CN219386520U

CN219386520U - Multifunctional bubbler

Info

Publication number: CN219386520U
Application number: CN202320669851.XU
Authority: CN
Inventors: 李军
Original assignee: Ningbo Jiuda Sanitary Ware Co ltd
Current assignee: Ningbo Jiuda Sanitary Ware Co ltd
Priority date: 2023-03-22
Filing date: 2023-03-22
Publication date: 2023-07-21
Anticipated expiration: 2033-03-22

Abstract

The utility model belongs to the technical field of bathroom equipment, and relates to a multifunctional bubbler, which comprises a water inlet component and a water outlet component which are rotationally connected, wherein the water outlet component comprises a water outlet shell and a bubbling component arranged in the water outlet shell, an annular point column water outlet cavity is formed between the water outlet shell and the bubbling component, a bubble water outlet cavity is formed in the bubbling component, a water separating body is fixed at the lower end of the water inlet component, a water outlet body matched with the water separating body is fixed at the upper end of the water outlet component, a plurality of water separating holes are circumferentially arranged on the water separating body, a plurality of first water outlet holes communicated with the point column water outlet cavity and a plurality of second water outlet holes communicated with the bubble water outlet cavity are circumferentially arranged on the water outlet body, and when the water separating holes are circumferentially rotated, the water separating holes are respectively communicated with the first water outlet holes and the second water outlet Kong Jiaoti. The multifunctional bubbler provided by the utility model has the advantages of simple structure, convenience in switching and good flushing effect.

Description

Multifunctional bubbler

Technical Field

The utility model belongs to the technical field of bathroom equipment, and relates to a multifunctional bubbler.

Background

The bubbler is a water outlet device installed at a bathroom terminal through which water with bubbles can be outputted. The bubbler can fully mix the flowing water and air, has larger contact area and is soft and does not splash when washing hands, improves the flushing force of water flow and ensures that the discharged water is soft and does not splash. However, in some situations, the user still desires to use other forms of water, such as column water, and the bubbler needs to be designed to be switchable to meet the needs of different situations. When the bubbler is designed to be multifunctional, the structure becomes too complex, and the switching is inconvenient.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides the multifunctional bubbler which has the advantages of simple structure, convenient switching and good flushing effect.

In order to solve the technical problems, the aim of the utility model is realized by the following technical scheme:

the utility model provides a multifunctional bubbler, includes the inlet water subassembly and the play water subassembly that rotate the connection, play water subassembly includes the play water casing and sets up the foaming subassembly in play water casing, form annular some post water play water cavity between play water casing and the foaming subassembly, form bubble water play water cavity in the foaming subassembly, the lower extreme of inlet water subassembly is fixed with the water diversion body, the upper end of play water subassembly is fixed with the play water body with water diversion body complex, circumference is provided with a plurality of water diversion holes on the water diversion body, circumference is provided with a plurality of first apopores and a plurality of second apopores with bubble water play water cavity intercommunication on the play water body with some post water play water cavity intercommunication, and during circumference rotation, the water diversion hole communicates with first apopore and second play water Kong Jiaoti respectively.

In the multifunctional bubbler, the water inlet component comprises a screw joint, a flow limiting piece, a filter screen and the like, and a water inlet cavity is formed between the water inlet component and the water distribution body; the foaming component comprises a water distribution sheet, a stainless steel net sheet, a water outlet surface with an air inlet channel and the like.

In the multifunctional bubbler, a plurality of first water outlet cavities communicated with the water outlet cavities of the point columns and a plurality of second water outlet cavities communicated with the water outlet cavities of the bubble water are arranged on the water outlet body, the first water outlet cavities are correspondingly communicated with a first water outlet cavity respectively, and the second water outlet cavities are correspondingly communicated with a second water outlet cavity in a distributed mode.

In the multifunctional bubbler, a sealing element is arranged between the lower surface of the water diversion body and the first water outlet and the second water outlet, the sealing element comprises a plurality of sealing rings encircling the first water outlet or the second water outlet, a groove for placing the sealing element is arranged on the upper surface of the water outlet, and the sealing element is of an integrated plane structure.

