CN107314153B - Quick assembly and disassembly bubbler and tap - Google Patents

Abstract

The invention discloses a rapid assembly and disassembly bubbler and tap, comprising: a stationary module comprising a stationary housing and a first sleeve disposed together; the disassembly module comprises a bubbler liner and a second sleeve which are arranged together; the first sleeve member is sleeved with the second sleeve member, and the first sleeve member and the second sleeve member are matched with a pushing structure; the disassembly module and the fixing module are propped against each other and are provided with elastic pieces, the disassembly module can be pressed upwards, the elastic pieces are combined to elastically reset, the first sleeve piece and the second sleeve piece are driven to be pushed to be matched to realize relative rotation, and the first sleeve piece is locked or the second sleeve piece is released. The invention can be disassembled and assembled by bare hands without the need of human eye alignment.

Description

Quick assembly and disassembly bubbler and tap

Technical Field

The invention relates to a bubbler, in particular to a rapid assembly and disassembly bubbler and a tap.

Background

The water outlet nozzle of the faucet in the prior art is generally provided with a bubbler, the bubbler changes the pipe flow of water at the water outlet nozzle into linear flow, changes the linear flow into jet flow through the pressure of air, and evenly spreads water through water diversion, so that the water is soft. The water is powered by the pressurization of the air, the flow rate of the water is reduced, and the use is not influenced. The bubbler will typically be removed for cleaning after a period of use due to certain impurities contained in the water. However, most bubblers in the prior art can be disassembled and assembled by means of a special wrench and the like, and a small part of bubblers can be disassembled and assembled without tools, but when the bubblers are disassembled and assembled, human eyes are often required to align, so that the operation is inconvenient.

Disclosure of Invention

The invention provides a rapid-assembly and disassembly bubbler and a tap, which overcome the defects of the bubbler in the prior art.

The technical scheme adopted for solving the technical problems is as follows: a quick-release bubbler comprising:

a stationary module comprising a stationary housing and a first sleeve disposed together;

the disassembly module comprises a bubbler liner and a second sleeve which are arranged together;

the first sleeve member is sleeved with the second sleeve member, and the first sleeve member and the second sleeve member are matched with a pushing structure; the disassembly module and the fixing module are propped against each other and are provided with elastic pieces, the disassembly module can be pressed upwards, the elastic pieces are combined to elastically reset, the first sleeve piece and the second sleeve piece are driven to be pushed to be matched to realize relative rotation, and the first sleeve piece is locked or the second sleeve piece is released.

Further, the first sleeve is sleeved outside the second sleeve, the pushing structure comprises a plurality of first matching parts, a plurality of second matching parts and a plurality of third matching parts, the first matching parts are circumferentially distributed on the inner wall of the first sleeve, the second matching parts are circumferentially distributed on the outer wall of the second sleeve, the third matching parts are circumferentially distributed on the outer wall of the second sleeve and are positioned below the second matching parts, and the intervals between the adjacent first matching parts form sliding grooves; the second matching parts or the third matching parts are in pushing fit with the corresponding first matching parts, so that the first sleeve and the second sleeve are driven to rotate relatively, and each second matching part is linked to pass through the corresponding sliding groove upwards and then is embedded on the corresponding first matching part, or each second matching part is linked to be separated from the corresponding first matching part and then is withdrawn from the sliding groove downwards.

Further, the first matching part is provided with a first inclined plane and a second inclined plane, a first guiding part positioned below the first inclined plane and the second inclined plane, a third inclined plane positioned above the first inclined plane and the second inclined plane and a chute; the second matching part is provided with a fourth inclined plane, the second guiding part is positioned below the second guiding part; the third matching part is provided with a fifth inclined plane; the fifth inclined plane is in pushing fit with the first inclined plane in sequence, the fourth inclined plane is in pushing fit with the inclined bottom surface of the chute, or the second guide part is in pushing fit with the first guide part in sequence, the fifth inclined plane is in pushing fit with the first inclined plane, the fourth inclined plane is in pushing fit with the inclined bottom surface of the chute, and each second matching part is linked to pass through the corresponding chute upwards and then slide into the corresponding chute; the third inclined surface is matched with the fourth inclined surface in a pushing way, and the fourth inclined surface is matched with the third inclined surface in a pushing way, so that the second matching parts are linked to be separated from the corresponding first matching parts and are withdrawn downwards from the sliding groove.

