CN220168635U - Two-in and multi-out water diversion valve and electric toilet - Google Patents

Abstract

A two-in and multiple-out shunt valve and an electric toilet bowl comprise: a valve body, a housing having a housing inlet tube; the valve body is provided with an inlet hole and more than one water outlet hole at the end face of one side of the Y axis direction, a valve body inlet pipe communicated with the inlet hole and a first water outlet pipe communicated with the water outlet hole are arranged in the X axis direction perpendicular to the Y axis, and the valve is characterized in that: the valve body is also provided with at least 1 second water outlet pipe, one end of which is communicated with the water outlet hole, and the other end of which extends along the Y-axis direction to one side far away from the shell, and the valve body inlet pipe, the first water outlet pipe and the shell inlet pipe extend outwards along the X-axis in the same direction away from the O-plane. Through the shunt valve after the design, the connection of a plurality of water outlet pipes can be completed only from the directions of the X axis and the Y axis when the shunt valve is externally connected with a connecting pipe, the occupied space when the shunt valve is externally connected with the connecting pipe is reduced, and the matching installation of the shunt valve and other parts is facilitated.

Description

Two-in and multi-out water diversion valve and electric toilet

Technical Field

The utility model relates to a two-in and multi-out water diversion valve and an electric toilet bowl using the same, wherein the IPC classification number of the water diversion valve is F16K 11/04.

Background

When the water spraying component of the existing electric toilet needs to be connected with two fluids with different sources, a two-in and multiple-out water diversion valve is generally adopted, and the specific structure can be seen from the publication number CN214093148U. The existing water diversion valve is generally provided with three or four water outlet pipes, the water outlet pipes of the water diversion valve extend outwards along different angles in the radial direction of the valve body, when the water diversion valve is externally connected with a water pipe, larger installation space is required to be occupied around the valve body, and arrangement of other parts is inconvenient, so that the need for improvement exists.

For terms and common knowledge, refer to CN215172467U patent publication, national standard GBT21465-2008 "valve term" and G B/T23131-2019 "electric toilet seat for household and similar use", mechanical engineering manual and motor engineering manual (writing group, 2 nd edition 1997) etc.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a two-in and multiple-out water diversion valve and an electric toilet using the water diversion valve.

The technical scheme adopted by the utility model is as follows:

a two-in, multiple-out diverter valve comprising: the end face of one side of the Y axis direction of the valve body is provided with an inlet hole and more than one water outlet holes, and the X axis direction perpendicular to the Y axis is provided with a valve body inlet pipe communicated with the inlet hole and a first water outlet pipe communicated with the water outlet holes; the shell is in sealing connection with the valve body to form a valve body cavity for liquid inlet and discharge, and a shell inlet pipe communicated with the valve body cavity is arranged at the periphery of the shell; the fixed valve plate is arranged in the valve cavity and fixedly connected with the valve body; the movable valve plate is arranged in the valve body cavity and is rotationally clung to the Y-axis direction end face of the fixed valve plate; the valve rod penetrates through the shaft hole formed in the shell and is coupled with the movable valve plate to rotate; the method is characterized in that: the valve body is also provided with at least 1 second water outlet pipe, one end of which is communicated with the water outlet hole, and the other end of which extends along the Y-axis direction to one side far away from the shell, and the valve body inlet pipe, the first water outlet pipe and the shell inlet pipe extend outwards along the X-axis in the same direction away from the O-plane.

The two-in and multiple-out water diversion valve is characterized in that a first water outlet pipe of a valve body is designed to be the same as the directions of a valve body inlet pipe and a shell inlet pipe, and extends outwards away from an O plane along the same direction of an X axis; the second water outlet pipe is designed to extend to one side far away from the shell along the Y-axis direction. Through the shunt valve after the design, the connection of a plurality of water outlet pipes can be completed only from the directions of the X axis and the Y axis when the shunt valve is externally connected with a connecting pipe, the occupied space when the shunt valve is externally connected with the connecting pipe is reduced, and the matching installation of the shunt valve and other parts is facilitated.

