CN220227917U - Tap and bubble water generating device - Google Patents

Abstract

The utility model discloses a tap and a bubble water generating device. The faucet comprises a body, a water inlet structure, a water outlet structure, at least two valve core structures and at least two induction structures; a water channel is arranged in the body; the water inlet structure is communicated with the water channel; the water outlet structure is communicated with the water channel; each sensing structure is arranged corresponding to a valve core structure; the induction structure comprises a first induction piece, a handle and a second induction piece, wherein the first induction piece is provided with a first induction position and a second induction position; each handle is connected with a valve core structure and can move relative to the body; the second sensing piece is connected to the handle; when the handle is in a first induction state, the second induction piece triggers a first induction position of the first induction piece; when the handle is in the second sensing state, the second sensing piece triggers the second sensing position of the first sensing piece. The scheme provides a tap that can intelligent control goes out to make bubble water machine can flow out different water according to the different signals that tap sent.

Description

Tap and bubble water generating device

Technical Field

The utility model relates to the technical field of household appliances, in particular to a tap and a bubble water generating device.

Background

Along with the improvement of the living standard of people, the demands of people for household water are higher and higher, and the bubble water generating device can generate bubble water so as to meet the demands of users for the bubble water.

In the related art, bubble water, normal temperature water or cold water that bubble water machine produced flows through the tap for the kitchen usually, and the handle on the tap for the kitchen usually only plays the effect of switching on and off the water course, namely only plays the effect of opening water and closing water, can't play intelligent control effect of leaving water to can't send different signals according to different demands, lead to the bubble water machine can't pass through tap according to different signals and flow out different water.

Disclosure of Invention

The utility model mainly aims to provide a tap, which aims to provide a tap capable of intelligently controlling water outlet so that bubble water can flow out different water according to different signals sent by the tap.

In order to achieve the above object, the present utility model provides a faucet, comprising:

the body is internally provided with a water channel;

the water inlet structure is arranged at the water inlet end of the body and is communicated with the water channel;

the water outlet structure is arranged at the water outlet end of the body and is communicated with the water channel;

at least two valve core structures arranged on the body at intervals;

at least two sensing structures, each of which is arranged corresponding to one valve core structure; the sensing structure comprises:

the first sensing piece is connected to the body and provided with a first sensing position and a second sensing position which are arranged at intervals;

the handles are connected to the valve core structure and can move relative to the body, so that the handles have a first sensing state and a second sensing state;

the second sensing piece is connected with the handle and moves along with the handle;

when the handle is in the first induction state, the second induction piece triggers a first induction position of the first induction piece; when the handle is in the second sensing state, the second sensing piece triggers a second sensing position of the first sensing piece.

In an embodiment of the present utility model, the handle is rotatable relative to the body and has the first sensing state and the second sensing state; the first sensing position and the second sensing position are arranged at intervals along the rotating path of the handle.

In one embodiment of the present utility model, the first sensing element includes:

the limiting fixing piece is connected to the body and is positioned on one side of the valve core structure, and the handle is arranged on one side of the limiting fixing piece, which is opposite to the valve core structure, and is rotationally connected to the body through the limiting fixing piece;

the sensing element is connected to the limiting fixing piece and provided with the first sensing position and the second sensing position.

In an embodiment of the utility model, a mounting groove is formed in one side, close to the valve core structure, of the limiting fixing piece, an avoidance hole is formed in the mounting groove, the sensing element is arranged in the mounting groove, and the second sensing piece can trigger the sensing element through the avoidance hole.

In one embodiment of the utility model, the inductive element comprises:

the mounting box is connected with the limiting fixing piece;

the induction electric control plate is arranged in the installation box and is provided with the first induction position and the second induction position.

In an embodiment of the present utility model, the handle is disposed opposite to the first sensing element, and the second sensing element is disposed on a side of the handle near the first sensing element.

In an embodiment of the utility model, a fixing groove is formed on a side, close to the first sensing piece, of the handle, and the second sensing piece is arranged in the fixing groove.

In one embodiment of the present utility model, the valve core structure includes:

the fixing ring is connected with the body in a threaded manner;

the valve core is arranged in the fixing ring in a penetrating mode, and a valve core handle of the valve core is arranged in the sensing structure in a penetrating mode and is connected with the handle.

In an embodiment of the utility model, the faucet further includes a display module, and the display module is disposed on the body and electrically connected to the first sensing element.

In one embodiment of the present utility model, the body is provided with a display window; the display module includes:

the connecting part is at least partially arranged in the body;

the display part is arranged in the body and connected with the connecting part, and a display panel of the display part is exposed out of the display window.

