CN217325641U - Multifunctional water outlet nozzle - Google Patents

Abstract

The utility model provides a multifunctional water outlet nozzle, which comprises a static sheet seat and a rotary sleeve; the front end of the static sheet seat is provided with a static sheet, and the static sheet is provided with a static sheet hole; a water distribution cylinder which can rotate along with the rotary sleeve is arranged in the rotary sleeve and comprises an outer cylinder and an inner cylinder, an outer water outlet interlayer is formed between the outer cylinder and the inner cylinder, and a central water outlet channel is arranged in the center of the inner cylinder; a moving plate abutting against the end face of the inner barrel is fixed on the inner wall of the outer barrel, the moving plate is provided with a first moving plate hole and a second moving plate hole which are arranged at intervals along the circumferential direction of the moving plate, and the first moving plate hole and the second moving plate hole of the moving plate are communicated with the static plate hole one by one or staggered with the static plate hole and stopped simultaneously when the rotary sleeve rotates; the first movable piece hole and the second movable piece hole are communicated with the central water outlet channel, and one end, facing the static piece, of the second movable piece hole is communicated with the water outlet interlayer. The utility model has the advantages of the realization that can realize many shelves and go out the water when realizing ending.

Description

Multifunctional water outlet nozzle

Technical Field

The utility model relates to a bathroom accessory field, concretely relates to multi-functional faucet.

Background

The water outlet nozzle is generally arranged on a water outlet of a water faucet, and the traditional water outlet nozzle is a simple bubbler, so that the function is single, and different water outlet modes can be realized by adjusting gears like a shower head; therefore, water outlet nozzles capable of adjusting gears are available on the market, generally two gears are provided, namely water outlet and water outlet, and only one of the water outlet and the water outlet can be switched, so that the cut-off function cannot be realized.

SUMMERY OF THE UTILITY MODEL

Based on the problem, the utility model aims to provide a realize when can realizing that many grades go out water realizing multi-functional faucet that ends.

Aiming at the problems, the following technical scheme is provided: a multifunctional water nozzle comprises a static sheet seat and a rotary sleeve, wherein the center of the static sheet seat is provided with a water inlet, the rotary sleeve is sleeved outside the static sheet seat and can rotate relative to the static sheet seat, the outer wall of the front end of the static sheet seat is provided with an outer retaining shoulder, and the inner wall of the rear end of the rotary sleeve is provided with an inner retaining shoulder which is abutted against one surface of the outer retaining shoulder facing the rear end of the static sheet seat to prevent falling; the front end of the static sheet seat is provided with a static sheet, and the static sheet is provided with a static sheet hole which is offset from the center of the static sheet, is communicated with the static sheet and is connected with the water inlet hole; a water distribution cylinder which can rotate along with the rotary sleeve is arranged in the rotary sleeve and comprises an outer cylinder and an inner cylinder, an outer water outlet interlayer is formed between the outer cylinder and the inner cylinder, and a central water outlet channel is arranged in the center of the inner cylinder; a moving plate abutting against the end face of the inner barrel is fixed on the inner wall of the outer barrel, the moving plate is provided with a first moving plate hole and a second moving plate hole which are arranged at intervals along the circumferential direction of the moving plate, and the first moving plate hole and the second moving plate hole of the moving plate are communicated with the static plate hole one by one or staggered with the static plate hole and stopped simultaneously when the rotary sleeve rotates; the first movable piece hole and the second movable piece hole are communicated with the central water outlet channel, and one end, facing the static piece, of the second movable piece hole is communicated with the water outlet interlayer.

In the structure, when the rotary sleeve rotates, the water distribution cylinder in the rotary sleeve is driven to rotate together, so that the water distribution cylinder drives the movable piece to rotate, a first movable piece hole and a second movable piece hole on the movable piece are aligned with the static piece hole or the first movable piece hole and the second movable piece hole are staggered with the static piece hole, and therefore three modes of water outlet of the central water outlet channel, water outlet of the central water outlet channel and a water outlet interlayer and water outlet stopping are achieved; the stator and the rotor adopt ceramic plates, so that the water tightness and the service life can be effectively ensured; a sealing gasket is arranged between the end surface of the inner cylinder and the movable sheet, so that the water tightness is ensured, and the water leap up between the central water outlet channel and the water outlet interlayer is avoided.