Further, the fixed valve block is provided with a fixed valve block inlet hole opposite to the inlet hole and fixed valve block through holes corresponding to the water outlet holes one by one, and the end surface of the fixed valve block opposite to the valve body sinks to form a transition groove communicated with the fixed valve block inlet hole and a guide-in groove communicated with the fixed valve block through holes; the movable valve plate is provided with a movable valve plate through hole for communicating the valve cavity with the fixed valve plate through hole and a connecting groove for communicating the transition groove with the leading-in groove.

Further, the number of the water outlets is 5, and the water outlets are all positioned on the radial outer sides of the connecting groove and the transition groove.

Further, an elastic sealing element is arranged between the valve body and the fixed valve plate, and the end surface of the fixed valve plate facing the valve body is concaved inwards to form a sealing groove for installing the elastic sealing element.

Further, the valve body faces the end face of the fixed valve plate to bulge the positioning column, and a positioning hole matched with the positioning column is formed in the corresponding end face of the fixed valve plate.

Further, the outer peripheral surface of the housing protrudes outward to form a lug, the mounting surface of which is perpendicular to the axis of the housing inlet pipe.

Further, the two-in and multiple-out water diversion valve further comprises an elastic sealing ring located between radial gaps of the shell and the fixed valve plate, the fixed valve plate comprises a first cylindrical surface, a second cylindrical surface and a third cylindrical surface, the outer diameters of the first cylindrical surface, the second cylindrical surface and the third cylindrical surface are different in sequence along the Y-axis direction, and the elastic sealing ring is sleeved on the periphery of the first cylindrical surface.

The utility model provides an electric toilet, includes frame and sets up the water spray subassembly on the frame, its characterized in that: the water diversion valve is positioned at the upstream of the water spraying assembly, and the first water outlet pipe and/or the second water outlet pipe of the water diversion valve are/is connected with the water spraying assembly through a connecting pipe.

According to the electric toilet, 2 different fluids can be supplied to the water spraying assembly through one water diversion valve, and the installation occupation space of the water diversion valve is small, so that the electric toilet is beneficial to the miniaturization design.

For a better understanding and implementation, the present utility model is described in detail below with reference to the drawings.

Drawings

FIG. 1 is a schematic diagram of a two-in and multiple-out diverter valve according to the present utility model;

FIG. 2 is an axial cross-sectional view of a two-in, multiple-out diverter valve of the present utility model;

FIG. 3 is a schematic view of the structure of the valve body of the two-in and two-out water diversion valve of the utility model;

FIG. 4 is a schematic structural view of a fixed valve plate of the two-in and multiple-out water diversion valve of the utility model;

FIG. 5 is a front view of a fixed valve plate of the two-in and two-out diverter valve of the present utility model;

FIG. 6 is a front view of a movable valve plate of the two-in and two-out diverter valve of the present utility model;

FIG. 7 is a schematic view of the structure of the housing of the two-in and two-out diverter valve of the present utility model;

FIG. 8 is a schematic view of a fixed valve plate and a movable valve plate of the two-in and multiple-out water diversion valve in the on state;

FIG. 9 is a schematic view of the structure of the electric toilet of the present utility model;

FIG. 10 is a schematic view of the internal waterway connection of the electric toilet of the present utility model;

wherein: 1-valve cavity, 10-two-in and two-out water diversion valve, 20-water tank, 21-water tank water outlet, 22-water return port of water tank, 30-air pump, 40-connecting pipe, 50-water pump, 60-heater, 70-water spraying component, 80-casing, 91-seat ring, 92-cover plate, 100-valve body, 110-inlet hole, 111-valve body inlet pipe, one of 120-water outlet holes, one of 121-first water outlet pipe, 130-water outlet Kong Zhier, 131-second water outlet pipe, 140-water outlet Kong Zhisan, 141-third water outlet three, 150-water outlet Kong Zhisi, 151-fourth water outlet four, 160-water outlet Kong Zhiwu, 161-second water outlet pipe 170-positioning column, 200-shell, 210-shell inlet pipe, 220-shell shaft hole, 230-lug, 300-fixed valve block, 310-fixed valve block inlet hole, 311-transition groove, 312-leading-in groove, 320-fixed valve block first through hole, 330-fixed valve block second through hole, 340-fixed valve block third through hole, 350-fixed valve block fourth through hole, 360-fixed valve block fifth through hole, 370-sealing groove, 380-positioning hole, 400-movable valve block, 410-movable valve block through hole, 420-connecting groove, 500-rotating shaft, 600-spring, 700-motor, 810-elastic sealing piece and 820-elastic sealing ring

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in the drawings, the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. In describing the device, system, equipment and structure of the present utility model, the axial direction of the valve rod is taken as the Y-axis direction, and the direction perpendicular to the axial direction of the valve rod is taken as the X-axis direction; the side close to the motor is taken as the upper side or the upper side, and the side away from the motor is taken as the lower side or the lower side; plane O is a plane passing through the Y axis and perpendicular to the X axis. The embodiments described below by referring to the drawings are illustrative and intended to explain the present utility model and should not be construed as limiting the utility model.