In an embodiment of the utility model, an avoidance clamping groove is formed in one side of the water channel, and the connecting part is at least partially arranged in the avoidance clamping groove.

In one embodiment of the utility model, the waterway is provided with a first communication channel and a second communication channel; a first water inlet channel and a second water inlet channel are formed in the water inlet structure; a first water outlet channel and a second water outlet channel are formed in the water outlet structure; the first water inlet channel is communicated with the first water outlet channel through the first communication channel; the second water inlet channel is communicated with the second water outlet channel through the second communication channel;

and/or, the water inlet structure comprises a fixing piece and a water inlet pipe assembly, wherein the fixing piece is used for connecting the body to the table top, and the water inlet pipe assembly penetrates through the fixing piece and is communicated with the water channel;

and/or, the water outlet structure comprises a connecting piece and a water outlet pipe assembly, wherein the connecting piece is connected with the body, and the water outlet pipe assembly is connected with the connecting piece and communicated with the water channel;

and/or the water outlet end of the water outlet structure is provided with a bubbler.

The utility model also provides a bubble water generating device, which comprises:

the bubble water machine is provided with a water outlet, a normal-temperature water channel, a cold water channel, a first-concentration bubble water channel and a second-concentration bubble water channel which are communicated with the water outlet;

as described above, the water inlet end of the water inlet structure is communicated with the water outlet.

In the faucet provided by the utility model, at least two valve core structures and at least two sensing structures are connected to the body, and each sensing structure is arranged corresponding to one valve core structure. The induction structure comprises a first induction piece, a handle and a second induction piece, wherein the first induction piece is provided with a first induction position and a second induction position which are arranged at intervals, the handle can move relative to the body, the handle is provided with a first induction state and a second induction state, and the second induction piece can move along with the handle.

When the handle of one of the sensing structures moves to a first sensing state, the second sensing piece of the sensing structure triggers the first sensing position of the first sensing piece, and the first sensing piece sends out a first signal so that the bubble water machine flows out of a first type of water flow according to the first signal; when the handle of the sensing structure moves to a second sensing state, the second sensing piece of the sensing structure triggers a second sensing position of the first sensing piece, and the first sensing piece sends out a second signal so that the bubble water machine flows out of a second type of water flow according to the second signal;

when the handle of the other sensing structure moves to the first sensing state, the second sensing piece of the sensing structure triggers the first sensing position of the first sensing piece, and the first sensing piece sends out a third signal so that the bubble water machine flows out of a third type of water flow according to the third signal; when the handle of the sensing structure moves to a second sensing state, the second sensing piece of the sensing structure triggers the second sensing position of the first sensing piece, and the first sensing piece sends out a fourth signal so that the bubble water machine flows out of a fourth type of water flow according to the fourth signal.

Therefore, the faucet provided by the scheme can intelligently control water outlet so that the bubble water machine can flow out different water according to different signals sent by the faucet.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is an exploded view of one embodiment of a faucet of the present utility model;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is a partial enlarged view at B in FIG. 1;

FIG. 4 is a cross-sectional view of one embodiment of a faucet of the present utility model in a position;

FIG. 5 is an enlarged view of a portion of FIG. 4 at C;

FIG. 6 is a cross-sectional view of an alternative location of an embodiment of a faucet of the present utility model;

FIG. 7 is a partial enlarged view at D in FIG. 6;

FIG. 8 is a schematic view of an embodiment of a bubble water generating apparatus according to the present utility model;

fig. 9 is a schematic structural view of another embodiment of the bubble water generating apparatus of the present utility model.

Reference numerals illustrate:

reference numerals	Name of the name	Reference numerals	Name of the name
				1000	Bubble water generating device	34	Water outlet joint
100	Water tap	35	Decoration piece
				10	Body	40	Valve core structure
11	Water channel	41	Fixing ring
				111	Avoiding clamping groove	42	Valve core
112	First communication channel	50	Induction structure
				113	Second communication channel	51	First induction piece
12	Display window	511	Spacing mounting
				20	Water inlet structure	5111	Mounting groove
21	Fixing piece	5112	Avoidance hole
				22	Water inlet pipe groupPiece	512	Inductive element
221	First water inlet pipe	5121	Mounting box
				2211	First water inlet channel	5122	Induction electric control board
222	Second water inlet pipe	5122a	First induction bit
				2221	Second water inlet channel	5122b	Second induction bit
30	Water outlet structure	52	Handle grip
				31	Connecting piece	521	Fixing groove
32	Water outlet pipe assembly	53	Second sensing piece
				321	Inner pipe for water outlet	60	Display module
3211	First water outlet channel	61	Connecting part
				322	Outer pipe for water outlet	62	Display unit
3221	Second water outlet channel	200	Bubble water machine
				3222	Outer tube fixing ring	210	Water outlet
33	Bubbler	220	Communication line

The achievement of the objects, functional features and advantages of the present utility model will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

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

It should be noted that, if directional indications (such as up, down, left, right, front, and rear … …) are included in the embodiments of the present utility model, the directional indications are merely used to explain the relative positional relationship, movement conditions, etc. between the components in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are correspondingly changed.

