nozzle is assembled on the rotating seat; that is, when the rotary seat is in the tube replacement position, the replacement nozzle on the tube replacement channel can be fitted on the rotary seat after pushing the nozzle to be replaced out of the rotary seat while moving along the tube replacement channel (of course, the extension direction of the tube replacement channel is parallel to the extension direction of the moving channel). This technical scheme is through setting up the tube replacement passageway, can make the change operation of spray tube only need order about (for example the staff promotes or mechanical automatic promotion) in the tube replacement passageway and replace the spray tube and move towards rotating the seat and can realize the change of spray tube to in addition, people need not the contact and treat the replacement spray tube, avoid treating virus, bacterium etc. infection human body on the replacement spray tube.

The casing has a first side wall and a second side wall opposite to the first side wall, in the embodiment, the first side wall and the second side wall are respectively positioned at two sides of the pot body, and the pipe replacing channel penetrates through the first side wall to form a pipe discharging port for discharging the to-be-replaced spray pipe out of the accommodating chamber on the first side wall. In this embodiment, the housing further has a face wall connected between the first side wall and the second side wall, and the telescopic passage penetrates the face wall to form a telescopic opening on the face wall for the nozzle assembled on the rotating seat to enter and exit the accommodating chamber; the nozzle to be replaced which is pushed away from the rotating seat by the replacing nozzle is discharged out of the chamber through the discharge pipe opening. This technical scheme treats to replace spray tube to predetermined position through setting up the calandria mouth with the discharge, and makes the calandria mouth be located the side of the basin body and falls into the pelvic cavity in order to avoid the discharged spray tube of treating to replace.

The extension direction of the moving channel is parallel to the length direction of the spray pipe;

a discharge conduit is arranged in the containing chamber and is positioned between the rotating seat and the pipe discharging port, one end of the discharge conduit faces the rotating seat, and the other end of the discharge conduit faces the pipe discharging port;

the end of the discharge conduit facing the rotating seat is provided with a discharge conduit inlet, the end of the discharge conduit facing the discharge pipe opening is provided with a discharge conduit outlet, a discharge conduit channel which extends from the discharge conduit inlet to the discharge conduit outlet and can be penetrated by the spray pipe is arranged in the discharge conduit, and the discharge conduit channel is positioned on the pipe replacing channel, namely, the extension direction of the discharge conduit channel is parallel to the extension direction of the pipe replacing channel;

the end of the discharge conduit facing the rotating seat is also provided with a supporting plate extending from the end to the rotating seat, and the spray pipe assembled on the rotating seat is supported on the supporting plate when the rotating seat is in a pipe replacement position;

the bottom surface of the discharge conduit channel is a sloped surface extending obliquely from the discharge conduit inlet to the discharge conduit outlet so that the lance to be replaced entering the discharge conduit channel is guided by the bottom surface of the discharge conduit channel to the discharge nozzle. The embodiment utilizes the principle that an object automatically slides down on the inclined plane under the action of gravity, so that the to-be-replaced spray pipe entering the discharge conduit channel is guided to the discharge pipe port by the bottom surface of the discharge conduit channel and is finally discharged out of the accommodating chamber from the discharge pipe port, the to-be-replaced spray pipe is conveniently and automatically discharged, and the blockage of the discharge conduit channel is avoided.

The pipe replacing channel also penetrates through the second side wall to form a pipe inlet for the replacing spray pipe to enter the pipe replacing channel on the second side wall; the technical scheme leads the pipe inlet and the pipe discharge port to be separated at different positions so as to avoid the mutual cross contamination of the pipe inlet and the pipe discharge port. In the embodiment, the shell is formed by splicing an upper half shell and a lower half shell, and the inlet pipe orifice and the exhaust pipe orifice are both arranged on the upper half shell;

the chamber is internally provided with an introducing conduit which is positioned between the pipe inlet and the rotating seat, one end of the introducing conduit faces the pipe inlet, and the other end faces the rotating seat;

