CN213233650U - Water outlet device - Google Patents

Abstract

The utility model discloses a water outlet device, which comprises a water inlet mechanism, a flow guide mechanism connected with the water inlet mechanism and a flow distribution mechanism arranged in the water inlet mechanism and passing through the flow guide mechanism; the water inlet mechanism comprises a water inlet channel; the flow dividing mechanism comprises a first water outlet channel; the flow guide mechanism comprises a second water outlet channel and a third water outlet channel; when the diversion mechanism moves relative to the diversion mechanism, the water inlet channel is only communicated with the first water outlet channel, only communicated with the second water outlet channel or simultaneously communicated with the first water outlet channel and the third water outlet channel. The utility model discloses can realize the switching of three kinds of water states in limited space to the water state switching is carried out to rotatory mode, and is easy and simple to handle, and is not fragile, small.

Description

Water outlet device

Technical Field

The utility model relates to a bathroom field especially indicates a water outlet device.

Background

At present, in order to change the water outlet mode of a faucet, a water outlet device is usually added below the faucet and used for controlling or adjusting the water outlet quantity and the water outlet state of the faucet.

The applicant has announced the following patents for keeping the outer diameter of the water outlet device consistent with that of the faucet:

a water outlet control device (No. CN104874506B) discloses a water diversion body and a water guide body, wherein the water diversion body comprises a through diversion hole; the water guide body comprises a first water inlet, a second water inlet, a first water outlet channel and a second water outlet channel, the upper space of the first water inlet is communicated with the upper space of the second water inlet, the first water inlet is communicated with the first water outlet channel and the second water outlet channel, the second water inlet is communicated with the first water outlet channel, and the water outlet of the first water outlet channel is arranged around the water outlet of the second water outlet channel; the water distributing body is rotatably connected with the water guide body, the flow guide holes are respectively communicated with the first water inlet or the second water inlet along with the relative rotation of the water distributing body and the water guide body, and an upper space is formed between the water outlet end of each flow guide hole and the first water inlet and between the water outlet end of each flow guide hole and the second water inlet.

In the above patent, the plane rotation between the water dividing body and the water guiding body switches the water guiding hole between the first water inlet and the second water inlet, and the first water outlet channel and the second water outlet channel of the water guiding body can respectively form one kind of functional water, so the water outlet control device in the above patent can realize the switching of two kinds of functional water.

Although the water outlet control device formed by the patent is small in size, the water outlet control device can only realize water outlet of two kinds of functional water, and cannot meet more requirements of users.

At present, devices which can realize water outlet with various functions, such as showers, are available in the market. The existing shower head is generally provided with more than three different water outlet modes, but the existing shower head switches a plurality of water channels in a mode of a plane rotating part. In the actual research and development process, if the volume of the shower head is reduced and the shower head is applied to the water faucet, the minimum outer diameter can only reach 40mm, and the shower head cannot be matched with the size of the water faucet. Therefore, the switching of water with multiple functions in a limited space is extremely challenging.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the utility model provides a water outlet device, solves among the prior art water outlet device's the defect that goes out the water function and lack.

In order to solve the technical problem, the utility model discloses a technical scheme be:

a water outlet device comprises a water inlet mechanism, a flow dividing mechanism and a flow guide mechanism which is rotatably connected with the water inlet mechanism;

the flow dividing mechanism is arranged in the water inlet mechanism and penetrates through the axis of the flow guide mechanism;

the water inlet mechanism comprises a water inlet channel;

the flow dividing mechanism comprises a first water outlet channel;

the flow guide mechanism comprises a second water outlet channel and a third water outlet channel;

when the diversion mechanism moves relative to the diversion mechanism, the water inlet channel is communicated with the first water outlet channel, the second water outlet channel or the first water outlet channel and the third water outlet channel simultaneously.

Furthermore, a mounting hole is formed in the flow guide mechanism;

the mounting hole is provided with a step;

the shunting mechanism penetrates through the mounting hole and is rotatably abutted against the ladder.

Further, the step comprises a first step surface, a second step surface and a third step surface;

the first step surface, the second step surface and the third step surface are sequentially arranged from the side where the flow guide mechanism is located to the water inlet mechanism;

the first step surface is in smooth transition connection with the second step surface, and the second step surface is in smooth transition connection with the third step surface.