The utility model discloses further set up to, the still is equipped with along the radial direction of still to offering to being close to the still groove of still lateral wall position department towards the still hole drill way of rotor one end, lateral wall department that corresponds with second rotor hole is equipped with the rotor groove on the rotor circumferential direction, the still groove communicates through rotor groove and the intermediate layer of going out to water in the still hole when the still hole is aligned with second rotor hole.

In the structure, when the second moving plate hole of the moving plate rotates to be aligned with the static plate hole, water from the static plate hole flows through the second moving plate hole to reach the central water outlet channel, and simultaneously reaches the water outlet interlayer through the static plate groove and the moving plate groove to realize simultaneous water outlet from the inside and the outside.

The utility model discloses further set up to, the rotor is equipped with the play basin that links to each other with the drill way of second rotor hole orientation stator one end towards the one side of stator, it corresponds with the second rotor hole on rotor circumferential direction to go out the basin, it sets up to rotor outer fringe department and sets up along rotor axial direction on the rotor side towards the radial direction of rotor to go out the basin, makes the drill way and the intermediate layer intercommunication of going out of second rotor hole orientation stator one end when stator hole and second rotor hole align.

In the structure, when the second moving piece hole of the moving piece rotates to be aligned with the static piece hole, the water flow from the static piece hole flows to the second moving piece hole to reach the central water outlet channel, and simultaneously reaches the water outlet interlayer through the water outlet groove to realize simultaneous water outlet inside and outside.

The utility model discloses further set up as, the one end that the rotor was kept away from to central water channel is equipped with the bubbler.

In the structure, the bubbler can improve the water outlet effect of the central water outlet channel when water is discharged.

The utility model discloses further set up to, link to each other through a plurality of connecting portions that set up along both circumference direction equipartitions between urceolus and the inner tube.

In the structure, the connecting part is a partition board arranged along the axial direction of the outer cylinder and the inner cylinder.

The utility model discloses further set up to, connecting portion are located urceolus, inner tube and keep away from the one end of rotor, connecting portion will go out the interlayer of water and separate into a plurality of hole for water spraying.

In the structure, the water outlet interlayer is separated through the connecting part, so that the water spraying hole is formed to improve the water outlet effect.

The utility model discloses further set up as, quiet piece seat rear end is equipped with rather than screw-thread fit's butt joint cover.

In the structure, the butt joint sleeve is provided with connecting threads for connecting with water outlets of various faucets.

The utility model is further provided with two static sheet holes which are arranged at an interval of 180 degrees along the axial direction of the static sheet; the two first moving plate holes are arranged at an interval of 180 degrees along the axial direction of the moving plate; the second moving plate holes are two and are arranged at an interval of 180 degrees along the axial direction of the moving plate.

In the structure, the static sheet hole, the first movable sheet hole and the second movable sheet hole are respectively provided with two holes which can improve the water outlet flow, and the rotating angles in the axial direction are subdivided simultaneously, so that the switching is convenient.

The utility model discloses further set up to, interval 60 degrees or 120 degrees on the rotor circumferential direction between adjacent first rotor hole and the second rotor hole.

In the structure, the rotation angle is ensured to be 60 degrees and one gear position during switching.

The utility model is further arranged that one end of the stator seat provided with the outer retaining shoulder is provided with a plurality of positioning pits which are uniformly distributed on the end surface; the outer barrel is provided with an installation part towards the end face of one end of the static sheet seat, a positioning part supported by the elastic piece is arranged in the installation part, and the positioning part is abutted and positioned with the positioning pit.

In the structure, the number of the positioning pits is 6, and the interval angle between the positioning pits along the circumferential direction of the stator seat is 60 degrees; the elastic piece can be spring or rubber, and location portion can select for ball or round pin post, moves the piece hole and adjusts well or the second moves the piece hole and adjusts well or first move the piece hole, the second moves the piece hole and all staggers the state with the quiet piece hole at first moving the piece hole and adjust well with the quiet piece hole and fix a position when providing the gear section and fall to feel.