the end of the introducing conduit facing the inlet pipe orifice is provided with an introducing conduit inlet, the end of the introducing conduit facing the rotating seat is provided with an introducing conduit outlet, the introducing conduit is internally provided with an introducing conduit passage which extends from the introducing conduit inlet to the introducing conduit outlet and can be penetrated by the spray pipe, and the introducing conduit passage is also positioned on the pipe changing passage, namely, the extending direction of the introducing conduit passage is parallel to the extending direction of the pipe changing passage;

the chamber is also provided with a pipe pushing mechanism for driving the substitute spray pipe entering the introducing conduit channel through the pipe inlet to move towards the rotating seat along the pipe replacing channel. According to the technical scheme, the mechanical automatic tube replacement can be realized by arranging the introducing guide tube and the tube pushing mechanism, and the manual tube replacement operation is simplified.

The pipe pushing mechanism comprises a pushing block positioned in the guide pipe channel and a pushing block driving mechanism for driving the pushing block to move along the extension direction of the guide pipe channel, in the embodiment, the pushing block driving mechanism can adopt the existing mechanism capable of driving the pushing block to linearly slide, belongs to the prior art and is not described again;

the pushing block driving mechanism drives the pushing block to switch between an initial position close to the inlet of the introducing conduit and a pushing position far away from the inlet of the introducing conduit and close to the outlet of the introducing conduit;

the nozzle comprises a tube body part and a nozzle part arranged at the head end of the tube body part, the tube body joint part is arranged at the tail end of the tube body part,

in this embodiment, the tube body portion, the nozzle portion, and the tube body joint portion may be manufactured by integral injection molding, but the tube body portion, the nozzle portion, and the tube body joint portion may be assembled into a nozzle tube by separately manufacturing the tube; the nozzle part faces the outlet of the introducing guide pipe when the replacing spray pipe is placed into the introducing guide pipe channel, one end surface of the push block is abutted against the tail end of the pipe body part of the replacing spray pipe placed into the introducing guide pipe channel, so that the push block pushes the replacing spray pipe placed into the introducing guide pipe channel to move towards the rotating seat along the introducing guide pipe channel when moving from the initial position to the push-out position;

in this embodiment, each nozzle may have one or more nozzle flow passages, an inlet of each nozzle flow passage being disposed at the tail end of the body portion, and an outlet of each nozzle flow passage being disposed at the nozzle portion;

the rotating seat is provided with seat body water flow channels with the same quantity as the spray pipe water flow channels, the inlet of each seat body water flow channel can be connected with a hose for supplying water, and each spray pipe water flow channel is respectively communicated with one seat body water flow channel when the spray pipe is assembled on the rotating seat.

The inlet pipe opening is provided with a sealing plug, the sealing plug comprises a plugging strip and a sealing plate for plugging the inlet pipe opening, the tail end of the plugging strip is connected with the sealing plate, the head end of the plugging strip extends into the channel of the inlet guide pipe through the inlet of the inlet guide pipe, and the plugging strip is stacked on the push block;

the end face of the pushing block, which is abutted against the tail end of the pipe body part of the substitute nozzle placed in the introduction conduit channel, is an ejection face, the end face of the head end of the stuffing strip is flush with the ejection face, or the end face of the head end of the stuffing strip is closer to the outlet of the introduction conduit than the ejection face (namely, the end face of the head end of the stuffing strip protrudes out of the ejection face in the direction from the inlet of the introduction conduit to the outlet of the introduction conduit). In addition, the inlet pipe orifice can be blocked by arranging the sealing plug so as to prevent dust, water and the like from entering the containing chamber through the inlet pipe orifice.