In addition, if there is a description of "first", "second", etc. in the embodiments of the present utility model, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

The present utility model provides a faucet 100, and aims to provide a faucet 100 capable of intelligently controlling water output, so that a bubble water machine 200 can output different water according to different signals sent by the faucet 100. The faucet 100 may be a kitchen-down faucet or a kitchen-up faucet (faucet applied to a table). The bubble water machine 200 may be a kitchen-type bubble water machine or a kitchen-type bubble water machine (bubble water machine applied to a table).

The specific structure of the faucet 100 of the present utility model will be described below:

referring to fig. 1 to 7 in combination, in an embodiment of the faucet 100 of the present utility model, the faucet 100 includes a body 10, a water inlet structure 20, a water outlet structure 30, at least two valve core structures 40, and at least two sensing structures 50; a water channel 11 is arranged in the body 10; the water inlet structure 20 is arranged at the water inlet end of the body 10 and is communicated with the water channel 11; the water outlet structure 30 is arranged at the water outlet end of the body 10 and is communicated with the water channel 11; at least two valve core structures 40 are arranged on the body 10 at intervals; each sensing structure 50 is disposed corresponding to one valve core structure 40;

the sensing structure 50 includes a first sensing piece 51, a handle 52, and a second sensing piece 53; the first sensing element 51 is connected to the body 10 and has a first sensing position 5122a and a second sensing position 5122b which are disposed at intervals; each handle 52 is connected to a valve core structure 40 and is movable relative to the body 10 such that the handles 52 have a first sensing state and a second sensing state; the second sensing piece 53 is connected to the handle 52 to move with the handle 52;

when the handle 52 is in the first sensing state, the second sensing element 53 triggers the first sensing position 5122a of the first sensing element 51; when the handle 52 is in the second sensing state, the second sensing element 53 triggers the second sensing position 5122b of the first sensing element 51.

It can be appreciated that in the faucet 100 according to the present utility model, at least two valve core structures 40 and at least two sensing structures 50 are connected to the body 10, and each sensing structure 50 is disposed corresponding to one valve core structure 40. The sensing structure 50 includes a first sensing member 51, a handle 52, and a second sensing member 53, wherein the first sensing member 51 has a first sensing position 5122a and a second sensing position 5122b disposed at intervals, the handle 52 is movable relative to the body 10, and has a first sensing state and a second sensing state, and the second sensing member 53 is movable along with the handle 52.

When the handle 52 of one of the sensing structures 50 moves to the first sensing state, the second sensing member 53 of the sensing structure 50 triggers the first sensing position 5122a of the first sensing member 51, and the first sensing member 51 sends out a first signal to enable the bubble water machine 200 to flow out a first kind of water flow according to the first signal; when the handle 52 of the sensing structure 50 moves to the second sensing state, the second sensing member 53 of the sensing structure 50 triggers the second sensing position 5122b of the first sensing member 51, and the first sensing member sends out the second signal to enable the bubble machine 200 to flow out the second water flow according to the second signal;

when the handle 52 of the other sensing structure 50 moves to the first sensing state, the second sensing member 53 of the sensing structure 50 triggers the first sensing position 5122a of the first sensing member 51, and the first sensing member 51 sends out the third signal, so that the bubble water machine 200 flows out the third kind of water flow according to the third signal; when the handle 52 of the sensing structure 50 moves to the second sensing state, the second sensing member 53 of the sensing structure 50 triggers the second sensing position 5122b of the first sensing member 51, and the first sensing member sends a fourth signal to enable the bubble water machine 200 to flow out a fourth kind of water according to the fourth signal.

Therefore, the faucet 100 according to the present embodiment can intelligently control the water outlet, so that the bubble water machine 200 can flow out different water according to different signals sent by the faucet 100.

In this embodiment, the water inlet end of the water inlet structure 20 is used to communicate with the water outlet 210 of the bubble water machine 200, and the bubble water machine 200 can flow out different water through the water outlet 210 according to the signal sent by the faucet 100, and further flow out through the faucet 100, so as to provide different water for the user.

In some embodiments, the bubble water machine 200 may be specifically provided with a normal temperature water channel, a cold water channel, a first concentration bubble water channel, and a second concentration bubble water channel, and may generate normal temperature water, cold water, first concentration bubble water, and second concentration bubble water, respectively.