The utility model discloses a two-in and two-out water diversion valve, which is shown in fig. 1 and 2, and comprises a valve body 100, a shell 200 fixedly connected with one end of the valve body 100, a fixed valve block 300 arranged on the valve body 100, a movable valve block 400 rotatably clung to the Y-axis direction end surface of the fixed valve block 300, a valve rod 500 driving the movable valve block 400 to rotate and a motor 700 driving the valve rod 500 to rotate, wherein the shell 200 and the valve body 100 are connected through screws and/or buckles to form a sealed valve body cavity 1, and the fixed valve block 300 and the movable valve block 400 are accommodated in the valve body cavity 1. The water diversion valve inherits the structure and the connection relation of the CN215172467U related to the prior art, and is mainly improved in the structure, the shape and the connection relation of a pipeline communicated with a medium, as follows:

referring to fig. 2 or 7, the housing 200 of the present utility model is a cylindrical body with a stepped hollow cavity, wherein one end of the stepped hollow cavity with a larger inner diameter is connected with the valve body 100 to form a valve cavity 1, the housing 200 is provided with a housing inlet pipe 210 communicated with the valve body cavity 1 along the X-axis direction, one end of the stepped hollow cavity with a smaller inner diameter is a housing shaft hole 220, and when assembled, the valve rod 500 passes through the housing shaft hole 200 to couple the movable valve plate 400 to rotate in the valve cavity 1.

Referring to fig. 1 to 3, the valve body 100 of the present utility model has an inlet hole 110 and more than 2 outlet holes formed in the end surface of the upper end in the Y-axis direction, and the valve body 100 has a valve body inlet pipe 111 communicating with the inlet hole 110 and a first outlet pipe communicating with the outlet hole, and in the installation-shaped body, the valve body inlet pipe 111 and the first outlet pipe and the housing inlet pipe 210 have the same extending direction, and extend outwardly away from the O-plane in the same direction along the X-axis. Further, the valve body 100 is further provided with at least 1 second water outlet pipe, one end of which is communicated with the water outlet hole, and the other end of which extends to one side far away from the housing 200 along the Y-axis direction.

Referring to fig. 4, the fixed valve plate 300 of the present utility model is a cylindrical body, and the Y-directional end surface of the cylindrical body is provided with a fixed valve plate inlet hole 310 opposite to the inlet hole 110 of the valve body and fixed valve plate through holes corresponding to the water outlet holes of the valve body one by one. The fixed valve plate 300 is sunk on the upper end surface facing away from the valve body 100 to form a transition groove 311 communicated with the fixed valve plate inlet hole 310 and a guide groove 312 communicated with a part of fixed valve plate through holes. When assembled, the shell 200 is abutted with the fixed valve plate 300, and the fixed valve plate 300 is tightly pressed on the valve body 100. Of course, as other embodiments, the housing 200 may also transmit force to the fixed valve plate 300 through other transition parts, so that the fixed valve plate 300 is pressed against the valve body 100.

Referring to fig. 2 and 5, as a preferred embodiment, the two-in and two-out water diversion valve of the present utility model is further provided with an elastic sealing member 810 between the valve body 100 and the fixed valve sheet 300. Because the fixed valve plate 300 is pressed and connected to the valve body 300 by the pressure provided by the shell 200, in order to reduce the leakage caused by deformation due to the compression or movement of the elastic sealing element 810, the end surface of the fixed valve plate 300 facing the valve body is concave inwards to form a sealing cavity 370, and the elastic sealing element 810 is arranged on the sealing cavity 370.