The utility model has the advantages that: when the rotary sleeve rotates, the water distribution cylinder in the rotary sleeve is driven to rotate together, so that the water distribution cylinder drives the movable piece to rotate, a first movable piece hole and a second movable piece hole in the movable piece are aligned with the static piece hole or the first movable piece hole and the second movable piece hole are staggered with the static piece hole, and therefore three modes of water outlet of the central water outlet channel, water outlet of the central water outlet channel and the water outlet interlayer and stopping are achieved; the stator and the rotor adopt ceramic plates, so that the water tightness and the service life can be effectively ensured; a sealing gasket is arranged between the end surface of the inner cylinder and the movable sheet, so that the water tightness is ensured, and the water leap up between the central water outlet channel and the water outlet interlayer is avoided.

Drawings

Fig. 1 is a schematic view of the overall three-dimensional structure of the present invention.

Fig. 2 is the overall full-section structure schematic diagram of the utility model.

Fig. 3 is the whole structural schematic diagram of the water stop state.

Fig. 4 is the whole full-section structure schematic diagram of the internal water outlet state of the utility model.

Fig. 5 is the whole full-section structure schematic diagram of the internal and external simultaneous states of the utility model.

Fig. 6 is a schematic view of the bottom view perspective exploded perspective structure of the present invention.

Fig. 7 is a schematic view of the top view perspective explosion three-dimensional structure of the present invention.

Fig. 8 is a schematic view of the bottom view full-section explosion three-dimensional structure of the present invention.

Fig. 9 is a schematic perspective view of a rotor in embodiment 1 of the present invention.

Fig. 10 is a schematic perspective view of a rotor in embodiment 2 of the present invention.

The reference numbers in the figures mean: 10-a static sheet seat; 11-water inlet holes; 12-an outer shoulder; 121-positioning pits; 20-a rotary sleeve; 21-inner shoulder; 30-still; 31-static sheet hole; 32-a stator slot; 40-a water separation cylinder; 41-outer cylinder; 411-a mounting portion; 412-a resilient member; 413-a positioning section; 42-inner cylinder; 421-central water outlet channel; 422-a bubbler; 43-water outlet interlayer; 431-blowholes; 44-a connecting part; 50-moving plate; 51-a first moving plate hole; 52-second moving plate hole; 53-moving plate groove; 54-water outlet groove; 60-a seal gasket; 70-butting sleeve; 71-connecting screw thread.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

Example 1

Referring to fig. 1 to 10, the multifunctional water faucet shown in fig. 1 to 9 includes a stator base 10 having a water inlet 11 at the center thereof and a rotary sleeve 20 sleeved outside the stator base 10 and capable of rotating relative to the stator base 10, wherein an outer retaining shoulder 12 is disposed on an outer wall of a front end of the stator base 10, and an inner retaining shoulder 21 which is abutted against one side of the outer retaining shoulder 12 facing to a rear end of the stator base 10 to prevent detachment is disposed on an inner wall of a rear end of the rotary sleeve 20; the front end of the static sheet seat 10 is provided with a static sheet 30, and the static sheet 30 is provided with a static sheet hole 31 which is offset from the center of the static sheet 30, is communicated with the static sheet 30 and is connected with the water inlet hole 11; a water diversion cylinder 40 which can rotate along with the rotary sleeve 20 is arranged in the rotary sleeve 20, the water diversion cylinder 40 comprises an outer cylinder 41 and an inner cylinder 42, an outer water outlet interlayer 43 is formed between the outer cylinder 41 and the inner cylinder 42, and a central water outlet channel 421 is arranged in the center of the inner cylinder 42; the inner wall of the outer cylinder 41 is fixedly provided with a moving plate 50 which is abutted against the end face of the inner cylinder 42, the moving plate 50 is provided with a first moving plate hole 51 and a second moving plate hole 52 which are arranged at intervals along the circumferential direction of the moving plate 50, and when the rotary sleeve 20 rotates, the first moving plate hole 51 and the second moving plate hole 52 of the moving plate 50 are communicated with the static plate hole 31 one by one or are staggered and stopped with the static plate hole 31 at the same time; the first moving plate hole 51 and the second moving plate hole 52 are both communicated with the central water outlet channel 421, and one end of the second moving plate hole 52 facing the fixed plate 30 is communicated with the water outlet interlayer 43.