The side wall of the leading-in conduit is provided with a strip-shaped chute which penetrates through the side wall of the leading-in conduit, the length direction of the strip-shaped chute is parallel to the extension direction of the channel of the leading-in conduit, and the push block is provided with an extension part which extends out of the leading-in conduit through the strip-shaped chute and is connected with the push block driving mechanism;

the discharge pipe opening is provided with a door plate for selectively opening or closing the discharge pipe opening, and the door plate is jacked up by the to-be-replaced spray pipe when the to-be-replaced spray pipe passes through the discharge pipe opening so as to open the discharge pipe opening; in this embodiment, the assembling structure of the door panel may adopt an existing manner, for example, refer to the assembling structure of the shutter disclosed in the chinese patent application publication CNA, or refer to the assembling structure of the shielding plate disclosed in the chinese patent application publication CNA, or refer to the assembling structure of the nozzle baffle disclosed in the chinese patent application publication CNA, and details thereof are not repeated herein. This technical scheme can be to calandria mouth shutoff in order to avoid dust, water etc. to get into the appearance room through calandria mouth through setting up the door plant.

The telescopic driving mechanism drives the moving seat to switch between a retracted position and an extended position when sliding;

the spray pipe assembled on the rotating seat is accommodated in the accommodating chamber when the moving seat is at the retraction position; the spray pipe assembled on the rotating seat extends out of the containing chamber when the moving seat is in the extending position, namely extends into the basin cavity;

when the rotating seat is positioned at the pipe replacing position, the moving channel and the spray pipe assembled on the rotating seat are positioned on the pipe replacing channel, namely, the length direction of the spray pipe assembled on the rotating seat, the extending direction of the moving channel and the extending direction of the pipe replacing channel are parallel to each other when the rotating seat is positioned at the pipe replacing position;

in this embodiment, the fact that the nozzle pipe assembled on the rotating base extends out of the containing chamber (i.e. into the basin cavity) when the moving base is in the extended position means that a part of the nozzle pipe assembled on the rotating base extends out of the containing chamber when the moving base is in the extended position, and particularly, the fact that the nozzle part of the nozzle pipe assembled on the rotating base extends out of the containing chamber when the moving base is in the extended position.

The telescopic driving mechanism is arranged between the base and the movable seat;

the rotation driving mechanism is arranged between the rotation seat and the moving seat, or the rotation driving mechanism is arranged between the base and the moving seat;

the seat body joint part is positioned beside the moving channel; the extension direction of the moving channel is parallel to the length direction of the spray pipe;

in this embodiment, a moving seat guiding mechanism for guiding the moving seat to slide relative to the base may be disposed between the base and the moving seat. The telescopic driving mechanism can drive the moving seat to slide along the moving seat guide mechanism, and certainly, the rotating seat can slide along with the moving seat relative to the base due to the fact that the rotating seat is assembled on the moving seat. In this embodiment, the telescopic driving mechanism is provided to drive the movement to be switched between an extended position where the nozzle extends into the toilet bowl to flush a part of the human body and a retracted position where the nozzle is retracted into the toilet bowl to be hidden. The telescopic driving mechanism can adopt the existing mechanism capable of driving the movable seat to slide linearly, which belongs to the prior art and is not repeated here.

In this embodiment, the movable seat and the rotating seat may be connected by a revolute pair to enable the rotating seat to rotate relative to the movable seat, for example, a bearing mechanism (for example, a sliding bearing or a rolling bearing) may be disposed between the movable seat and the rotating seat to enable the rotating seat to rotate relative to the movable seat.

In this embodiment, the rotation driving mechanism is disposed between the rotation base and the base, and the rotation mechanism includes a rotation driving motor, a rotation driving gear, and a rotation driving driven gear, the rotary drive driven gear may be a sector gear, the rotary drive motor may be fixedly mounted with respect to the base (e.g., the rotary drive motor may be fixedly mounted on the base, the rotary drive motor may also be fixedly mounted on an object (e.g., a housing in this embodiment) that is fixed with respect to the base), the rotation driving gear is fixedly assembled on an output shaft of the rotation driving motor, the rotation driving driven gear is fixedly assembled on the rotation seat, the rotation driving driven gear is engaged with the rotation driving gear when the moving seat is at the retraction position, the rotation driving driven gear is disengaged from the rotation driving gear when the moving seat is at the extending position.

Of course, the rotation driving mechanism may also be disposed between the rotation seat and the moving seat, for example, a motor of the rotation driving mechanism may be fixedly assembled on the moving seat, and a rotation transmission mechanism (e.g., a gear transmission mechanism, a coupling, etc.) may be disposed between an output shaft of the motor of the rotation driving mechanism and the rotation seat to realize that the rotation seat is driven to rotate relative to the moving seat by a power source of the rotation driving mechanism.