Further, the first guide part is in a reverse mountain shape and comprises a sixth inclined plane and a seventh inclined plane, and the seventh inclined plane is coplanar with the second inclined plane; the second guide part is in a ridge shape and comprises an eighth inclined plane and a ninth inclined plane, and when the second guide part is in contact with the first guide part, the eighth inclined plane can be in pushing fit with the seventh inclined plane, or the ninth inclined plane can be in pushing fit with the sixth inclined plane.

Further, the first matching part, the second matching part and the third matching part are respectively of a bump structure.

Further, the first or second sleeve constitutes a rotating member.

Further, the first sleeve member is movably sleeved in the fixed shell, and the second sleeve member is arranged outside the inner container of the bubbler; or,

the first sleeve member is fixedly connected with the fixed shell or integrally formed; the second external member is movably sleeved outside the bubbler inner container, or the bubbler inner container is arranged in an inner container shell, and the second external member is movably sleeved outside the inner container shell.

Further, the side wall of the rotating piece is provided with a mounting groove, and/or the top end and the bottom end of the rotating piece are respectively provided with an arc-shaped or annular convex rib.

Further, the elastic piece is a spring, a spring pressing cap is screwed in the fixed shell, and the spring is fixed through the spring pressing cap; and/or the fixed shell is provided with external threads so as to be screwed on a water outlet nozzle of the water tap; and a sealing gasket is sleeved at the top of the fixed shell.

Further, the disassembling module is in a disassembled state, and the top of the inner container of the bubbler is exposed so as to be convenient for cleaning.

The invention further provides a water tap, which comprises the rapid assembly and disassembly foamer, wherein the fixed shell of the foamer is connected with the water outlet nozzle of the water tap.

Compared with the prior art, the invention has the following beneficial effects:

1. the fixed module and the disassembly module are arranged, the disassembly and assembly can be carried out by bare hands, the alignment of human eyes is not needed, the disassembly and assembly can be realized at any angle, the disassembly and assembly are very convenient, and the problem that the disassembly and assembly convenience is influenced due to the fact that the rotation angle of the disassembly module is too large at will does not exist.

2. The water faucet adopts a modularized design and can be matched with most water faucets.

3. The design of the elastic piece ensures that the disassembly module can be automatically ejected out by pressing during disassembly; the design of the elastic pressing cap can prevent the spring from falling off when the disassembly module pops up, so that the problem of spring loss can be solved.

4. The disassembling module is in a disassembled state, the top of the inner container of the bubbler is exposed, so that the bubbler is convenient to clean, and a user can directly clean by hands or brush with an old toothbrush, so that the problem of water outlet blockage is easily solved.

The invention is described in further detail below with reference to the drawings and examples; a quick-release foamer and faucet of this invention is not limited to the embodiments shown.

Drawings

FIG. 1 is an exploded schematic view of a bubbler of the present invention;

FIG. 2 is a schematic cross-sectional view of a first kit according to an embodiment of the present invention;

FIG. 3 is a schematic structural view of a second kit according to the present invention;

FIG. 4 is a schematic cross-sectional view of a bubbler of one embodiment of the present invention;

FIG. 5 is a schematic view showing a state change of each mating portion during the mounting process according to the embodiment;

FIG. 6 is a schematic view showing a state change of each mating portion during the disassembling process according to the embodiment;

FIG. 7 is an exploded schematic view of a bubbler of the present invention of embodiment two;

FIG. 8 is a schematic cross-sectional view of a first kit according to the second embodiment of the invention;

FIG. 9 is a schematic structural view of a second kit according to the second embodiment of the present invention;

fig. 10 is a schematic cross-sectional view of a bubbler of the present invention of embodiment two.