Furthermore, a bulge capable of moving up and down along the ladder is arranged outside one end of the flow distribution mechanism, which is positioned in the flow guide mechanism.

Furthermore, the upper end of the bulge is inserted into the water inlet mechanism.

Further, the water inlet mechanism comprises a water inlet assembly and a water outlet assembly;

the water inlet assembly is embedded in the water outlet assembly.

Further, the water inlet assembly comprises an upper water inlet ring, a lower water inlet ring, a first gasket, a second gasket, a press buckle and a third gasket;

the first gasket is embedded at the top of the lower water inlet ring;

the second gasket is embedded in the lower water inlet ring and is positioned below the press buckle;

the third gasket is sleeved outside the lower water inlet ring and positioned inside the water outlet assembly;

the upper water inlet ring is embedded in the top of the lower water inlet ring.

Furthermore, the water outlet net component is also included;

the water outlet net component is arranged on the lower side of the flow guide mechanism and communicated with the second water outlet channel.

Furthermore, the water outlet net component comprises a filter screen, a first water outlet ring and a second water outlet ring;

the second water outlet ring is sleeved outside the first water outlet ring;

the filter screen is embedded in the first water outlet ring, and the first water outlet ring is inserted in the water outlet of the flow guide mechanism.

Further, still include the pressure components, the pressure components includes fourth packing ring and filter screen, the fourth packing ring the filter screen is installed in proper order in water mechanism top.

The beneficial effects of the utility model reside in that: the utility model discloses be provided with reposition of redundant personnel mechanism for switch different play water modes at water conservancy diversion mechanism activity in-process, set up reposition of redundant personnel mechanism simultaneously and increased first water channel in limited space, compare in prior art, increased a function water, and do not increase the holistic volume of water installation. When the water inlet channel is only communicated with the first water outlet channel, first functional water can be formed; when the water inlet channel is only communicated with the second water outlet channel, second functional water can be formed; when the water inlet channel is communicated with the first water outlet channel and the third water outlet channel at the same time, third functional water can be formed; the three kinds of functional water are suitable for different application scenes, so that the faucet or other bathroom products can be a multifunctional water outlet device to meet daily needs of users. Compared with the prior art, the utility model discloses simple structure can realize switching between multiple water mode, more has use value.

Drawings

Fig. 1 is a sectional view of a water outlet device according to a second embodiment of the present invention, showing a state in which water spray can flow out;

fig. 2 is a perspective sectional view of a water outlet device according to a second embodiment of the present invention, showing a state of spraying water that can flow out;

fig. 3 is a sectional view of a water outlet device according to a second embodiment of the present invention, in a state of being capable of flowing shower water;

fig. 4 is a perspective cross-sectional view of a water outlet device of a second embodiment of the present invention in a state of being capable of flowing shower water;

fig. 5 is a sectional view of a water outlet device according to a second embodiment of the present invention, in a state where bubble water can flow out;

fig. 6 is a perspective cross-sectional view of a water outlet device according to a second embodiment of the present invention, in a state where bubble water can flow out;

FIG. 7 is an enlarged view of portion A of FIG. 5;

fig. 8 is a schematic structural view of a flow guide mechanism in a second embodiment of the present invention;

fig. 9 is an exploded view of a water outlet device according to an embodiment of the present invention;

fig. 10 is a schematic structural view of a water outlet assembly in the second embodiment of the present invention;

fig. 11 is a schematic structural view of a water outlet device according to a third embodiment of the present invention.

Description of reference numerals:

1. a water inlet mechanism; 11. a water intake assembly; 12. a water outlet assembly; 111. an upper water feeding ring; 112. a lower water inlet ring; 113. a first gasket; 114. a second gasket; 115. pressing and buckling; 116. a third gasket; 121. an internal thread; 122. discharging the water body; 1221. an accommodating cavity; 1222. a water outlet hole; 1223. a bump;

2. a flow guide mechanism; 21. mounting holes; 22. a first water inlet cavity; 23. a second water inlet cavity; 201. a male buckle; 211. a step; 2011. a limiting groove; 2111. a first step surface; 2112. a second step surface; 2113. a third step surface;

3. a flow dividing mechanism; 31. a protrusion; 32. a blocking table; 33. a flow divider; 34. a reset member; 35. a functional element; 36. an annular boss; 331. a first annular step; 332. a second annular step;

4. a housing; 41. an upper limit table; 42. a lower limit table; 401. a female buckle;

5. a water outlet net component; 51. a lower filter screen; 52. a first water outlet ring; 53. a second water outlet ring;

6. a pressurizing assembly; 61. a fourth gasket; 62. a filter screen is arranged; 7. a metal gasket;

10. a water inlet channel; 20. a first water outlet channel; 40. a transition flow channel; 301. a second water outlet channel; 302. A third water outlet channel; 50. an intake gap.