In this embodiment, the rotary seat is configured to be switched between a working position and a tube replacement position when rotating, and when the rotary seat is in the working position, the extending direction of the moving channel on the rotary seat is parallel to the sliding direction of the moving seat when the rotary seat is in the working position; the extending direction of the moving channel on the rotating seat is vertical to the sliding direction of the moving seat when the rotating seat is at the tube replacement position; furthermore, the rotary seat is arranged to limit free rotation and allow forced rotation, so that the rotary seat can be limited to a working position and a tube replacement position; of course, the rotating seat and the moving seat can be provided with a limiting mechanism or a locking mechanism so that the rotating seat can be limited to the working position and the pipe replacing position.

The nozzle joint part comprises a clamping strip, the seat body joint part comprises a strip-shaped clamping groove, the length direction of the clamping groove is parallel to the extending direction of the moving channel, certainly, the clamping strip is also strip-shaped, and when the rotating seat is positioned at the tube replacement position, the length direction of the clamping strip of the nozzle assembled on the rotating seat is also parallel to the extending direction of the moving channel;

the card slot is configured to restrict a card strip from freely passing through the card slot and to allow the card strip to forcibly pass through the card slot; the clamping strip can be selectively placed in or separated from the clamping groove when the spray pipe moves along the moving channel; the spray pipe joint part is jointed with the seat body joint part when the clamping strip is placed in the clamping groove, and the spray pipe joint part is separated from the seat body joint part when the clamping strip is separated from the clamping groove. The technical scheme has a simple structure, so that the connection and disconnection between the spray pipe joint part and the seat body joint part can be realized when the spray pipe moves along the moving channel.

A damping part which limits the card strip to freely pass through the card slot and allows the card strip to forcibly pass through the card slot is arranged in the card slot;

the damping piece comprises an elastic element which extrudes the clamping strip to block the clamping strip from moving relative to the clamping groove when the clamping strip is placed in the clamping groove; the elastic element is an elastic rubber strip; the two clamping grooves are respectively positioned at two opposite sides of the moving channel; the two clamping strips are respectively positioned at two opposite sides of the spray pipe; each clamping groove is provided with a side notch facing the moving channel and communicated with the moving channel and two end openings respectively positioned at two ends of the side notch; each clamping strip corresponds to one clamping groove when the spray pipe moves along the moving channel.

The guide pipe is internally provided with two limiting sliding chutes which are positioned at two sides of a guide pipe channel and extend from an inlet of the guide pipe to an outlet of the guide pipe, the length direction of each limiting sliding chute is parallel to the extension direction of the guide pipe channel, the two limiting sliding chutes are symmetrically arranged at two sides of the guide pipe channel, in the extension direction of the pipe changing channel, each limiting sliding chute is aligned with a clamping groove respectively and is communicated with the clamping groove, two clamping strips of a substitution spray pipe placed in the guide pipe channel can be placed into one limiting sliding chute respectively in a sliding manner, and the height of each limiting sliding chute in the direction vertical to the guide pipe channel is gradually reduced in the direction from the inlet of the guide pipe to the outlet of the guide pipe, so that the two clamping strips of the substitution spray pipe can accurately enter the two clamping grooves when being separated from the guide pipe.

The working principle of the embodiment is as follows:

when the spray pipe assembled on the rotating seat is not required to be replaced, the rotating seat is enabled to be in a working position, at the moment, the movable seat is driven to switch between a retracted position and an extended position, and therefore the purpose can be achieved that the spray pipe assembled on the rotating seat is contained in the containing chamber when the movable seat is in the retracted position, and the spray pipe assembled on the rotating seat extends into the pelvic cavity when the movable seat is in the extended position;