Detailed Description

Referring to fig. 1-6, a quick-attach and detach bubbler according to the present invention includes:

the fixed module comprises a fixed shell 2 and a first sleeve 5 which are communicated up and down, and the fixed shell and the first sleeve are arranged together;

a disassembly module comprising a bubbler liner 8 and a second sleeve 7 arranged together;

the first sleeve member 5 is in sleeve joint fit with the second sleeve member 7, and the first sleeve member and the second sleeve member are matched with a pushing structure; the disassembly module and the fixing module are propped against each other and are provided with elastic pieces, the disassembly module can be pressed upwards, the elastic pieces are combined to elastically reset, the first sleeve piece and the second sleeve piece are driven to be pushed to be matched to realize relative rotation, and the first sleeve piece is locked or the second sleeve piece is released.

In this embodiment, the definition "set together" is: the two parts are connected in contact (such as threaded connection, sleeving connection, welding, bonding, splicing connection, clamping connection and the like), or the two parts are connected through the middle part (namely the two parts are respectively connected with the middle part in a contact way), or the two parts are integrally formed.

In this embodiment, the first sleeve member 5 is sleeved outside the second sleeve member 7, the pushing structure includes a plurality of first matching portions 51 uniformly distributed along the circumferential direction on the inner wall of the first sleeve member 5, a plurality of second matching portions 71 uniformly distributed along the circumferential direction on the outer wall of the second sleeve member 7, and a plurality of third matching portions 72 uniformly distributed along the circumferential direction on the outer wall of the second sleeve member 7 and located below the second matching portions 71, and the third matching portions 72 and the second matching portions 71 are slightly staggered, and the intervals between adjacent first matching portions 51 form the sliding grooves 52. The second matching parts 71 or the third matching parts 72 are in pushing fit with the corresponding first matching parts 51 to drive the first sleeve 5 and the second sleeve 7 to rotate relatively, and each second matching part 71 is linked to pass through the corresponding sliding groove 52 upwards and then be embedded on the corresponding first matching part 51 (namely, the first sleeve 5 locks the second sleeve 7), or each second matching part 71 is separated from the corresponding first matching part 51 and is withdrawn downwards from the sliding groove 52 (namely, the first sleeve 5 releases the second sleeve 7).

In this embodiment, when the disassembly module is pressed upwards to achieve installation, each second matching portion 71 passes through the corresponding sliding groove 52 upwards respectively, or is in pushing fit with the first matching portion 51 through the third matching portion 72, so as to drive the first sleeve 5 and the second sleeve 7 to rotate relatively, and each second matching portion 71 passes through the corresponding sliding groove upwards respectively; then, the third matching part 72 is in pushing fit with the first matching part 71 to drive the first sleeve 5 and the second sleeve 7 to rotate relatively, and under the reset action of the elastic piece, each second matching part 71 is in pushing fit with the first matching part 51 and is embedded on the corresponding first matching part 51. When the disassembly module is pressed upwards to achieve disassembly, each second matching part 71 moves upwards respectively, each third matching part 72 is in pushing fit with the corresponding first matching part 51 to drive the first sleeve 5 and the second sleeve 7 to rotate relatively, and then, under the reset action of the elastic piece, each second matching part 71 is in pushing fit with the corresponding first matching part 51 to drive the first sleeve 5 and the second sleeve 6 to rotate relatively, and each second matching part 71 is linked to withdraw from the corresponding sliding groove 52 downwards.

In this embodiment, the first engaging portion 51, the second engaging portion 71, and the third engaging portion 72 are respectively in bump structures. The bottom of the first matching portion 51 is provided with a first inclined surface 511 and a second inclined surface 512, and a first guiding portion extends downwards, and the first inclined surface 511 and the second inclined surface 512 are in a side-by-side relationship, and the directions of the two are consistent or basically consistent. The top of the first mating portion 51 is provided with a third inclined surface 513 and a chute 514, the third inclined surface 513 and the chute 514 are in a side-to-side relationship, and the inclined bottom surfaces 5141 of the third inclined surface 513 and the chute 514 are oriented in a uniform or substantially uniform manner. The top of the second engaging portion 71 is provided with a second guiding portion, the bottom is provided with a fourth inclined surface 711, and the top of the third engaging portion 72 is provided with a fifth inclined surface 721. Sequentially pushing and matching with the first inclined plane 511 through the fifth inclined plane 721, pushing and matching with the inclined bottom surface 5141 of the chute 514 through the fourth inclined plane 711, or pushing and matching with the first guide part through the second guide part, pushing and matching with the first inclined plane 511 through the fifth inclined plane 721, pushing and matching with the inclined bottom surface 5141 of the chute 514 through the fourth inclined plane 711, and sliding into the corresponding chute 514 after upwards passing through the corresponding chute 52 through each second matching part 71; the fifth inclined surface 721 is in pushing fit with the third inclined surface 513, the fourth inclined surface 711 is in pushing fit with the third inclined surface 513, and the second matching parts 71 are linked to be separated from the corresponding first matching parts 51 and are withdrawn downwards from the sliding groove 52.