Detailed Description

In order to explain the technical content, the objects and the effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1 to 11, a water outlet device includes a water inlet mechanism, a flow dividing mechanism and a flow guiding mechanism rotatably connected to the water inlet mechanism;

the flow dividing mechanism is arranged in the water inlet mechanism and penetrates through the axis of the flow guide mechanism;

the water inlet mechanism comprises a water inlet channel;

the flow dividing mechanism comprises a first water outlet channel;

the flow guide mechanism comprises a second water outlet channel and a third water outlet channel;

when the diversion mechanism moves relative to the diversion mechanism, the water inlet channel is communicated with the first water outlet channel, the second water outlet channel or the first water outlet channel and the third water outlet channel simultaneously.

The utility model discloses a theory of operation lies in:

when the flow dividing mechanism is positioned at the bottom of the movable space in the water inlet mechanism, the water inlet channel is only communicated with the first water outlet channel to form first functional water;

when the flow dividing mechanism is positioned at the top of the movable space in the water inlet mechanism, the water inlet channel is only communicated with the second water outlet channel to form second functional water;

when the shunting mechanism is positioned between the bottom and the top of the movable space in the water inlet mechanism, the water inlet channel is simultaneously communicated with the first water outlet channel and the third water outlet channel to form third functional water.

From the above description, the beneficial effects of the present invention are: the utility model discloses be provided with reposition of redundant personnel mechanism for switch different play water modes at water conservancy diversion mechanism activity in-process, set up reposition of redundant personnel mechanism simultaneously and increased first water channel in limited space, compare in prior art, increased a function water, and do not increase the holistic volume of water installation. When the water inlet channel is only communicated with the first water outlet channel, first functional water can be formed; when the water inlet channel is only communicated with the second water outlet channel, second functional water can be formed; when the water inlet channel is communicated with the first water outlet channel and the third water outlet channel at the same time, third functional water can be formed; the three kinds of functional water are suitable for different application scenes, so that the faucet or other bathroom products can be a multifunctional water outlet device to meet daily needs of users. Compared with the prior art, the utility model discloses simple structure, occupation space is little, on the basis that does not increase occupation space, has increased the play water of third kind function water, realizes switching between multiple play water mode, more has use value.

Furthermore, a mounting hole is formed in the flow guide mechanism;

the mounting hole is provided with a step;

the shunting mechanism penetrates through the mounting hole and is rotatably abutted against the ladder.

Further, the step comprises a first step surface, a second step surface and a third step surface;

the first step surface, the second step surface and the third step surface are sequentially arranged from the side where the flow guide mechanism is located to the water inlet mechanism;

the first step surface is in smooth transition connection with the second step surface, and the second step surface is in smooth transition connection with the third step surface.

Furthermore, a bulge capable of moving up and down along the ladder is arranged outside one end of the flow distribution mechanism, which is positioned in the flow guide mechanism.

As can be seen from the above description, the diversion mechanism is provided with a mounting hole for allowing the diversion mechanism to pass through the mounting hole, so as to provide support for the diversion mechanism; the mounting hole is provided with a step comprising a first step surface, a second step surface and a third step surface, and the step is used for enabling the bulge to move along the first step surface, the second step surface and the third step surface, so that the position of the flow dividing mechanism is converted in the water inlet mechanism, and switching among different functional water is realized; and the shunting mechanism can automatically change positions up and down under the direct action of the diversion mechanism, so that the transmission between the shunting mechanism and the diversion mechanism is more reliable, the stability is better, the positioning of the shunting mechanism is more accurate, and the number of parts and the occupied space are reduced.

Furthermore, the upper end of the bulge is inserted into the water inlet mechanism.