In the multifunctional bubbler, the water diversion holes, the first water outlet holes and the second water outlet holes are all three, the water diversion holes are uniformly circumferentially arranged on the water diversion body, and the first water outlet holes and the second water outlet holes are uniformly circumferentially and alternately arranged on the water outlet body. The interval between the adjacent water diversion holes is 120 degrees, and the interval between the adjacent first water outlet holes and the adjacent second water outlet holes is 60 degrees.

In the multifunctional bubbler, the middle part of the water outlet body downwards extends to form a water guide column, the water guide column divides the bubble water outlet cavity into annular structures, a columnar water outlet cavity is formed in the water guide column, a plurality of third water outlet holes communicated with the columnar water outlet cavity are circumferentially arranged on the water outlet body, and when the circumference rotates, the water distribution holes are respectively communicated with the first water outlet holes, the second water outlet holes and the third water outlet Kong Jiaoti.

In the multifunctional bubbler, the axis of the third water outlet is parallel to the axis of the water guide column, and communication holes distributed along the radial direction are arranged between the third water outlet and the water guide column.

In the multifunctional bubbler, a sealing element is arranged between the lower surface of the water diversion body and the first water outlet, the second water outlet and the third water outlet, the sealing element comprises a plurality of sealing rings encircling the first water outlet, the second water outlet or the third water outlet, a groove for placing the sealing element is arranged on the upper surface of the water outlet, and the sealing element is of an integrated plane structure.

In the multifunctional bubbler, the water diversion holes, the first water outlet holes, the second water outlet holes and the third water outlet holes are all arranged in two, the water diversion holes are circumferentially and uniformly arranged on the water diversion body, and the first water outlet holes, the second water outlet holes and the third water outlet holes are circumferentially and uniformly and alternately arranged on the water outlet body. The interval between the water diversion holes is 180 degrees, and the interval between the adjacent first water outlet holes, second water outlet holes and third water outlet holes is 60 degrees.

In the multifunctional bubbler, a spray inner core is arranged in the water guide column.

Compared with the prior art, the utility model has the following beneficial effects:

the utility model improves the structure of the bubbler, switches waterways through the circumferential rotation of the water separating body and the water outlet body, and has different water outlet effects which are alternately appeared in the 360-degree rotation process, thereby being convenient to switch. In addition, the waterways are uniformly arranged within the range of 360 degrees, so that the impact force of the discharged water is larger, and the flushing effect is better. The utility model also provides a plurality of water outlet combinations so as to meet the use selection requirements in more scenes.

Drawings

FIG. 1 is a cross-sectional view of a first embodiment of the utility model;

FIG. 2 is a perspective view of a sub-body and an effluent body according to a first embodiment of the present utility model;

FIG. 3 is an exploded view of FIG. 2;

FIG. 4 is a cross-sectional view of a second embodiment of the utility model;

FIG. 5 is a perspective view of a sub-body and an effluent body according to a second embodiment of the present utility model;

FIG. 6 is an exploded view of FIG. 2;

reference numerals: 1. a water inlet assembly; 2. a water outlet assembly; 21. a water outlet shell; 22. a foaming assembly; 23. a water outlet cavity of the spot column water; 24. a bubble water outlet cavity; 3. dividing the water body; 31. a water dividing hole; 4. a water outlet body; 41. a first water outlet hole; 42. a second water outlet hole; 43. a first water outlet cavity; 44. a second water outlet cavity; 45. a water guide column; 46. a columnar water outlet cavity; 47. a third water outlet hole; 48. a communication hole; 5. and a seal.

Detailed Description

The utility model is further described in the following by way of specific embodiments with reference to the accompanying drawings, see fig. 1-6:

example 1

Referring to fig. 1-3, a multifunctional bubbler comprises a water inlet assembly 1 and a water outlet assembly 2 which are rotatably connected, wherein the water outlet assembly 2 comprises a water outlet shell 21 and a bubbling assembly 22 arranged in the water outlet shell 21, an annular point column water outlet cavity 23 is formed between the water outlet shell 21 and the bubbling assembly 22, a bubble water outlet cavity 24 is formed in the bubbling assembly 22, a water diversion body is fixed at the lower end of the water inlet assembly 1, a water outlet body 4 matched with the water diversion body is fixed at the upper end of the water outlet assembly 2, a plurality of water diversion holes 31 are circumferentially arranged on the water diversion body, a plurality of first water outlet holes 41 communicated with the point column water outlet cavity 23 and a plurality of second water outlet holes 42 communicated with the bubble water outlet cavity 24 are circumferentially arranged on the water outlet body 4, and the water diversion holes 31 are alternately communicated with the first water outlet holes 41 and the second water outlet holes 42 respectively when the water diversion body rotates circumferentially.