When the faucet 100 sends the first signal, the bubble water machine 200 can control the solenoid valve on the hot water channel to open according to the first signal, and control the solenoid valves on the cold water channel, the first concentration bubble water channel and the second concentration bubble water channel to close, so that the normal temperature water flows to the faucet 100 through the water outlet 210.

When the faucet 100 sends the second signal, the bubble water machine 200 can control the solenoid valve on the cold water channel to open according to the second signal, and control the solenoid valves on the hot water channel, the first concentration bubble water channel and the second concentration bubble water channel to close so that cold water flows to the faucet 100 through the water outlet 210.

When the faucet 100 sends the third signal, the bubble water machine 200 can control the solenoid valve on the first concentration bubble water channel to open according to the third signal, and control the solenoid valves on the hot water channel, the cold water channel and the second concentration bubble water channel to close, so that the first concentration bubble water flows to the faucet 100 through the water outlet 210.

When the faucet 100 sends the fourth signal, the bubble water machine 200 can control the solenoid valve on the bubble water with the second concentration to open according to the fourth signal, and control the solenoid valves on the hot water channel, the cold water channel and the bubble water with the first concentration to close, so that the bubble water with the second concentration flows to the faucet 100 through the water outlet 210.

Wherein the first concentration of bubble water may be a high concentration of bubble water, for example, bubble water having a TDS (Total dissolved solids ) concentration of greater than 1500 mg/L; the second concentration of bubble water may be a low concentration of bubble water, for example, a TDS concentration of bubble water may be in the range of 1000mg/L to 1500 mg/L.

In the practical application process, two of the at least two valve core structures 40 can be respectively arranged on two opposite sides of the body 10, can be respectively arranged on two adjacent sides of the body 10, and can be simultaneously arranged on the same side of the body 10; correspondingly, two of the at least two sensing structures 50 may be separately disposed on opposite sides of the body 10, may be separately disposed on adjacent sides of the body 10, and may be simultaneously disposed on the same side of the body 10.

Of course, to enhance the aesthetic appearance of the faucet 100, while facilitating the user to operate the handle 52, two of the at least two valve core structures 40 may be provided on opposite sides of the body 10, while two of the at least two sensing structures 50 may be provided on opposite sides of the body 10.

In practical applications, the handle 52 may rotate relative to the body 10, or may slide relative to the body 10 to switch between the first sensing state and the second sensing state.

Further, referring to fig. 1 to 7 in combination, in an embodiment of the faucet 100 of the present utility model, the handle 52 is rotatable relative to the body 10 and has a first sensing state and a second sensing state; the first sensing location 5122a and the second sensing location 5122b are spaced apart along the rotational path of the handle 52.

So set up, make it switch between first response state and second response state through the mode of turning handle 52, can make things convenient for user operation more, the user only need stir handle 52 and can realize switching between first response state second response state, and then send different signals to bubble water machine 200.

The rotation path of the handle 52 refers to a position through which the handle 52 passes during rotation. By arranging the first sensing position 5122a and the second sensing position 5122b at intervals along the rotation path of the handle 52, when the rotation of the handle 52 drives the second sensing member 53 to rotate, the second sensing member 53 can be ensured to smoothly trigger the first sensing position 5122a or the second sensing position 5122b of the first sensing member 51.

In practical applications, the rotation axes of the handles 52 of at least two sensing structures 50 may be on the same straight line, may be disposed at an included angle, or may be disposed in parallel, which is not limited herein.

In practical applications, the included angle between the handle 52 and the second sensing state may be 60 degrees, 90 degrees, 120 degrees, etc., and correspondingly, the included angle between the line between the first sensing position 5122a and the center of the first sensing member 51 and the line between the second sensing position 5122b and the center of the first sensing member 51 may be 60 degrees, 90 degrees, 120 degrees, etc., which are not limited herein.

Further, referring to fig. 1 to 3 in combination, in an embodiment of the faucet 100 of the present utility model, the first sensing member 51 includes a limiting fixing member 511 and a sensing element 512; the limiting fixing piece 511 is connected to the body 10 and is positioned on one side of the valve core structure 40, and the handle 52 is arranged on one side of the limiting fixing piece 511, which is opposite to the valve core structure 40, and is rotatably connected to the body 10 through the limiting fixing piece 511; the sensing element 512 is connected to the limiting fixing member 511, and has a first sensing position 5122a and a second sensing position 5122b.