According to the above description, the protrusions are inserted into the water inlet mechanism, so that the relative position relationship between the diversion mechanism and the water inlet mechanism can be fixed, the stability of the diversion mechanism in the relative rotation process with the diversion mechanism and the water inlet mechanism can be improved, and the diversion mechanism is more reliable, so that stable switching among different water outlet channels can be realized.

Further, the water inlet mechanism comprises a water inlet assembly and a water outlet assembly;

the water inlet assembly is embedded in the water outlet assembly.

From the above description, the water inlet assembly is embedded in the water outlet assembly and is used for enabling the water inlet assembly and the water outlet assembly to form a water inlet mechanism with stable structure, so that water flows stably in the water inlet assembly and the water outlet assembly.

Further, the water inlet assembly comprises an upper water inlet ring, a lower water inlet ring, a first gasket, a second gasket, a press buckle and a third gasket;

the first gasket is embedded at the top of the lower water inlet ring;

the second gasket is embedded in the lower water inlet ring and is positioned below the press buckle;

the third gasket is sleeved outside the lower water inlet ring and positioned inside the water outlet assembly;

the upper water inlet ring is embedded in the top of the lower water inlet ring.

The second gasket is arranged to prevent water from flowing through a gap between the shunting body and the lower water inlet ring, so that water pressure generated when the shower water and the bubble water are formed is reduced, and the water outlet state of the shower water and the bubble water is influenced; the first gasket is used for being matched with the flow dividing mechanism to block the second water outlet channel and the third water outlet channel so as to realize the communication between the water inlet channel and the first water outlet channel; the third packing ring is arranged and used for blocking a gap between the lower water inlet ring and the water outlet assembly, so that the sealing performance is ensured, and the influence on the water outlet state of the functional water caused by the flowing of water through the gap between the lower water inlet ring and the water outlet assembly is avoided.

Furthermore, the water outlet net component is also included;

the water outlet net component is arranged on the lower side of the flow guide mechanism and is respectively communicated with the second water outlet channel and the third water outlet channel.

As can be seen from the above description, the water outlet net assembly is arranged to buffer the water flow so as to reduce the impact force of the formed shower water and bubble water on the skin.

Furthermore, the water outlet net component comprises a filter screen, a first water outlet ring and a second water outlet ring;

the second water outlet ring is sleeved outside the first water outlet ring;

the filter screen is embedded in the first water outlet ring, and the first water outlet ring is inserted in the water outlet of the flow guide mechanism.

As can be seen from the above description, the filter screen is used for filtering large-particle impurities mixed in the water flow, and the second water outlet ring is used for being communicated with the third water outlet channel so as to form shower-shaped water flow for the formed shower water diversion.

Further, still include the pressure components, the pressure components includes fourth packing ring and filter screen, the fourth packing ring the filter screen is installed in proper order in water mechanism top.

As can be seen from the above description, a fourth gasket and a filter screen are provided, wherein the filter screen is used for primarily filtering impurities, and the fourth gasket and the filter screen can pressurize the water flow.

Example one

This embodiment is suitable for use with an externally threaded kitchen faucet or an externally threaded bathroom faucet.

Referring to fig. 1-6, a water outlet device comprises a water inlet mechanism 1, a flow dividing mechanism 3 and a flow guiding mechanism 2 connected with the water inlet mechanism 1;

the flow dividing mechanism 3 is arranged in the water inlet mechanism 1 and passes through the axis of the flow guide mechanism 2;

the water inlet mechanism 1 comprises a water inlet channel 10;

the flow dividing mechanism 3 comprises a first water outlet channel 20;

the diversion mechanism 2 comprises a second water outlet channel 301 and a third water outlet channel 302;

when the flow dividing mechanism 3 moves relative to the flow guiding mechanism 2, the water inlet channel 10 is only communicated with the first water outlet channel 20, the water inlet channel 10 is only communicated with the second water outlet channel 301, or the water inlet channel 10 is simultaneously communicated with the first water outlet channel 20 and the third water outlet channel 302.

Example two

Referring to fig. 1 to 9, a mounting hole 21 is further formed in the flow guide mechanism 2;

a step 211 is arranged on the mounting hole 21;

the shunt mechanism 3 is disposed through the mounting hole 21 and rotatably pressed against the step 211.