In the above structure, when the rotary sleeve 20 rotates, the water distribution cylinder 40 inside the rotary sleeve is driven to rotate together, so that the water distribution cylinder 40 drives the moving plate 50 to rotate, and the first moving plate hole 51 and the second moving plate hole 52 on the moving plate 50 are alternatively aligned with the static plate hole 31 or the first moving plate hole 51 and the second moving plate hole 52 are staggered with the static plate hole 31, thereby realizing three modes of water outlet of the central water outlet channel 421, simultaneous water outlet of the central water outlet channel 421 and the water outlet interlayer 43, and stopping; the stator 30 and the rotor 50 are made of ceramic plates, so that the water tightness and the service life can be effectively guaranteed; a sealing gasket 60 is arranged between the end surface of the inner cylinder 42 and the movable plate 50 to ensure water tightness and avoid water channeling between the central water outlet channel 421 and the water outlet interlayer 43.

In this embodiment, the opening of the stator hole 31 at one end of the stator 30 facing the rotor 50 is provided with a stator groove 32 that is opened to a position close to the side wall of the stator 30 along the radial direction of the stator 30, the side wall of the rotor 50 corresponding to the second rotor hole 52 in the circumferential direction is provided with a rotor groove 53, and when the stator hole 31 and the second rotor hole 52 are aligned, the stator groove 32 is communicated with the outlet water interlayer 43 through the rotor groove 53.

In the above structure, when the second moving plate hole 52 of the moving plate 50 is rotated to align with the fixed plate hole 31, the water from the fixed plate hole 31 reaches the central water outlet channel 421 through the second moving plate hole 52, and reaches the water outlet interlayer 43 through the fixed plate groove 32 and the moving plate groove 53, so as to realize simultaneous water outlet from the inside and the outside.

In this embodiment, a bubbler 422 is disposed at an end of the central water outlet channel 421 away from the movable plate 50.

In the above structure, the bubbler 422 can improve the water outlet effect of the central water outlet channel 421.

In this embodiment, the outer cylinder 41 and the inner cylinder 42 are connected by a plurality of connecting portions 44 uniformly distributed along the circumferential direction of the outer cylinder and the inner cylinder.

In the above configuration, the connection portion 44 is a partition provided along the axial direction of the outer cylinder 41 and the inner cylinder 42.

In this embodiment, the connecting portion 44 is located at one end of the outer cylinder 41 and the inner cylinder 42 away from the rotor 50, and the connecting portion 44 divides the water outlet interlayer 43 into a plurality of water spraying holes 431.

In the above structure, the water outlet interlayer 43 is divided by the connection part 44, so that the water spray hole 431 is formed to improve the water outlet effect.

In this embodiment, the back end of the static sheet seat 10 is provided with a docking sleeve 70 in threaded fit with the static sheet seat.

In the above structure, the docking sleeve 70 is provided with a connecting thread 71 for connecting with the water outlets of various faucets.

In this embodiment, two static sheet holes 31 are provided at an interval of 180 degrees along the axial direction of the static sheet 30; the number of the first moving plate holes 51 is two, and the first moving plate holes are arranged at an interval of 180 degrees along the axial direction of the moving plate 50; the number of the second moving plate holes 52 is two, and the second moving plate holes are arranged at an interval of 180 degrees along the axial direction of the moving plate 50.

In the above structure, the stator hole 31, the first moving plate hole 51, and the second moving plate hole 52 are all provided with two holes, which can improve the water outlet flow rate, and subdivide the rotation angle in the axial direction, thereby facilitating the switching.

In this embodiment, the adjacent first rotor hole 51 and second rotor hole 52 are spaced apart by 60 degrees or 120 degrees in the rotor circumferential direction.

In the structure, the rotation angle is ensured to be 60 degrees and one gear position during switching.

In this embodiment, the end surface of the static sheet seat 10, which is provided with the outer shoulder 11, is provided with a plurality of positioning pits 121 which are uniformly distributed; an end surface of one end of the outer cylinder 41 facing the static sheet seat 10 is provided with a mounting part 411, a positioning part 413 supported by an elastic piece 412 is arranged in the mounting part 411, and the positioning part 413 is abutted to the positioning pit 121 for positioning.