When the water diversion device works, the water outlet assembly 2 rotates relative to the water inlet assembly 1, the water outlet body 4 rotates relative to the water diversion body, when the water diversion hole 31 is communicated with the first water outlet hole 41, water enters the water diversion body through the water inlet assembly 1, flows into the first water outlet hole 41 through the water diversion hole 31 on the water diversion body, flows into the point column water outlet cavity 23 through the first water outlet hole 41, and finally, the point column water is output from the point column water outlet cavity 23; when the water diversion holes 31 are communicated with the second water outlet holes 42, water enters the water diversion body through the water inlet component 1, flows into the second water outlet holes 42 through the water diversion holes 31 on the water diversion body, flows into the bubble water outlet cavity 24 through the second water outlet holes 42, bubbles through the component of the mixed air in the bubble water outlet cavity 24, and finally outputs bubble water.

The water inlet component 1 comprises a screw joint, a flow limiting piece, a filter screen and the like, a water inlet cavity is formed between the water inlet component 1 and the water diversion body, water enters the water inlet cavity after passing through the water inlet component 1, and then enters the water diversion hole 31 from the water inlet cavity; the foaming assembly 22 comprises a water dividing plate, a stainless steel mesh, a water outlet surface with an air inlet channel and the like, and water entering the bubble water outlet cavity 24 passes through the water dividing plate and downwards impacts the stainless steel mesh to be effectively mixed with air inlet on the water outlet surface to form water flow with rich foam.

The water outlet body 4 is provided with a plurality of first water outlet cavities 43 communicated with the point column water outlet cavity 23 and a plurality of second water outlet cavities 44 communicated with the bubble water outlet cavities 24, the first water outlet holes 41 are correspondingly communicated with one first water outlet cavity 43 respectively, and the second water outlet holes 42 are correspondingly communicated with one second water outlet cavity 44.

The sealing piece 5 is arranged between the lower surface of the water diversion body and the first water outlet hole 41 and the second water outlet hole 42, the sealing piece 5 comprises a plurality of sealing rings encircling the first water outlet hole 41 or the second water outlet hole 42, a groove for placing the sealing piece 5 is arranged on the upper surface of the water diversion body 4, and the sealing piece 5 is of an integrated plane structure. When the water diversion hole 31 is communicated with the first water outlet hole 41, the second water outlet hole 42 is in a sealing state with the lower surface of the water diversion body, and when the water diversion hole 31 is communicated with the second water outlet hole 42, the first water outlet hole 41 is in a sealing state with the lower surface of the water diversion body.

Referring to fig. 2 and fig. 3, the number of the water diversion holes 31, the number of the first water outlet holes 41 and the number of the second water outlet holes 42 are three, the water diversion holes 31 are circumferentially and uniformly arranged on the water diversion body, and the first water outlet holes 41 and the second water outlet holes 42 are circumferentially and uniformly and alternately arranged on the water outlet body 4. The adjacent water distribution holes 31 are spaced by 120 degrees, and the adjacent first water outlet holes 41 and second water outlet holes 42 are spaced by 60 degrees. When 360 degrees of rotation, water flow is switched once every 60 degrees, and the water diversion holes 31 are communicated with the first water outlet holes 41, the second water outlet holes 42, the first water outlet holes 41 and the second water outlet holes 42 in sequence.