So set up, in the assembly process, can install sensing element 512 on spacing mounting 511 earlier, the rethread spacing mounting 511 is connected first sensing element 51 on body 10, can promote sensing element 512's installation stability, and then guarantees that second sensing element 53 can trigger first sensing position 5122a or second sensing position 5122b of first sensing element 51 smoothly.

Specifically, the handle 52 is rotatably connected to the body 10 by the limiting fixing member 511, that is, the handle 52 is rotatably connected to the limiting fixing member 511, that is, can rotate relative to the body 10, and at the same time, stability of the handle 52 during rotation can be ensured.

In some embodiments, a collar may be provided on a side of the limit fixture 511 facing away from the spool structure 40, and a handle 52 may be sleeved on the collar to achieve a rotational connection with the limit fixture 511.

In practical applications, the sensing element 512 may be specifically connected to the limiting fixing member 511 by a screw connection, a clamping connection, an adhesive connection, a plugging connection, an interference fit, or the like. The limiting fixing member 511 may be specifically connected to the body 10 by a screw connection, a clip connection, an adhesive connection, an insertion connection, an interference fit, or the like.

Further, referring to fig. 3 in combination, in an embodiment of the faucet 100 of the present utility model, a mounting groove 5111 is disposed on a side of the limiting fixing member 511 near the valve core structure 40, the mounting groove 5111 is provided with a dodging hole 5112, the sensing element 512 is disposed in the mounting groove 5111, and the second sensing member 53 can trigger the sensing element 512 through the dodging hole 5112.

By installing the sensing element 512 in the installation groove 5111 of the limit fixing member 511, the installation stability of the sensing element 512 can be further improved; in addition, by providing the escape hole 5112 in the mounting groove 5111, the second sensing piece 53 can smoothly trigger the first sensing position 5122a or the second sensing position 5122b of the sensing element 512 through the escape hole 5112.

In some embodiments, a protrusion may be disposed on an outer sidewall of the sensing element 512 and a groove is disposed on a groove sidewall of the mounting groove 5111, so that when the sensing element 512 is mounted in the mounting groove 5111, the protrusion on the sensing element 512 will be blocked into the groove of the mounting groove 5111, so as to further improve the mounting stability of the sensing element 512.

In some embodiments, the sensing element 512 may have a semicircular ring structure, and the mounting groove 5111 may have an arc-shaped groove.

Further, referring to fig. 1 to 3 in combination, in an embodiment of the faucet 100 of the present utility model, the sensing element 512 includes a mounting box 5121 and a sensing electric control plate 5122; the mounting box 5121 is connected to the limit fixing piece 511; the sensing electric control plate 5122 is disposed in the mounting box 5121 and has a first sensing position 5122a and a second sensing position 5122b.

So set up, in the assembly process, can install induction automatically controlled board 5122 in mounting box 5121 earlier, the rethread mounting box 5121 is connected sensing element 512 on spacing mounting 511, can effectively protect induction automatically controlled board 5122 through mounting box 5121.

It should be noted that the second mounting box 5121 does not affect the second sensing element 53 to trigger the first sensing position 5122a or the second sensing position 5122b of the first sensing element 51.

In the practical application process, the sensing electric control plate 5122 can be connected to the control module of the bubble water machine 200 by adopting the communication line 220 or the bluetooth module, so that the control module can receive different signals sent by the sensing electric control plate 5122, and then control the bubble water machine 200 to flow out different water according to the different signals.

In the practical application process, the induction electric control plate 5122 can be specifically connected to the mounting box 5121 by adopting a mode of screw connection, clamping connection, bonding, plugging connection, interference fit and the like, so as to prevent the induction electric control plate 5122 from shaking in the mounting box 5121, thereby influencing the service life.

Further, referring to fig. 1 to 3 in combination, in an embodiment of the faucet 100 of the present utility model, the handle 52 is disposed opposite to the first sensing member 51, and the second sensing member 53 is disposed on a side of the handle 52 adjacent to the first sensing member 51.

So set up, through connecting the second sensing piece 53 in the one side that handle 52 is close to first sensing piece 51, not only make the second sensing piece 53 can trigger first sensing position 5122a or the second sensing position 5122b of first sensing piece 51 smoothly, can also carry out effective protection to the second sensing piece 53 through handle 52 to avoid colliding with the second sensing piece 53 in transport or use.

In the practical application process, the second sensing piece 53 may be specifically connected to the handle 52 by a screw connection, a clamping connection, an adhesive connection, a plugging connection, an interference fit, or the like.

In some embodiments, the second sensing member 53 may be a magnet, and the first sensing member 51 may be a hall element.

Further, referring to fig. 5 in combination, in an embodiment of the faucet 100 of the present utility model, a fixing groove 521 is disposed on a side of the handle 52 adjacent to the first sensing member 51, and the second sensing member 53 is disposed in the fixing groove 521.