In the above structure, the number of the positioning pits 121 is 6, and the interval angle between the positioning pits along the circumferential direction of the static sheet seat 10 is 60 degrees; the elastic member 412 may be a spring or rubber, and the positioning portion 413 may be a ball or a pin, and is positioned when the first moving plate hole 51 is aligned with the static plate hole 31, or the second moving plate hole 52 is aligned with the static plate hole 31, or the first moving plate hole 51, the second moving plate hole 52 and the static plate hole 31 are all staggered, so as to provide a gear step falling feeling.

Example 2

Referring to fig. 1 to 10, as shown in fig. 1 to 8 and 10, a multifunctional faucet includes a stationary blade base 10 having a water inlet 11 at the center and a rotary sleeve 20 sleeved outside the stationary blade base 10 and capable of rotating relative to the stationary blade base 10, wherein an outer retaining shoulder 12 is disposed on an outer wall of a front end of the stationary blade base 10, and an inner retaining shoulder 21 abutting against one surface of the outer retaining shoulder 12 facing to a rear end of the stationary blade base 10 to prevent detachment is disposed on an inner wall of a rear end of the rotary sleeve 20; the front end of the static sheet seat 10 is provided with a static sheet 30, and the static sheet 30 is provided with a static sheet hole 31 which is offset from the center of the static sheet 30, is communicated with the static sheet 30 and is connected with the water inlet hole 11; a water distribution cylinder 40 which can rotate along with the rotary sleeve 20 is arranged in the rotary sleeve 20, the water distribution cylinder 40 comprises an outer cylinder 41 and an inner cylinder 42, an outer water outlet interlayer 43 is formed between the outer cylinder 41 and the inner cylinder 42, and a central water outlet channel 421 is arranged in the center of the inner cylinder 42; the inner wall of the outer cylinder 41 is fixedly provided with a moving plate 50 which is abutted against the end face of the inner cylinder 42, the moving plate 50 is provided with a first moving plate hole 51 and a second moving plate hole 52 which are arranged at intervals along the circumferential direction of the moving plate 50, and when the rotary sleeve 20 rotates, the first moving plate hole 51 and the second moving plate hole 52 of the moving plate 50 are communicated with the static plate hole 31 one by one or are staggered and stopped with the static plate hole 31 at the same time; the first moving plate hole 51 and the second moving plate hole 52 are both communicated with the central water outlet channel 421, and one end of the second moving plate hole 52 facing the fixed plate 30 is communicated with the water outlet interlayer 43.

In the above structure, when the rotary sleeve 20 rotates, the water distribution cylinder 40 inside the rotary sleeve is driven to rotate together, so that the water distribution cylinder 40 drives the moving plate 50 to rotate, and the first moving plate hole 51 and the second moving plate hole 52 on the moving plate 50 are alternatively aligned with the static plate hole 31 or the first moving plate hole 51 and the second moving plate hole 52 are staggered with the static plate hole 31, thereby realizing three modes of water outlet of the central water outlet channel 421, simultaneous water outlet of the central water outlet channel 421 and the water outlet interlayer 43, and stopping; the stator 30 and the rotor 50 are made of ceramic plates, so that the water tightness and the service life can be effectively guaranteed; a sealing gasket 60 is arranged between the end surface of the inner cylinder 42 and the movable plate 50 to ensure water tightness and avoid water channeling between the central water outlet channel 421 and the water outlet interlayer 43.

In this embodiment, a water outlet groove 54 connected to an orifice of the second moving plate hole 52 facing one end of the stationary plate 30 is disposed on one surface of the moving plate 50 facing the stationary plate 30, the water outlet groove 54 corresponds to the second moving plate hole 52 in the circumferential direction of the moving plate 50, the water outlet groove 54 is opened to the outer edge of the moving plate 50 in the radial direction of the moving plate 50 and opened along the axial direction of the moving plate 50 on the side surface of the moving plate 50, so that the orifice of the second moving plate hole 52 facing one end of the stationary plate 30 is communicated with the water outlet interlayer 43 when the stationary plate hole 31 and the second moving plate hole 52 are aligned.