In order to prevent the water diversion valve from being out of work due to the misplacement of the fixed valve plate 300, the qualification rate of installation is improved. Referring to fig. 3 and 5, the end surface of the valve body 100 facing the fixed valve plate is further protruded with a positioning post 170, and the corresponding end surface of the fixed valve plate 300 is provided with a positioning hole 380. When assembled, the positioning hole 380 of the fixed valve plate 300 is inserted with the positioning column 170 of the valve body.

Referring to fig. 6, the main body of the movable valve plate 400 of the present utility model has a disc structure, and a movable valve plate through hole 410 capable of communicating with the fixed valve plate 300 through hole is provided in the Y direction, and a connection groove 420 for communicating the transition groove 311 with the introduction groove 312 is provided on the end surface facing the fixed valve plate 300.

The two-in and multiple-out water diversion valve is characterized in that a first water outlet pipe of a valve body is designed to be the same as the directions of a valve body inlet pipe and a shell inlet pipe, and extends outwards away from an O plane along the same direction of an X axis; the second water outlet pipe is designed to extend to one side far away from the shell along the Y-axis direction. Through the shunt valve after the design, the connection of a plurality of water outlet pipes can be completed only from the directions of the X axis and the Y axis when the shunt valve is externally connected with a connecting pipe, the occupied space when the shunt valve is externally connected with the connecting pipe is reduced, and the matching installation of the shunt valve and other parts is facilitated.

Referring to fig. 1 and 3, as a preferred embodiment of the two-in and two-out diverter valve according to the present utility model, the diverter valve is a two-in and five-out diverter valve, wherein the number of water outlets of the valve body is 5, and the number of water outlets is 120, 130, 140, kong Zhisi, and Kong Zhiwu, respectively; the first water outlet pipe of the valve body comprises a first water outlet pipe 121 communicated with the first water outlet hole 120, a second water outlet pipe 131 communicated with the second water outlet hole 130, a third water outlet pipe 141 communicated with the third water outlet hole 140, and first water outlet pipes to four 151 communicated with the water outlet Kong Zhisi; the second water outlet pipe 161 of the valve body is a water outlet pipe with one end communicated with the water outlet Kong Zhiwu and the other end extending along the Y-axis direction. Referring to fig. 4, the valve plate through holes of the valve plate 300 of this embodiment include a first valve plate through hole 320 opposite to one of the water outlet holes 120, a second valve plate through hole 330 opposite to the second water outlet hole 130, a third valve plate through hole 340 opposite to the third water outlet hole 140, a fourth valve plate through hole 350 opposite to the water outlet Kong Zhisi 150, and a fifth valve plate through hole 360 opposite to the water outlet Kong Zhiwu 160. In order to reduce the radial length of the connecting groove 420 and the transition groove 311 and avoid the insufficient strength of the valve plate caused by the grooving transition of the fixed valve plate and the movable valve plate, as shown in fig. 3, the first water outlet 120, the second water outlet 130, the third water outlet 140, the water outlet Kong Zhisi and the water outlet Kong Zhiwu of the water diversion valve are all positioned at the radial outer sides of the connecting groove 420 and the transition groove 311.

When the water diversion valve of the utility model is connected with the valve body inlet pipe and the shell inlet pipe at the same time, the position bodies of the fixed valve block 300 and the movable valve block 400 are shown in figure 8 (the broken line is the movable valve block and the solid line is the fixed valve block), at the moment, fluid entering from the valve body inlet pipe penetrates into the fixed valve block inlet hole 310 through the inlet hole, and then the fluid is discharged from the fixed valve block fourth through hole 350 after sequentially passing through the transition groove 311, the connecting groove 420 and the leading-in groove 312 from the inlet hole 310; meanwhile, the fluid entering from the housing inlet pipe 210 passes through the movable valve plate through hole 410 and then is discharged from the fixed valve plate fourth through hole 350, so that two-inlet and one-outlet are realized. The water diversion valve can realize two-in and one-out through the matching of the grooves and the holes on the movable valve plate and the fixed valve plate, has simple and reliable structure and is convenient for the miniaturization design of the water diversion valve.

Referring to fig. 2, in order to prevent fluid from leaking between the movable valve plate 400 and the fixed valve plate 300 due to axial loosening, the water diversion valve of the present utility model is further provided with a spring 600 sleeved on the outer side of the valve rod 500, wherein one end of the spring 600 abuts against the valve rod 500, and the other end abuts against the movable valve plate 400.