In this embodiment, the first guiding portion is in a reverse mountain shape, and includes a sixth inclined plane 515 and a seventh inclined plane 516 that are inclined downward, the slopes of the sixth inclined plane 515 and the seventh inclined plane 516 are positive-negative, and the seventh inclined plane 516 is coplanar with the second inclined plane 512. The second guiding part is in a ridge shape and comprises an eighth inclined plane 712 and a ninth inclined plane 713 which are inclined upwards, and the slopes of the eighth inclined plane 712 and the ninth inclined plane 713 are positive and negative. The eighth inclined surface 712 may be in push-fit with the seventh inclined surface 516 or the ninth inclined surface 713 may be in push-fit with the sixth inclined surface 515 when the second guide portion is in contact with the first guide portion. Because the first guiding part and the second guiding part respectively comprise two inclined planes, the first sleeve member 5 and the second sleeve member 7 can realize bidirectional relative rotation, thereby further improving the convenience and the randomness of assembling and disassembling the bubbler. In addition, the first guiding portion and the second guiding portion may each include only one mating inclined surface, and if the first guiding portion and the second guiding portion each include only one mating inclined surface, the first sleeve member 5 and the second sleeve member 7 may realize unidirectional relative rotation.

In this embodiment, the first sleeve 5 is connected to the fixed housing 2 (both may be integrally formed). Specifically, the top of the first external member 5 is provided with external screw threads, the bottom of the fixed housing 2 is provided with internal screw threads, the external screw threads and the internal screw threads are in screw fit, and the fixed housing 2 is also sleeved with a gasket 10 for sealing fit with the first external member 5. The elastic piece is a spring 3, the top of the inner side of the fixed shell 2 is screwed with a spring pressing cap 4, and the spring 3 is fixed through the spring pressing cap 4, so that the spring 3 cannot be separated from the fixed shell 2 due to the disassembly of the disassembly module, and the spring 3 is prevented from being lost.

In this embodiment, the second sleeve 7 constitutes a rotating member, i.e. the second sleeve 7 is rotatable about its axis. Specifically, the dismounting module further comprises an inner container shell 9, the bubbler inner container 8 is screwed in the inner container shell 9, and the second sleeve 7 is movably sleeved outside the inner container shell 9 (besides, the second sleeve 7 can also be directly movably sleeved outside the bubbler inner container). The top of the spring 3 is sleeved in the spring pressing cap 4, and the bottom of the spring 3 is sleeved in the inner container shell 9 and is propped against the inner container 8 of the bubbler. The liner shell 9 is also sleeved with a sealing ring, and the sealing ring is specifically a V-shaped sealing ring 6 and is used for being in sealing fit with the inner wall of the second sleeve 7. The second sleeve 7 is provided with a mounting groove 73 on the side wall so that the second sleeve 7 is sleeved outside the liner housing 9. The top of the spring 3 is sleeved in the spring pressing cap 4, and the bottom of the spring 3 is sleeved in the inner container shell 9 and abuts against the inner container 8 of the bubbler.

In this embodiment, the top of the fixed housing 2 is provided with external threads to be screwed to the tap. The top end of the fixed shell 2 is sleeved with a sealing gasket 1 so as to be matched with a tap water outlet nozzle in a sealing way.

The installation process of the invention is as follows:

assembling and fixing the module: screwing the spring pressing cap 4 into the fixed shell 2 and loading the spring 3; the gasket 10 is sleeved into the fixed shell 2, and the first sleeve 5 is screwed on the fixed shell 2; the gasket is sleeved on the fixed shell 2.