In the above structure, when the second moving plate hole 52 of the moving plate 50 is aligned with the stationary plate hole 31, the water flow from the stationary plate hole 31 flows to the second moving plate hole 52 to reach the central water outlet channel 421, and simultaneously flows to the water outlet interlayer 43 through the water outlet channel 54 to realize simultaneous water outlet.

In this embodiment, a bubbler 422 is disposed at an end of the central water outlet channel 421 away from the movable plate 50.

In the above structure, the bubbler 422 can improve the water outlet effect of the central water outlet channel 421.

In this embodiment, the outer cylinder 41 and the inner cylinder 42 are connected by a plurality of connecting portions 44 uniformly distributed along the circumferential direction of the outer cylinder and the inner cylinder.

In the above configuration, the connection portion 44 is a partition provided along the axial direction of the outer cylinder 41 and the inner cylinder 42.

In this embodiment, the connecting portion 44 is located at one end of the outer cylinder 41 and the inner cylinder 42 away from the rotor 50, and the connecting portion 44 divides the water outlet interlayer 43 into a plurality of water spraying holes 431.

In the above structure, the water outlet interlayer 43 is divided by the connection part 44, so that the water spray hole 431 is formed to improve the water outlet effect.

In this embodiment, the back end of the static sheet seat 10 is provided with a docking sleeve 70 in threaded fit with the static sheet seat.

In the above structure, the docking sleeve 70 is provided with a connecting thread 71 for connecting with the water outlets of various faucets.

In this embodiment, two static sheet holes 31 are provided at an interval of 180 degrees along the axial direction of the static sheet 30; the number of the first moving plate holes 51 is two, and the first moving plate holes are arranged at an interval of 180 degrees along the axial direction of the moving plate 50; the number of the second moving plate holes 52 is two, and the second moving plate holes are arranged at an interval of 180 degrees along the axial direction of the moving plate 50.

In the above structure, the stator hole 31, the first moving plate hole 51 and the second moving plate hole 52 are provided with two holes, which can improve the water outlet flow rate, and simultaneously subdivide the rotation angle in the axial direction, thereby facilitating the switching.

In this embodiment, the adjacent first rotor hole 51 and second rotor hole 52 are spaced apart by 60 degrees or 120 degrees in the rotor circumferential direction.

In the structure, the rotation angle is ensured to be 60 degrees and one gear position during switching.

In this embodiment, the end surface of the static sheet seat 10, which is provided with the outer retaining shoulder 11, is provided with a plurality of positioning pits 121 which are uniformly distributed; an end surface of one end of the outer cylinder 41 facing the static sheet seat 10 is provided with a mounting part 411, a positioning part 413 supported by an elastic piece 412 is arranged in the mounting part 411, and the positioning part 413 is abutted to the positioning pit 121 for positioning.

In the above structure, the number of the positioning pits 121 is 6, and the interval angle between the positioning pits along the circumferential direction of the static sheet seat 10 is 60 degrees; the elastic member 412 may be a spring or rubber, and the positioning portion 413 may be a ball or a pin, and is positioned when the first moving plate hole 51 is aligned with the static plate hole 31, or the second moving plate hole 52 is aligned with the static plate hole 31, or the first moving plate hole 51, the second moving plate hole 52 and the static plate hole 31 are all staggered, so as to provide a gear step falling feeling.

The utility model has the advantages that: when the rotary sleeve 20 rotates, the water distribution cylinder 40 inside the rotary sleeve is driven to rotate together, so that the water distribution cylinder 40 drives the moving plate 50 to rotate, one of a first moving plate hole 51 and a second moving plate hole 52 on the moving plate 50 is aligned with the static plate hole 31, or the first moving plate hole 51 and the second moving plate hole 52 are staggered with the static plate hole 31, and therefore three modes of water outlet of the central water outlet channel 421, water outlet of the central water outlet channel 421 and water outlet interlayer 43 and stopping are achieved; the stator 30 and the rotor 50 are made of ceramic plates, so that the water tightness and the service life can be effectively guaranteed; a sealing gasket 60 is arranged between the end surface of the inner cylinder 42 and the moving plate 50 to ensure water tightness and prevent water from drifting between the central water outlet channel 421 and the water outlet interlayer 43.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations of the above assumption should also be regarded as the protection scope of the present invention.