Example 2

Referring to fig. 4-6, a multifunctional bubbler comprises a water inlet component 1 and a water outlet component 2 which are rotatably connected, wherein the water outlet component 2 comprises a water outlet shell 21 and a bubbling component 22 arranged in the water outlet shell 21, an annular point column water outlet cavity 23 is formed between the water outlet shell 21 and the bubbling component 22, a bubble water outlet cavity 24 is formed in the bubbling component 22, a water diversion body is fixed at the lower end of the water inlet component 1, a water outlet body 4 matched with the water diversion body is fixed at the upper end of the water outlet component 2, a plurality of water diversion holes 31 are circumferentially arranged on the water diversion body, a water guide column 45 downwardly extends from the middle part of the water outlet body 4, the water guide column 45 divides the bubble water outlet cavity 24 into annular structures, a plurality of first water outlet holes 41 communicated with the point column water outlet cavity 23, a plurality of second water outlet holes 42 communicated with the bubble water outlet cavity 24, a plurality of third water outlet holes 47 communicated with the columnar water outlet cavity 46 are circumferentially arranged on the water outlet body 4, and when the water diversion body rotates, the water diversion column water outlet holes 31 and the third water outlet holes 47 are alternately communicated with the first water diversion holes 41 and the third water outlet holes 47.

When the water diversion device works, the water outlet assembly 2 rotates relative to the water inlet assembly 1, the water outlet body 4 rotates relative to the water diversion body, when the water diversion hole 31 is communicated with the first water outlet hole 41, water enters the water diversion body through the water inlet assembly 1, flows into the first water outlet hole 41 through the water diversion hole 31 on the water diversion body, flows into the point column water outlet cavity 23 through the first water outlet hole 41, and finally, the point column water is output from the point column water outlet cavity 23; when the water diversion holes 31 are communicated with the second water outlet holes 42, water enters the water diversion body through the water inlet component 1, flows into the second water outlet holes 42 through the water diversion holes 31 on the water diversion body, flows into the bubble water outlet cavity 24 through the second water outlet holes 42, bubbles through the component of the mixed air in the bubble water outlet cavity 24, and finally outputs bubble water; when the water diversion hole 31 is communicated with the third water outlet 47, water enters the water diversion body through the water inlet component 1, flows into the third water outlet 47 through the water diversion hole 31 on the water diversion body, flows into the columnar water outlet cavity 46 through the third water outlet 47, and finally, columnar water is output from the columnar water outlet cavity 46.

The third water outlet hole 47 communicates with the columnar water outlet chamber 46 by the following structure: the axis of the third water outlet hole 47 is parallel to the axis of the water guide column 45, and communication holes 48 distributed along the radial direction are arranged between the third water outlet hole 47 and the water guide column 45.

The sealing element 5 is arranged between the lower surface of the water diversion body and the first water outlet 41, the second water outlet 42 and the third water outlet 47, the sealing element 5 comprises a plurality of sealing rings surrounding the first water outlet 41, the second water outlet 42 or the third water outlet 47, a groove for placing the sealing element 5 is arranged on the upper surface of the water diversion body 4, and the sealing element 5 is of an integrated plane structure. When the water diversion hole 31 is communicated with the first water diversion hole 41, the second water diversion hole 42 and the third water diversion hole 47 are in a sealing state with the lower surface of the water diversion body, when the water diversion hole 31 is communicated with the second water diversion hole 42, the first water diversion hole 41 and the third water diversion hole 47 are in a sealing state with the lower surface of the water diversion body, and when the water diversion hole 31 is communicated with the third water diversion hole 47, the first water diversion hole 41 and the second water diversion hole 42 are in a sealing state with the lower surface of the water diversion body.

The number of the water diversion holes 31, the first water outlet 41, the second water outlet 42 and the third water outlet 47 is two, the water diversion holes 31 are circumferentially and uniformly arranged on the water diversion body, and the first water outlet 41, the second water outlet 42 and the third water outlet 47 are circumferentially and uniformly and alternately arranged on the water outlet 4. The water diversion holes 31 are spaced 180 degrees, and the adjacent first water outlet holes 41, second water outlet holes 42 and third water outlet holes 47 are spaced 60 degrees. When 360 degrees of rotation, water flow is switched once every 60 degrees, and the water diversion holes 31 are communicated with the first water outlet holes 41, the second water outlet holes 42, the third water outlet holes 47, the first water outlet holes 41, the second water outlet holes 42 and the third water outlet holes 47 in sequence.