By installing the second sensing piece 53 in the fixing groove 521 of the handle 52, the installation stability of the second sensing piece 53 can be improved, so that the second sensing piece 53 is prevented from being shifted or even separated from the handle 52, and the sensing precision is prevented from being affected.

In some embodiments, the second sensing element 53 may have a cylindrical structure, and the fixing groove 521 of the handle 52 may have a circular groove body, so that the second sensing element 53 may be smoothly installed in the fixing groove 521 and fixed in the fixing groove 521. Further, in order to further improve the mounting stability of the second sensing piece 53, the second sensing piece 53 may be interference-fitted with the fixing groove 521.

Further, referring to fig. 1 to 3 in combination, in an embodiment of the faucet 100 of the present utility model, the valve core structure 40 includes a retainer 41 and a valve core 42; the fixing ring 41 is screwed on the body 10; the valve core 42 is arranged through the fixing ring 41, and the valve core 42 handle of the valve core 42 is arranged through the sensing structure 50 and connected with the handle 52.

In the assembly process, the valve core 42 can be firstly arranged on the fixed ring 41 in a penetrating way, then the fixed ring 41 is connected in the body 10 in a threaded connection way, and the valve core 42 can be supported by the fixed ring 41 so as to improve the installation stability of the valve core 42; in addition, by making the valve core 42 of the valve core 42 pass through the sensing structure 50 and be connected to the handle 52, the valve core 42 can be smoothly driven to move under the movement of the handle 52.

In some embodiments, a side of the handle 52 adjacent to the body 10 may be provided with a coupling groove, and the spool 42 of the spool 42 may be inserted into the coupling groove of the handle 52 to be coupled with the handle 52.

Further, referring to fig. 1, 4 and 5, in an embodiment of the faucet 100 of the present utility model, the faucet 100 further includes a display module 60, and the display module 60 is disposed on the body 10 and electrically connected to the first sensing member 51.

So configured, the first sensing member 51 may display different signals to the bubble water machine 200 through the display module while being used for observing the type of water flowing out of the faucet 100.

In the practical application process, the display module 60 may be electrically connected to the first sensing element 51 by using an electrical connection wire, so that the display module 60 displays the current triggered state of the first sensing element 51 in real time.

In the practical application process, the display module 60 may be specifically installed in the body 10; the display module 60 may also be mounted outside the body 10; the display module 60 may also be partially installed inside the body 10 and partially installed outside the body 10, so long as the display panel of the display module 60 can be exposed.

Further, referring to fig. 1 in combination, in an embodiment of the faucet 100 of the present utility model, a body 10 is provided with a display window 12; the display module 60 includes a connection portion 61 and a display portion 62; the connecting portion 61 is at least partially disposed within the body 10; the display portion 62 is disposed in the main body 10 and connected to the connection portion 61, and a display panel of the display portion 62 is exposed from the display window 12.

By installing the connection part 61 and the display part 62 of the display module 60 in the body 10, the aesthetic property can be ensured, and the display module 60 can be effectively protected by the body 10; in addition, the display window 12 is disposed on the body 10, so that the display panel of the display portion 62 is exposed on the display window 12, so that a user can observe the data displayed on the display panel in real time through the display window 12, and thus the current triggered state of the first sensing element 51 can be rapidly obtained.

In some embodiments, the connection portion 61 is partially disposed within the body 10 and partially extends into the water intake structure 20 to be threadably connected to the water intake structure 20.

In the practical application process, the connection portion 61 and the display portion 62 may be integrally formed, and the connection portion 61 may be connected to the display portion 62 by means of screw connection, clamping, adhesion, plugging, interference fit, or the like.

Further, referring to fig. 1 in combination, in an embodiment of the faucet 100 of the present utility model, a side of the water channel 11 is provided with a avoiding slot 111, and the connection portion 61 is at least partially disposed in the avoiding slot 111.

By providing the connection portion 61 at least partially in the escape groove 111 of the waterway 11 in this manner, the space occupied by the connection portion 61 and the waterway 11 as a whole in the width direction can be reduced, and the entire volume of the body 10 in the width direction can be reduced; in addition, the connection portion 61 is at least partially disposed in the avoidance groove 111 of the water channel 11, so that the mounting stability of the connection portion 61 can be improved, and the mounting stability of the entire display module 60 on the body 10 can be improved.