Claims (10)

1. The utility model provides a multi-functional faucet which characterized in that: the device comprises a static sheet seat with a water inlet hole in the center and a rotary sleeve which is sleeved outside the static sheet seat and can rotate relative to the static sheet seat, wherein an outer retaining shoulder is arranged on the outer wall of the front end of the static sheet seat, and an inner retaining shoulder which is abutted against one surface of the outer retaining shoulder facing the rear end of the static sheet seat to prevent falling off is arranged on the inner wall of the rear end of the rotary sleeve; the front end of the static sheet seat is provided with a static sheet, and the static sheet is provided with a static sheet hole which is offset from the center of the static sheet, is communicated with the static sheet and is connected with the water inlet hole; a water distribution cylinder which can rotate along with the rotary sleeve is arranged in the rotary sleeve and comprises an outer cylinder and an inner cylinder, an outer water outlet interlayer is formed between the outer cylinder and the inner cylinder, and a central water outlet channel is arranged in the center of the inner cylinder; a moving plate abutting against the end face of the inner barrel is fixed on the inner wall of the outer barrel, the moving plate is provided with a first moving plate hole and a second moving plate hole which are arranged at intervals along the circumferential direction of the moving plate, and the first moving plate hole and the second moving plate hole of the moving plate are communicated with the static plate hole one by one or staggered with the static plate hole and stopped simultaneously when the rotary sleeve rotates; the first movable piece hole and the second movable piece hole are communicated with the central water outlet channel, and one end, facing the static piece, of the second movable piece hole is communicated with the water outlet interlayer.

2. A multi-functional spout according to claim 1, wherein: the still is equipped with along the still radial direction and sets up to being close to the still lateral wall position department still groove towards the still hole drill way of rotor one end, the lateral wall department that moves the piece hole and correspond with the second in the rotor circumferential direction is equipped with the rotor groove, the still groove passes through rotor groove and the intermediate layer intercommunication of going out water when the still hole aligns with the second rotor hole.

3. A multi-functional spout according to claim 1, wherein: the one side of rotor towards the stator is equipped with the play basin that links to each other with the drill way of second rotor hole towards stator one end, it corresponds with the second rotor hole to go out the basin in rotor circumferential direction, it sets up to rotor periphery department and sets up along the rotor axial direction on the rotor side towards the radial direction of rotor to go out the basin, makes the stator hole with the second rotor hole when aligning the drill way and go out the water intermediate layer intercommunication of second rotor hole towards stator one end.

4. A multi-functional spout according to claim 2 or 3, wherein: and a bubbler is arranged at one end of the central water outlet channel far away from the movable plate.

5. A multi-functional spout according to claim 2 or 3, wherein: the outer barrel is connected with the inner barrel through a plurality of connecting parts uniformly distributed along the circumferential direction of the outer barrel and the inner barrel.

6. A multi-functional faucet of claim 5, wherein: the connecting part is positioned at one end of the outer cylinder and the inner cylinder, which is far away from the moving sheet, and the connecting part divides the water outlet interlayer into a plurality of water spray holes.

7. A multi-functional water outlet nozzle according to claim 2 or 3, characterized in that: and the rear end of the static sheet seat is provided with a butt joint sleeve matched with the static sheet seat in a threaded manner.

8. A multi-functional spout according to claim 2 or 3, wherein: the two static sheet holes are arranged at an interval of 180 degrees along the axial direction of the static sheet; the two first moving plate holes are arranged at an interval of 180 degrees along the axial direction of the moving plate; the second moving plate holes are two and are arranged at an interval of 180 degrees along the axial direction of the moving plate.

9. A multi-functional spout according to claim 8, wherein: the interval between the adjacent first moving plate hole and the second moving plate hole in the circumferential direction of the moving plate is 60 degrees or 120 degrees.

10. A multi-functional spout according to claim 9, wherein: the end face of one end of the stator seat provided with the outer retaining shoulder is provided with a plurality of positioning pits which are uniformly distributed; the end face of one end, facing the static sheet seat, of the outer barrel is provided with an installation part, a positioning part supported through an elastic piece is arranged in the installation part, and the positioning part is abutted to the positioning pit for positioning.

Images