Preferably, two steps 211 are symmetrically arranged on the mounting hole 21;

specifically, the step 211 is composed of a first step surface 2111, a second step surface 2112 and a third step surface 2113, the first step surface 2111, the second step surface 2112 and the third step surface 2113 are sequentially arranged from bottom to top in a surrounding manner, and the first step surface 2111 is connected with the second step surface 2112 through a transition inclined surface, and the second step surface 2112 is connected with the third step surface 2113 through a transition inclined surface;

referring to fig. 1, 2 and 8, a protrusion 31 is arranged outside one end of the diversion mechanism 3 in the diversion mechanism 2, and the protrusion 31 can move up and down along the step 211; the upper end of the bulge 31 is inserted in the water inlet mechanism 1.

Preferably, two protrusions 31 are arranged, and the two protrusions 31 are symmetrically arranged on the outer wall of the flow dividing mechanism 3;

referring to fig. 2, 5 and 7, one end of the diversion mechanism 3 in the water inlet mechanism 1 is provided with an annular boss 36 and a blocking platform 32 for blocking the second water outlet channel 301;

referring to fig. 1, the flow dividing mechanism 3 includes a flow dividing body 33 and a resetting piece 34, one end of the resetting piece 34 is installed in the flow dividing body 33, and the other end of the resetting piece is pressed against one side of the water inlet mechanism 1; preferably, the protrusion 31, the blocking table 32 and the shunting body 33 are integrally formed; preferably, the return element 34 is a compression spring.

Referring to fig. 7, the distance a between the annular boss 36 and the water inlet mechanism 1 is 0mm to 0.1mm, the blocking platform 32 is installed outside the annular boss 36, the distance between the blocking platform 32 and the water inlet mechanism 1 is greater than the distance between the boss 36 and the water inlet mechanism 1, the area of the annular boss 36 facing the water inlet mechanism 1 is smaller than the area of the blocking platform 32 facing the water inlet mechanism 1, and the area of the blocking platform 32 facing the water inlet mechanism 1 is smaller than the planar area of the blocking platform 32 facing the diversion mechanism 2, so that the water pressure between the water inlet mechanism 1 and the blocking platform 32 plus the pushing of the reset piece 34 can be greater than the water pressure on the lower side of the blocking platform 32, and the diversion body 33 is pushed to move downwards;

referring to fig. 1, a functional member 35 is installed in the flow dividing body 33, and one end of the restoring member 34 is pressed against the functional member 35, and the other end is pressed against one side of the water inlet mechanism 1.

Specifically, referring to fig. 3, a first annular step 331 and a second annular step 332 are arranged in the flow dividing body 33, the first annular step 331 and the second annular step 332 are sequentially arranged from top to bottom, the diameter of the first annular step 331 is larger than that of the second annular step 332, the lower end of the functional piece 35 is pressed against the first annular step 331, and a water outlet of the flow dividing body 33 is circular and can spray columnar spray water;

referring to fig. 2, the water inlet mechanism 1 includes a water inlet component 11 and a water outlet component 12, one end of the flow dividing mechanism 3 is movably installed in the water inlet component 11, the other end of the flow dividing mechanism is movably arranged to penetrate through the water outlet component 12, and a transition flow passage 40 for communicating the water inlet channel 10 and the second water outlet channel 301 is formed between the water inlet component 11 and the water outlet component 12; the diversion mechanism 2 is connected with the water outlet component 12 in a buckling way.

Specifically, referring to fig. 2 and 9, the water outlet assembly 12 includes a water outlet body 122, the top of the water outlet body 122 is provided with an internal thread 121 for connecting with a faucet, the outer wall of the water outlet body 122 is further provided with an inward-concave accommodating cavity 1221 for installing a gear assembly, the accommodating cavity 1221 is limited in the circumferential direction of the water inlet assembly 11, and the bottom of the water outlet body 122 is provided with a plurality of water outlet holes 1222 for communicating the water inlet channel 10 with the second water outlet channel 301 or communicating the water inlet channel 10 with the third water outlet channel 302;

referring to fig. 1, 6 and 10, the water dispenser further includes a housing 4, the housing 4 is installed outside the water outlet assembly 12 and the flow guide mechanism 2, an air inlet gap 50 is formed between the water outlet assembly 12 and the housing 4, and a plurality of uniformly distributed protrusions 1223 are respectively disposed at upper and lower ends of an outer wall of the water outlet assembly 12, and are used for ensuring that the air inlet gap 50 is always reserved between the water outlet assembly 12 and the housing 4, and between the water outlet assembly 12 and the flow guide mechanism 2, so as to ensure that the air inlet gap 50 is smooth; the air inlet gap 50 is communicated with the second water outlet channel 301, and a metal gasket 7 for increasing air inlet pressure is arranged between the water outlet components 12 of the flow guide mechanism 2.