Further, referring to fig. 6 in combination, in an embodiment of the faucet 100 of the present utility model, the waterway 11 is provided with a first communication channel 112 and a second communication channel 113; the water inlet structure 20 has a first water inlet passage 2211 and a second water inlet passage 2221 formed therein; a first water outlet channel 3211 and a second water outlet channel 3221 are formed in the water outlet structure 30; the first water inlet channel 2211 is communicated with the first water outlet channel 3211 through the first communication channel 112; the second water inlet passage 2221 communicates with the second water outlet passage 3221 through the second communication passage 113.

So configured, when the handle 52 of one of the sensing structures 50 is moving, the second sensing member 53 of the sensing structure 50 triggers the first sensing position 5122a or the second sensing position 5122b of the first sensing member 51, the first sensing member 51 emits the first signal or the second signal, so that the bubble water machine 200 flows out the hot water or the cold water according to the first signal or the second signal, and at this time, the normal temperature water or the cold water can flow through the first water inlet channel 2211, the first communication channel 112 and the first water outlet channel 3211 sequentially, and finally flows out from the water outlet end of the first water outlet channel 3211.

When the handle 52 of the other sensing structure 50 is moving, the second sensing member 53 of the sensing structure 50 triggers the first sensing position 5122a or the second sensing position 5122b of the first sensing member 51, and the first sensing member 51 sends out the third signal or the fourth signal, so that the bubble water machine 200 can flow out the first concentration bubble water or the second concentration bubble water according to the third signal or the fourth signal, and at this time, the first concentration bubble water or the second concentration bubble water can sequentially flow through the second water inlet channel 2221, the second communication channel 113 and the second water outlet channel 3221, and finally flow out from the water outlet end of the second water outlet channel 3221.

Therefore, the channels for flowing out the cold water and the hot water and the channels for flowing out the bubble water with the first concentration and the bubble water with the second concentration are not interfered with each other, so that the concentration of the bubble water with the first concentration or the bubble water with the second concentration can be prevented from being influenced by the residual temperature in the channels when the channels for flowing out the hot water flow through the bubble water with the first concentration or the bubble water with the second concentration again.

In the practical application process, the first water inlet passage 2211 and the second water inlet passage 2221 may be formed in the same pipe or in different pipes. Likewise, the first and second water outlet passages 3211 and 3221 may be formed in the same pipe or in different pipes.

Further, referring to fig. 1 and 6 in combination, in an embodiment of the faucet 100 of the present utility model, the water inlet structure 20 includes a fixing member 21 and a water inlet pipe assembly 22, the fixing member 21 is used for connecting the body 10 to the table, and the water inlet pipe assembly 22 is disposed through the fixing member 21 and is in communication with the water channel 11.

So arranged, during assembly, the body 10 can be stably attached to the counter by the fixing member 21, and the inlet pipe assembly 22 can be stably installed on the body 10 so that the inlet pipe assembly 22 communicates with the waterway 11.

In some embodiments, the inlet tube assembly 22 may include a first inlet tube 221 and a second inlet tube 222, the first inlet tube 221 having a first inlet passage 2211 formed therein, and the second inlet tube 222 having a second inlet passage 2221 formed therein. Moreover, the water outlet end of the first water inlet pipe 221 may be inserted into the first communication channel 112 of the water channel 11, so that the first water inlet channel 2211 is smoothly communicated with the first communication channel 112; the water outlet end of the second water inlet pipe 222 may be inserted into the second communication passage 113 of the water course 11, so that the second water inlet passage 2221 is smoothly communicated with the second communication passage 113.

Further, a sealing ring may be disposed between the outer wall of the first water inlet pipe 221 and the inner wall of the first communication channel 112, and a sealing ring may also be disposed between the outer wall of the second water inlet pipe 222 and the inner wall of the second communication channel 113, so as to ensure tightness between the first water inlet pipe 221 and the water channel 11, and tightness between the second water inlet pipe 222 and the water channel 11, so as to prevent water from flowing and leaking outwards.

Further, referring to fig. 1 and 6 in combination, in an embodiment of the faucet 100 of the present utility model, the water outlet structure 30 includes a connecting member 31 and a water outlet tube assembly 32, the connecting member 31 is connected to the body 10, and the water outlet tube assembly 32 is connected to the connecting member 31 and is in communication with the water channel 11.

So configured, the outlet pipe assembly 32 may be stably mounted to the body 10 by the connection member 31 during assembly such that the outlet pipe assembly 32 communicates with the waterway 11.

In some embodiments, the water outlet pipe assembly 32 may include a water outlet inner pipe 321 and a water outlet outer pipe 322, wherein a first water outlet channel 3211 is formed in the water outlet inner pipe 321, and the water outlet outer pipe 322 is sleeved on the water outlet inner pipe 321, so that a second water outlet channel 3221 is formed between an inner wall of the water outlet outer pipe 322 and an inner wall of the water outlet inner pipe 321.