when the spray pipe assembled on the rotating seat needs to be replaced (namely the spray pipe to be replaced), the moving seat is in a retraction position; driving the rotating seat to switch to a tube replacement position; pulling out the sealing plug to open the inlet pipe orifice and the inlet of the introducing guide pipe, and sending the replacing spray pipe into the introducing guide pipe channel from the inlet pipe orifice; allowing the trailing end of the body portion of the replacement lance to remain partially outside the inlet nozzle as the replacement lance is fed into the inlet conduit passageway from the inlet nozzle; the sealing plug is plugged to close the inlet pipe orifice and the inlet of the introducing pipe, meanwhile, in the process of plugging the sealing plug, the plugging strip can push the replacing spray pipe to completely enter the introducing pipe channel, the tail end of the pipe body part of the replacing spray pipe is located in front of the pushing surface of the pushing block, the pushing block driving mechanism pushes the pushing block to move from the initial position to the pushing position, in the process of moving the pushing block, the replacing spray pipe in the introducing pipe channel can be pushed to move towards the rotating seat along the pipe changing channel, in the process of moving the replacing spray pipe, the nozzle part of the replacing spray pipe pushes the tail end of the pipe body part of the replacing spray pipe, so that the spray pipe to be replaced is gradually pushed by the replacing spray pipe to be separated from the moving channel and finally pushed out of the rotating seat (namely, the spray pipe joint part of the spray pipe to be replaced is separated from the seat body joint so that the spray pipe to be replaced is separated from the rotating seat), and in the process that the spray pipe to be replaced is gradually separated from the moving channel A door panel of (a); the replacing spray pipe gradually enters the moving channel and enters the rotating seat; the push block finally moves to a push-out position, and at the moment, the spray pipe joint part of the substitution spray pipe is jointed with the seat body joint part, so that the substitution spray pipe is assembled on the rotating seat; the nozzle to be replaced is discharged out of the chamber from the discharge pipe outlet under the guidance of the bottom surface of the discharge conduit channel.

In this embodiment, the controller may be configured to control the telescopic driving mechanism, the rotational driving mechanism, and the push block driving mechanism to perform corresponding actions.

Example two:

the embodiment is a modification made on the basis of the first embodiment, and the specific modification scheme is as follows:

the channel of the introduction duct is arranged to be able to receive more than two alternative lances stacked in a direction perpendicular to the extension of the channel of the introduction duct. In this embodiment the end surface of the head end of the plug-in strip is of sufficient height in a direction perpendicular to the extension of the channel of the introduction duct to ensure that the tail end of each replacement lance is located in front of the ejection surface in the direction from the introduction duct inlet to the introduction duct outlet. This technical scheme can deposit the replacement spray tube more than two through the passageway that makes the guide pipe of introducing, and people can once place the number in the passageway of introducing the guide pipe and follow the replacement spray tube to realize once placing the spray tube and can carry out the operation of several times change spray tube, in order to reduce the number of times that people placed the replacement spray tube in the passageway of introducing the guide pipe, be convenient for people's use.

The working principle of the embodiment is as follows:

the pushing block driving mechanism pushes the pushing block to move from the initial position to the pushing position, the lower spraying pipe in the guide pipe channel can be pushed to move along the pipe changing channel to the guide pipe outlet in the pushing block moving process, the lower spraying pipe finally discharges the guide pipe from the guide pipe outlet when the pushing block moves to the pushing position, the tail end of the pipe body part of the upper spraying pipe falls to the bottom surface of the guide pipe channel due to lack of support in the pushing block moving process from the initial position to the pushing position, and the head end of the pipe body part of the upper spraying pipe is supported by the lower spraying pipe or the pushing block, so that the upper spraying pipe is inclined; after the push block has moved from the push-out position back to the initial position, the lance positioned in the upper position (i.e. the lance still remaining in the channel of the introduction duct) will eventually fall to the position in which the lance positioned in the lower position (i.e. the lance which has exited the introduction duct) is positioned. After that, the pushing block driving mechanism is pushed again to move the pushing block from the initial position to the pushing position, so that the upper positioned spray pipe (namely the spray pipe still remaining in the channel of the introducing conduit) is pushed out of the introducing conduit, and two alternative spray pipes accommodated in the introducing conduit are pushed out of the introducing conduit one by the pushing block.