Assembling and disassembling the module: the bubbler liner 8 is screwed into the liner shell 9, the second sleeve 7 is sleeved outside the liner shell 9, and the Y-shaped sealing ring 6 is sleeved outside the second sleeve 7.

The fixed shell 2 is screwed on the water outlet nozzle of the water tap to finish the installation of the fixed module; the disassembly module is sleeved into the fixed shell 2 at any angle, and is pressed upwards to compress the spring 3. When the second sleeve 7 is initially sleeved in the first sleeve 5, if the second matching parts 71 are staggered from the sliding grooves 52 on the first sleeve 5 one by one, as the second sleeve 7 moves upwards, the eighth inclined surface 712 of each second matching part 71 contacts with the seventh inclined surface 516 of the first matching part 51 (or the ninth inclined surface 713 of each second matching part 71 contacts with the sixth inclined surface 515 of the first matching part 51), as shown in the small a diagram of fig. 5, as the second sleeve 7 continues to move upwards, the eighth inclined surface 712 of each second matching part 71 pushes the seventh inclined surface 516 of the first matching part 51, so that the second sleeve 7 is driven to rotate by a certain angle, and each second matching part 71 thereon is driven to rotate into the sliding groove 52 of the first sleeve 5, as shown in the small b diagram of fig. 5; as the second sleeve 7 continues to move upwards, each second mating portion 71 passes through the corresponding chute 52 upwards, and the fifth inclined surface 721 of each third mating portion 72 contacts and pushes the first inclined surface 511 of the corresponding first mating portion 51 to contact, so as to drive the second sleeve 7 to rotate a certain angle, and drive each second mating portion 71 to rotate above the corresponding first mating portion 51, as shown in fig. 5 c. As the removal module is released by the hand of the person, the spring 3 is reset, so as to drive the removal module to move downwards, the fourth inclined surface 711 of each second matching part 71 is contacted with the inclined bottom surface 5141 of the corresponding chute 514, and pushes the inclined bottom surface 5141, so as to drive the second sleeve 7 to rotate a certain angle until each second matching part 71 completely slides into the corresponding chute 514, as shown in the d small diagram of fig. 5, so as to finish the installation of the removal module.

When the second sleeve 7 is initially sleeved in the first sleeve 5, if each second matching part 71 on the second sleeve 7 is just opposite to each sliding groove 52 on the first sleeve 5, each second matching part 71 passes through the corresponding sliding groove 52 upwards along with the upward movement of the second sleeve 7, then the fifth inclined surface 721 of each third matching part 72 contacts with the first inclined surface 511 of the corresponding first matching part 51, and the fifth inclined surface 721 pushes the first inclined surface 511 upwards along with the continuous upward movement of the second sleeve 7, so that the second sleeve 7 is driven to rotate by a certain angle, and each second matching part 71 is driven to rotate above the corresponding first matching part 51; as the user releases the disassembly module, the spring 3 resets, driving the disassembly module to move downwards, the fourth inclined surface 711 of each second matching part 71 contacts with the inclined bottom surface 5141 of the corresponding chute 514, and pushes the inclined bottom surface 5141, driving the second sleeve 7 to rotate a certain angle until each second matching part 71 slides into the corresponding chute 514 completely, thereby completing the assembly of the disassembly module.

The disassembly process of the invention is as follows:

pressing the dismounting module upwards compresses the spring 3, during which each second mating portion 71, as the second sleeve 7 moves upwards, respectively withdraws upwards out of the corresponding chute 514, and the fifth inclined surface 721 of each third mating portion 72 comes into contact with the second inclined surface 512 of the corresponding first mating portion 51, as shown in the small a-plot of fig. 6; as the second sleeve 7 continues to move upwards, the fifth inclined surface 721 of the third mating portion 72 pushes the second inclined surface 512 of the first mating portion 51 upwards, so as to enable the second sleeve 7 to rotate by a certain angle; as the hand stops pressing the disassembly module upward, the spring 3 resets, driving the disassembly module downward, the fourth inclined surface 711 of the second fitting 71 contacts the third inclined surface 513 of the first fitting 51, as shown in fig. 6 b; along with the second sleeve 7 continuing to move downwards, the fourth inclined surface 711 pushes the third inclined surface 513, so that the second sleeve 7 is driven to rotate again by a certain angle, and each first matching part 71 of the second sleeve is driven to rotate until falling into the corresponding sliding groove 52 of each first sleeve 5, at this time, under the action of the restoring force of the spring 3, each second matching part 71 respectively withdraws downwards from the corresponding sliding groove 52, and the disassembly process of the disassembly module is completed.