Referring to fig. 2 and 4, after the casing 200 of the two-in and two-out water diversion valve of the present utility model is connected with the valve body 100, an elastic sealing ring 820 is disposed in a gap between the casing 200 and the fixed valve plate 300 fixedly connected with the valve body in the X-axis direction. In order to adapt the fixed valve plate 300 to the stepped hollow structure of the housing 200, the cylindrical outer part Zhou Waijing of the fixed valve plate 300 of the present utility model is unequal, and includes a first cylindrical surface 313, a second cylindrical surface 314 and a third cylindrical surface 315, and an elastic sealing ring 820 is sleeved on the outer periphery of the first cylindrical surface 313. The design improves the sealing performance between the shell and the fixed valve plate, and prevents water from leaking from a gap between the fixed valve plate and the shell.

Referring to fig. 7, the outer side of the housing 200 of the present utility model protrudes outward from the boss 230, wherein the mounting surface 231 of the boss 230 is perpendicular to the opening direction of the housing inlet tube 210, i.e., to the X-axis direction (radial direction). The design can enable the water diversion valve to be installed on equipment, and the water inlet pipe can be easily inserted into the connecting pipe, so that the assembly is convenient.

Referring to fig. 9, the utility model also discloses an electric toilet, which comprises a base 80, a water spraying assembly 70 arranged on the base 80 and the two-in and multiple-out water dividing valve, wherein the water dividing valve is positioned at the upstream of the water spraying assembly 70, and the first water outlet pipe and/or the second water outlet pipe of the water dividing valve are/is connected with the water spraying assembly 70 through a connecting pipe. Referring to fig. 10, as a preferred embodiment of the present utility model, the electric toilet comprises a housing 80, a seat 91 hinged to the housing, a flip 92, a water tank 20, an air pump 30, a connection pipe 40, a water pump 50, a heater 60, and a water spray assembly 70, and the above-mentioned two-way diverter valve 10. Wherein the water tank 20 is provided with a water tank water outlet 21 and a water tank water return 22, and the water diversion valve 10, the water pump 50, the heater 60 and the water spray assembly 70 are positioned at the downstream of the water tank 20 and are connected through a connecting pipe 40. As a preferred embodiment, the diverter valve 10 is located upstream of the water spray assembly 70, its housing inlet tube 210 is connected to the connecting tube 40 leading to the water tank outlet 21, its valve body inlet tube 111 is connected to the air pump 30 via the connecting tube 40, one of the first outlet tubes of the diverter valve is connected to the water return port 22 of the water tank via the connecting tube 40, and the remaining first and second outlet tubes are connected to the water spray assembly 70 via the connecting tube 40. As a specific embodiment of the utility model, the number of the water distribution valves is 5, namely, one of the first water outlet pipes 121, the second water outlet pipe 131, the third water outlet pipe 141, the fourth water outlet pipe 141 and the second water outlet pipe 151, wherein one of the first water outlet pipes 121 is connected with the water return port 22 of the water tank through the connecting pipe 40, and the rest of the first water outlet pipe 131, the third water outlet pipe 141, the fourth water outlet pipe 141 and the second water outlet pipe 151 are respectively connected with all functional access ports of the water spraying assembly 70 through the connecting pipes. Of course, as other embodiments, the electric toilet may employ the water tank 20 and the water pump 50, and the water is directly sourced from tap water and guided to the respective water-consuming elements through the two-in and two-out water diversion valve described above.

Taking fig. 8 and 10 as an example of the working principle of the electric toilet of the present utility model in the specification, when the movable valve plate 400 rotates to a state that the movable valve plate through hole 410 is communicated with the fourth through hole 350 of the fixed valve plate, water entering from the housing inlet pipe 210 passes through the valve body cavity 1 and then passes through the movable valve plate through hole 410 and the fourth through hole 350 to be discharged from the third water outlet pipe 141; at this time, the connecting groove 420 of the movable valve plate 400 communicates the fixed valve plate inlet hole 310 with the fourth through hole 350, the air pump 30 is started, the air enters from the valve body inlet pipe 111, passes through the fixed valve plate inlet hole 310, the transition groove 311 and the leading-in groove 312, then enters the valve body cavity 1, and is discharged from the third water outlet pipe 141 after being converged with the water in the valve body cavity 1, so as to realize the function of air entrainment and spray washing.