Specifically, referring to fig. 4, 8 and 9, the diversion mechanism 2 is rotatably clamped with the water outlet assembly 12; the diversion mechanism 2 is connected with the shell 4 through a buckle, namely a male buckle 201 on the outer side surface of the diversion mechanism 2 is clamped into a female buckle 401 on the inner wall of the shell 4, specifically, the inner wall of the shell 4 is provided with an upper limiting table 41 and a lower limiting table 42, the female buckle 401 is arranged on the side wall of the upper limiting table 41, a limiting groove 2011 matched with the lower limiting table 42 is arranged on the male buckle 201 on the outer side of the diversion mechanism 2, the male buckle 201 is inserted into the female buckle 401 and continuously moves downwards until the lower limiting table 42 is embedded into the limiting groove 2011, and the upper end of the male buckle 201 is limited in the female buckle 401, so that the diversion mechanism 2 can rotate along with the rotation of the shell 4;

referring to fig. 3 and 5, a first water inlet cavity 22 and a second water inlet cavity 23 are arranged in the diversion mechanism 2, and the first water inlet cavity 22 and the second water inlet cavity 23 are arranged adjacently.

Referring to fig. 2, the water inlet assembly 11 includes an upper water inlet ring 111, a lower water inlet ring 112, a first gasket 113, a second gasket 114, a press button 115, and a third gasket 116; the first gasket 113 is embedded at the top of the lower water inlet ring 112, and the upper water inlet ring 111 is embedded in the top of the lower water inlet ring 112; the press buckle 115 is horizontally inserted into the water outlet of the lower water inlet ring 112, and the second gasket 114 is embedded in the lower water inlet ring 112 and positioned below the press buckle 115; the water outlet component 12 is sleeved outside the lower water inlet ring 112; the third gasket 116 is sleeved outside the lower water inlet ring 112 and inside the water outlet assembly 12; the upper ends of the two protrusions 31 are clamped in the lower end of the lower water inlet ring 112, so that the split fluid 33 is fixed.

Referring to fig. 2, further comprising a water outlet net assembly 5 and a pressurizing assembly 6;

the water outlet net component 5 is installed at the lower side of the flow guiding mechanism 2 and communicated with the second water outlet channel 301.

The water outlet net assembly 5 comprises a lower filter net 51, a first water outlet ring 52 and a second water outlet ring 53;

the second water outlet ring 53 is sleeved outside the first water outlet ring 52 and is positioned in the water outlet of the second water inlet cavity 23;

the lower filter screen 51 is embedded in the first water outlet ring 52, and the first water outlet ring 52 is inserted in the water outlet of the first water inlet cavity 22 and is clamped with the flow guide mechanism 2;

the pressurizing assembly 6 comprises a fourth gasket 61 and an upper filter screen 62, and the fourth gasket 61 and the upper filter screen 62 are sequentially arranged on the top of the water inlet assembly 11.

Specifically, the second water outlet channel 301 is communicated with the first water outlet ring 52, and the third water outlet channel 302 is communicated with the second water outlet ring 53.

The specific implementation process of the embodiment is as follows:

referring to fig. 1 and 8, when the protrusion 31 abuts against the first step surface 2111, the bottom of the blocking platform 32 abuts against the water outlet of the upper water inlet ring 111, the transition flow channel 40 is closed, the water inlet channel 10 is communicated with the first water outlet channel 20, and spray water or columnar water in other forms can be formed according to the actual function of the functional element 35, and the functional element 35 in this embodiment can form spray water;

referring to fig. 3 and 8, the housing 4 is rotated to drive the diversion mechanism 2 to rotate, so that the protrusion 31 abuts against the second step surface 2112, the blocking platform 32 is located in the middle of the upper water inlet ring 111, and the water inlet channel 10 is simultaneously communicated with the first water outlet channel 20, the transition flow channel 40 and the third water outlet channel 302 to form the shower;

referring to fig. 5 and 8, the housing 4 is rotated to drive the diversion mechanism 2 to rotate, so that the protrusion 31 abuts against the third step surface 2113, at this time, the top of the diversion body 33 abuts against the lower side of the upper water inlet ring 111, the water inlet channel 10 is simultaneously communicated with the first water outlet channel 20, the transition flow channel 40 and the second water outlet channel 301, and when water flows into the second water outlet channel 301 from the transition flow channel 40, gas is sucked from the air inlet gap 50 to form bubble water.