For other structures of this embodiment, refer to the first embodiment, and are not described herein again.

Referring also to fig. 19 and 20, a schematic structural view of another embodiment of the exhaust conduit is shown. The discharge duct shown in this other embodiment is an improvement of the discharge duct shown in fig. 10 and 11, and the discharge duct shown in this other embodiment is then provided with two opposing elastic members 6011 (e.g., springs) on the inner wall of the discharge duct shown in fig. 10 and 11 for defining the discharge duct channel, which are separated from both sides of the nozzle (i.e., the nozzle to be replaced) entering the discharge duct channel, by arranging the elastic members 6011 such that the length direction of the replacement nozzle 308 is switched from a state parallel to the discharge duct channel 603 to a state intersecting (particularly, perpendicularly intersecting) with the discharge duct channel 603, and the tail end of the nozzle to be replaced 309 follows the head end of the replacement nozzle 308 to compress the elastic member 6011 on one side thereof, after the tail end of the nozzle to be replaced is separated from the head end of the replacement nozzle, the compressed elastic element 6011 has the capability of restoring to the original state all the time, so that the shaking capability of the nozzle to be replaced in the discharge conduit channel is increased, and the sliding discharge of the nozzle is facilitated. In the present embodiment, the two elastic members 6011 are arranged at positions close to the inlet of the discharge conduit.

Claims (10)

1. The spray pipe is characterized in that the spray pipe (301) comprises a head end (3011) and a tail end (3012), a first magnetic attraction piece (1) is arranged on the head end (3011), and a second magnetic attraction piece (2) capable of attracting the first magnetic attraction piece (1) is arranged on the tail end (3012).

2. The lance defined in claim 1 wherein at least one of the first magnetically attractable element (1) and the second magnetically attractable element (2) is a permanent magnet.

3. The lance defined in claim 1 wherein one of the first magnetically attractable element (1) and the second magnetically attractable element (2) is a permanent magnet and the other is an iron block or an iron-silicon alloy.

4. The nozzle of claim 1, wherein the head end (3011) is provided with a first receiving cavity (1A), the first magnetic attraction member (1) is disposed in the first receiving cavity (1A), the tail end (3012) is provided with a second receiving cavity (2A), and the second magnetic attraction member (2) is disposed in the second receiving cavity (2A).

5. The lance defined in claim 1 wherein the lance water flow passage outlet (30111) is provided at the head end (3011) of the lance (301).

6. Toilet lid assembly comprising a spout (301) and a discharge conduit (60), said discharge conduit (60) having a discharge conduit channel (603) through which said spout (301) passes when moving along the length of said spout (301), characterised in that said spout (301) is a spout according to any one of claims 1 to 5; the discharge conduit channel (603) is sized to allow the spout (301) to be dithered therein.

7. The toilet lid assembly according to claim 6, further comprising a private parts washing assembly for detachably mounting the nozzle (301) thereon, wherein the private parts washing assembly rotates the nozzle (301) mounted thereon such that the length direction of the nozzle (301) is selectively parallel to or intersects with the discharge conduit channel (603).

8. Toilet lid assembly according to claim 6, wherein the maximum dimension of the spout (301) in the direction perpendicular to the length of the spout (301) is smaller than the minimum dimension of the discharge conduit channel (603) in the direction perpendicular to the length of the spout (301).

9. Toilet lid assembly according to claim 6, wherein the outlet conduit (60) has two opposite ends, the outlet conduit channel (603) extends from one end of the outlet conduit (60) to the other end, and the outlet conduit channel (603) forms an opening at the two ends of the outlet conduit (60) for the spout (301) to pass through, wherein one opening is an outlet conduit inlet and the other opening is an outlet conduit outlet, and the outlet conduit channel (603) is trumpet-shaped with a small outlet conduit inlet and a large outlet conduit outlet.

10. A toilet comprising a bowl and a toilet lid assembly disposed on the bowl, wherein the toilet lid assembly is as claimed in any one of claims 6 to 9.

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