A spray core may be disposed in the water guide column 45, and the columnar water outlet chamber 46 may not output columnar water any more, but may output spray water.

The above embodiments are only preferred embodiments of the present utility model, and are not intended to limit the scope of the present utility model in this way, therefore: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims

1. The utility model provides a multifunctional bubbler, includes intake subassembly (1) and play water subassembly (2) that rotate to be connected, play water subassembly (2) include play water casing (21) and set up foaming subassembly (22) in play water casing (21), form annular some post water play water chamber (23) between play water casing (21) and foaming subassembly (22), form bubble water play water chamber (24) in foaming subassembly (22), a serial communication port, the lower extreme of intake subassembly (1) is fixed with water knockout drum (3), the upper end of play water subassembly (2) is fixed with water knockout drum (4) with water knockout drum (3) complex, circumference is provided with a plurality of water knockout drum (31) on water knockout drum (3), circumference is provided with a plurality of first water knockout drum (41) and a plurality of second water knockout drum (42) with bubble water play water chamber (24) intercommunication on water knockout drum (4), and when circumference rotates, water knockout drum (31) respectively with first water knockout drum (41) and second water play hole (42) intercommunication alternately.

2. A multifunctional bubbler as claimed in claim 1, wherein the water outlet body (4) is provided with a plurality of first water outlet cavities (43) communicated with the point column water outlet cavities (23) and a plurality of second water outlet cavities (44) communicated with the bubble water outlet cavities (24), the first water outlet cavities (41) are respectively correspondingly communicated with one first water outlet cavity (43), and the second water outlet cavities (42) are correspondingly communicated with one second water outlet cavity (44).

3. A multifunctional bubbler as claimed in claim 2, wherein a sealing member (5) is arranged between the lower surface of the water separator (3) and the first water outlet hole (41) and the second water outlet hole (42), the sealing member (5) comprises a plurality of sealing rings surrounding the first water outlet hole (41) or the second water outlet hole (42), and a groove for placing the sealing member (5) is arranged on the upper surface of the water separator (4).

4. A multifunctional bubbler as claimed in claim 2, wherein the number of water diversion holes (31), the number of first water outlet holes (41) and the number of second water outlet holes (42) are three, the water diversion holes (31) are circumferentially and uniformly arranged on the water diversion body (3), and the first water outlet holes (41) and the second water outlet holes (42) are circumferentially and uniformly and alternately arranged on the water outlet body (4).

5. The multifunctional bubbler according to claim 2, wherein the middle part of the water outlet body (4) extends downwards to form a water guide column (45), the water guide column (45) divides the bubble water outlet cavity (24) into annular structures, a columnar water outlet cavity (46) is formed in the water guide column (45), a plurality of third water outlet holes (47) communicated with the columnar water outlet cavity (46) are circumferentially arranged on the water outlet body (4), and when the circumference rotates, the water distribution holes (31) are alternately communicated with the first water outlet holes (41), the second water outlet holes (42) and the third water outlet holes (47) respectively.

6. A multifunctional foamer according to claim 5, characterized in that the axis of the third water outlet opening (47) is arranged parallel to the axis of the water guiding column (45), and that communication holes (48) distributed radially are arranged between the third water outlet opening (47) and the water guiding column (45).

7. A multifunctional foamer according to claim 5, characterized in that a sealing member (5) is arranged between the lower surface of the water separator (3) and the first water outlet (41), the second water outlet (42) and the third water outlet (47), the sealing member (5) comprises a plurality of sealing rings surrounding the first water outlet (41), the second water outlet (42) or the third water outlet (47), and the upper surface of the water separator (4) is provided with a groove for placing the sealing member (5).

8. The multifunctional bubbler according to claim 5, wherein the water diversion holes (31), the first water outlet holes (41), the second water outlet holes (42) and the third water outlet holes (47) are all arranged in two, the water diversion holes (31) are circumferentially uniformly arranged on the water diversion body (3), and the first water outlet holes (41), the second water outlet holes (42) and the third water outlet holes (47) are circumferentially uniformly and alternately arranged on the water outlet body (4).

9. A multifunctional foamer according to claim 5, characterized in that a spray core is provided in the water guiding column (45).