EXAMPLE III

Referring to fig. 11, in the present embodiment, the internal thread of the water outlet body 122 is provided as an external thread for connection with a faucet of an internal thread type.

To sum up, the utility model provides a pair of water outlet device through setting up the reposition of redundant personnel, block platform and arch for with the ladder cooperation, realize the change of three gear, and then realize switching between different exhalant canal, obtain the water of three kinds of different functions. The utility model discloses the linkage process is simple, through rotatory alright realize the conversion of three kinds of different states waters, the simple operation, richenes the bathroom and goes out the water outlet means's play water mode, satisfies user's different user demands, on the basis that does not increase occupation space, has increased a functional water through the reposition of redundant personnel, and the water pressure of atomizing is compared in the water pressure of bubble water and flower watering bigger promptly, is applicable to and erodees the object that the surface attachment has stubborn spot.

The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims (8)

1. A water outlet device is characterized by comprising a water inlet mechanism, a flow dividing mechanism and a flow guide mechanism which is rotatably connected with the water inlet mechanism;

the flow dividing mechanism is arranged in the water inlet mechanism and penetrates through the axis of the flow guide mechanism;

the water inlet mechanism comprises a water inlet channel;

the flow dividing mechanism comprises a first water outlet channel;

the flow guide mechanism comprises a second water outlet channel and a third water outlet channel;

when the diversion mechanism moves relative to the diversion mechanism, the water inlet channel is communicated with the first water outlet channel, the second water outlet channel or the first water outlet channel and the third water outlet channel simultaneously;

the flow guide mechanism is internally provided with a mounting hole;

the mounting hole is provided with a step;

the flow dividing mechanism penetrates through the mounting hole and can be rotatably abutted against the ladder;

the step comprises a first step surface, a second step surface and a third step surface;

the first step surface, the second step surface and the third step surface are sequentially arranged from the side where the flow guide mechanism is located to the water inlet mechanism;

the first step surface is in smooth transition connection with the second step surface, and the second step surface is in smooth transition connection with the third step surface.

2. The water outlet device as claimed in claim 1, wherein a protrusion capable of moving up and down along the step is provided at one end of the diversion mechanism inside the diversion mechanism.

3. The water outlet device as claimed in claim 2, wherein the upper end of the protrusion is inserted into the water inlet mechanism.

4. The water discharge device according to claim 1, wherein the diversion mechanism includes a water outlet hole, and during the rotation of the diversion mechanism relative to the diversion mechanism, the water inlet channel is respectively and independently communicated with the second water discharge channel or the third water discharge channel through the water outlet hole.

5. The water output device of claim 1, wherein the water input mechanism comprises a water input assembly and a water output assembly;

the water inlet assembly is embedded in the water outlet assembly.

6. The water outlet device of claim 5, wherein the water inlet assembly comprises an upper water inlet ring, a lower water inlet ring, a first gasket, a second gasket, a press buckle and a third gasket;

the first gasket is embedded at the top of the lower water inlet ring;

the second gasket is embedded in the lower water inlet ring and is positioned below the press buckle;

the third gasket is sleeved outside the lower water inlet ring and positioned inside the water outlet assembly;

the upper water inlet ring is embedded in the top of the lower water inlet ring.

7. The water output device of claim 1, further comprising a water output net assembly;

the water outlet net component is arranged on the lower side of the flow guide mechanism and communicated with the second water outlet channel.

8. The water output device of claim 7, wherein the water output net assembly comprises a filter net, a first water output ring and a second water output ring;

the second water outlet ring is sleeved outside the first water outlet ring;

the filter screen is embedded in the first water outlet ring, and the first water outlet ring is inserted in the water outlet of the flow guide mechanism.

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