After the disassembly module is taken down, if the fixing module is required to be taken down together, the fixing shell 2 is only required to be screwed off from the water outlet nozzle of the faucet.

The invention relates to a tap, which is provided with the rapid assembly and disassembly foamer, in particular to a fixed shell 2 of the foamer which is screwed on a tap nozzle of the tap.

Example two

Referring to fig. 7 to 10, a quick detachable bubbler according to the present invention is different from the first embodiment in that: the first sleeve 5 constitutes a rotating member, i.e. the first sleeve 5 is rotatable about its axis. Specifically, the first sleeve member 5 is movably sleeved in the fixed housing 2. The inner wall of the fixed casing 2 is provided with an annular accommodating groove, the first sleeve member 5 is limited in the accommodating groove, and in order to facilitate the first sleeve member 5 to be installed in the accommodating groove in the fixed casing 2, the side wall of the first sleeve member 5 is provided with an installation groove 53. The top and bottom ends of the first sleeve 5 are provided with arc-shaped ribs 54, 55 for reducing rotational friction force, respectively, along the circumferential direction thereof. The two arc-shaped ribs 54 and 55 can be respectively in line contact with the upper groove wall and the lower groove wall of the mounting groove.

In this embodiment, the second sleeve 7 is disposed outside the inner container 8 of the bubbler, and specifically, the two are screwed together. In the state that the disassembling module is disassembled from the fixing module, the top of the bubbler liner 8 is exposed, that is, the top of the bubbler liner 8 is not covered in the second sleeve 7, so that the bubbler liner 8 is convenient to clean. The outer wall of the second sleeve member 7 is further sleeved with a sealing ring, and the sealing ring is a V-shaped sealing ring 6 specifically and is used for being matched with the bottom of the inner wall of the fixed shell 2 in a sealing manner. The top of the spring 3 is sleeved into the spring pressing cap 4, and the bottom end of the spring 3 is propped against the inner container 8 of the bubbler.

In this embodiment, the first engaging portion 51 and the chute 52 are also disposed on the inner wall of the first sleeve 5, and the first inclined surface 511, the second inclined surface 512, the third inclined surface 513, the chute 514, the sixth inclined surface 515, and the seventh inclined surface 516 are also disposed on the first engaging portion 51. The second fitting part 71 and the third fitting part 72 are also provided on the outer wall of the second fitting part 7, the fourth inclined surface 711, the eighth inclined surface 712, and the ninth inclined surface 713 are also provided on the second fitting part 71, and the fifth inclined surface 721 is also provided on the third fitting part 72.

In this embodiment, the disassembling process of the disassembling module is substantially the same as that of the disassembling module in the first embodiment, and the difference is that: in the first embodiment, the second sleeve 7 is rotated, and in the present embodiment, the first sleeve 5 is rotated.

The above embodiment is only used for further illustrating a quick-assembly/disassembly foamer and faucet of the present invention, but the present invention is not limited to the embodiment, and any simple modification, equivalent variation and modification of the structures of the first mating portion, the second mating portion, the third mating portion, etc. of the above embodiment according to the technical substance of the present invention falls within the scope of the technical solution of the present invention.