The electric toilet can realize the function of air entrainment and spray washing through the water diversion valve, and the installation occupation space of the water diversion valve is smaller, thereby being beneficial to the miniaturization design of the electric toilet.

The present utility model is not limited to the above-described embodiments, but, if various modifications or variations of the present utility model are not departing from the spirit and scope of the present utility model, the present utility model is intended to include such modifications and variations as fall within the scope of the claims and the equivalents thereof.

Claims (8)

1. A two-in, multiple-out diverter valve comprising:

the valve body (100) is provided with an inlet hole (110) and more than 2 water outlet holes at the end face on one side in the Y-axis direction, and a valve body inlet pipe (111) communicated with the inlet hole (110) and a first water outlet pipe communicated with the water outlet holes are arranged in the X-axis direction perpendicular to the Y axis;

-a housing (200) sealingly connected to the valve body (100) forming a valve body chamber (1) for liquid intake and discharge, the housing (200) being provided at its periphery with a housing inlet tube (210) communicating with the valve body chamber (1);

-a fixed valve plate (300) arranged in the valve cavity (1) and fixedly connected with the valve body (100);

-a movable valve plate (400) arranged in the valve body cavity (1) and rotatably clung to the Y-axis direction end face of the fixed valve plate (300);

-a valve stem (500) passing through a shaft hole (220) provided in the housing and coupled to the rotation of the movable valve plate (400);

the method is characterized in that: the valve body (100) is also provided with at least 1 second water outlet pipe, one end of the second water outlet pipe is communicated with the water outlet hole, the other end of the second water outlet pipe extends to one side far away from the shell (200) along the Y-axis direction, and the valve body inlet pipe (111), the first water outlet pipe and the shell inlet pipe (210) extend outwards along the X-axis in the same direction away from the O-plane.

2. The two-in, multiple-out diverter valve of claim 1, wherein: the fixed valve block (300) is provided with a fixed valve block inlet hole (310) opposite to the inlet hole (110) and fixed valve block through holes corresponding to the water outlet holes one by one, and the end surface of the fixed valve block (300) facing away from the valve body is sunk to form a transition groove (311) communicated with the fixed valve block inlet hole (310) and a guide-in groove (312) communicated with the fixed valve block through holes; the movable valve block (400) is provided with a movable valve block through hole (410) for communicating the valve cavity with the fixed valve block through hole and a connecting groove (420) for communicating the transition groove (311) with the guide groove (312).

3. The two-in, multiple-out diverter valve of claim 2, wherein: the number of the water outlets is 5, and the water outlets are all positioned at the radial outer sides of the connecting groove (420) and the transition groove (311).

4. The two-in, multiple-out diverter valve of claim 1, wherein: an elastic sealing element (810) is further arranged between the valve body (100) and the fixed valve plate (300), and the end surface of the fixed valve plate (300) facing the valve body is concaved inwards to form a sealing groove (370) for installing the elastic sealing element (810).

5. The two-in, multiple-out diverter valve of claim 1, wherein: the valve body (100) protrudes towards the end face of the fixed valve plate to form a positioning column (170), and a positioning hole (380) matched with the positioning column (170) is formed in the corresponding end face of the fixed valve plate (300).

6. The two-in, multiple-out diverter valve of claim 1, wherein: the outer peripheral surface of the housing (200) protrudes outward to form a lug (230) whose mounting surface (231) is perpendicular to the axis of the housing inlet pipe (210).

7. The two-in, multiple-out diverter valve of claim 1, wherein: still including being located elastic sealing ring (820) between the radial clearance of casing (200) and fixed valve piece (300), fixed valve piece (300) are including setting gradually first cylinder (313), second cylinder (314) and third cylinder (315) that the external diameter is unequal along the Y axle direction, the periphery of first cylinder (313) is located to elastic sealing ring (820) cover.

8. An electric toilet, includes frame (80) and sets up water spray subassembly (70) on frame (80), its characterized in that:

further comprising a two-in, multiple-out diverter valve according to any of the preceding claims 1 to 7, upstream of the water spray assembly (70), the first water outlet pipe and/or the second water outlet pipe of which are connected to the water spray assembly (70) by means of a connecting pipe (40).