Claims (10)

1. A quick release bubbler, characterized by: comprising the following steps:

a stationary module comprising a stationary housing and a first sleeve disposed together;

the disassembly module comprises a bubbler liner and a second sleeve which are arranged together;

the first sleeve member is sleeved with the second sleeve member, and the first sleeve member and the second sleeve member are matched with a pushing structure; the disassembly module and the fixing module are abutted with an elastic piece, the disassembly module can be pressed upwards, the elastic piece is combined with elastic reset to drive the first sleeve piece and the second sleeve piece to push and cooperate to realize relative rotation, and the first sleeve piece is locked or the second sleeve piece is released;

the pushing structure comprises a plurality of first matching parts, a plurality of second matching parts and a plurality of third matching parts, wherein the first matching parts are circumferentially arranged on the inner wall of the first sleeve, the second matching parts are circumferentially arranged on the outer wall of the second sleeve, the third matching parts are circumferentially arranged on the outer wall of the second sleeve and are positioned below the second matching parts, and the intervals between the adjacent first matching parts form sliding grooves; the second matching parts or the third matching parts are in pushing fit with the corresponding first matching parts, so that the first sleeve and the second sleeve are driven to rotate relatively, and each second matching part is linked to pass through the corresponding sliding groove upwards and then is embedded on the corresponding first matching part, or each second matching part is linked to be separated from the corresponding first matching part and then is withdrawn from the sliding groove downwards.

2. The quick connect and disconnect bubbler of claim 1 wherein: the first matching part is provided with a first inclined plane, a second inclined plane, a first guiding part positioned below the first inclined plane and the second inclined plane, a third inclined plane positioned above the first inclined plane and the second inclined plane and a chute; the second matching part is provided with a fourth inclined plane, the second guiding part is positioned below the second guiding part; the third matching part is provided with a fifth inclined plane; the fifth inclined plane is in pushing fit with the first inclined plane in sequence, the fourth inclined plane is in pushing fit with the inclined bottom surface of the chute, or the second guide part is in pushing fit with the first guide part in sequence, the fifth inclined plane is in pushing fit with the first inclined plane, the fourth inclined plane is in pushing fit with the inclined bottom surface of the chute, and each second matching part is linked to pass through the corresponding chute upwards and then slide into the corresponding chute; the third inclined surface is matched with the fourth inclined surface in a pushing way, and the fourth inclined surface is matched with the third inclined surface in a pushing way, so that the second matching parts are linked to be separated from the corresponding first matching parts and are withdrawn downwards from the sliding groove.

3. The quick connect and disconnect bubbler of claim 2 wherein: the first guide part is in an inverted mountain-shaped structure and comprises a sixth inclined plane and a seventh inclined plane, and the seventh inclined plane is coplanar with the second inclined plane; the second guide part is in a ridge shape and comprises an eighth inclined plane and a ninth inclined plane, and when the second guide part is in contact with the first guide part, the eighth inclined plane can be in pushing fit with the seventh inclined plane, or the ninth inclined plane can be in pushing fit with the sixth inclined plane.

4. A quick release bubbler according to claim 1 or 2 or 3 wherein: the first matching part, the second matching part and the third matching part are respectively of a bump structure.

5. The quick connect and disconnect bubbler of claim 1 wherein: the first or second sleeve constitutes a rotating member.

6. The quick connect and disconnect bubbler of claim 5 wherein: the first sleeve member is movably sleeved in the fixed shell, and the second sleeve member is arranged outside the inner container of the bubbler; or,

the first sleeve member is fixedly connected with the fixed shell or integrally formed; the second external member is movably sleeved outside the bubbler inner container, or the bubbler inner container is arranged in an inner container shell, and the second external member is movably sleeved outside the inner container shell.

7. The quick connect and disconnect bubbler of claim 5 wherein: the side wall of the rotating piece is provided with a mounting groove, and/or the top end and the bottom end of the rotating piece are respectively provided with an arc-shaped or annular convex rib.

8. The quick connect and disconnect bubbler of claim 1 wherein: the elastic piece is a spring, a spring pressing cap is screwed in the fixed shell, and the spring is fixed through the spring pressing cap; and/or the fixed shell is provided with external threads so as to be screwed on a water outlet nozzle of the water tap; and a sealing gasket is sleeved at the top of the fixed shell.

9. The quick connect and disconnect bubbler of claim 1 wherein: the disassembling module is in a disassembled state, and the top of the inner container of the bubbler is exposed so as to be convenient for cleaning.

10. A faucet, characterized in that: a quick release foamer including a quick release foamer of any one of claims 1 to 9 with its fixed housing attached to the spout of a faucet.