Further, an outer pipe fixing ring 3222 may be sleeved on the outer side of the outer water outlet pipe 322, so that the outer water outlet pipe 322 is clamped on the water channel 11 through the outer pipe fixing ring 3222, so as to improve the installation stability of the outer water outlet pipe 322.

Further, referring to fig. 1 in combination, in an embodiment of the faucet 100 of the present utility model, a bubbler 33 is disposed at the water outlet end of the water outlet structure 30.

So set up, through being provided with the bubbler 33 at the play water end of play water structure 30, can cushion bubble water through the bubbler 33 to reduce the influence to bubble water.

In some embodiments, the water outlet end of the water outlet structure 30 may be further provided with a water outlet connector 34, so that the water in the water outlet structure 30 flows outwards through the water outlet connector 34, and the bubbler 33 may be mounted on the water outlet connector 34.

In some embodiments, the water outlet end of the water outlet structure 30 may further be provided with a decoration 35, and the decoration 35 may be sleeved on the bubbler 33 and the water outlet joint 34, so as to improve the aesthetic property.

Referring to fig. 8 and 9, the present utility model further provides a bubble water generating device 1000, where the bubble water generating device 1000 includes a bubble water machine 200 and the faucet 100 as described above, and the specific structure of the faucet 100 refers to the above embodiment, and since the bubble water generating device 1000 adopts all the technical solutions of all the embodiments, at least all the beneficial effects brought by the technical solutions of the embodiments are not described herein. Wherein, the bubble water machine 200 is provided with a water outlet 210, a normal temperature water channel, a cold water channel, a first concentration bubble water channel and a second concentration bubble water channel which are communicated with the water outlet 210; the water inlet end of the water inlet structure 20 communicates with the water outlet 210.

It can be understood that in the bubble water generating device 1000 according to the present utility model, when the handle 52 of one of the sensing structures 50 moves to the first sensing state, the second sensing member 53 of the sensing structure 50 triggers the first sensing position 5122a of the first sensing member 51, and the first sensing member 51 sends out the first signal, so that the bubble water machine 200 flows out the warm water through the warm water channel according to the first signal; when the handle 52 of the sensing structure 50 moves to the second sensing state, the second sensing member 53 of the sensing structure 50 triggers the second sensing position 5122b of the first sensing member 51, and the first sensing member sends a second signal to enable the bubble water machine 200 to flow out cold water through the cold water channel according to the second signal;

when the handle 52 of the other sensing structure 50 moves to the first sensing state, the second sensing member 53 of the sensing structure 50 triggers the first sensing position 5122a of the first sensing member 51, and the first sensing member 51 sends out the third signal, so that the bubble water machine 200 flows out the first concentration bubble water through the first concentration bubble water channel according to the third signal; when the handle 52 of the sensing structure 50 moves to the second sensing state, the second sensing member 53 of the sensing structure 50 triggers the second sensing position 5122b of the first sensing member 51, and the first sensing member sends a fourth signal to enable the bubble water machine 200 to flow out the second concentration bubble water through the second concentration bubble water channel according to the fourth signal.

Therefore, the faucet 100 of the present embodiment can intelligently control water outlet, so that the bubble water machine 200 can flow out different water according to different signals sent by the faucet 100.

In some embodiments, the bubble water machine 200 is further provided with a communication line 220, so that the control module of the bubble water machine 200 can be in communication connection with the first sensing member 51 of the faucet 100 through the communication line 220, so that the control module can receive different signals sent by the first sensing member 51, and then control the bubble water machine 200 to flow out different water according to the different signals.

The foregoing description is only of the preferred embodiments of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structural changes made by the description of the present utility model and the accompanying drawings or direct/indirect application in other related technical fields are included in the scope of the utility model.

Claims (13)

1. A faucet, comprising:

the body is internally provided with a water channel;

the water inlet structure is arranged at the water inlet end of the body and is communicated with the water channel;

the water outlet structure is arranged at the water outlet end of the body and is communicated with the water channel;

at least two valve core structures arranged on the body at intervals;

at least two sensing structures, each of which is arranged corresponding to one valve core structure; the sensing structure comprises:

the first sensing piece is connected to the body and provided with a first sensing position and a second sensing position which are arranged at intervals;

the handles are connected to the valve core structure and can move relative to the body, so that the handles have a first sensing state and a second sensing state;

the second sensing piece is connected with the handle and moves along with the handle;

when the handle is in the first induction state, the second induction piece triggers a first induction position of the first induction piece; when the handle is in the second sensing state, the second sensing piece triggers a second sensing position of the first sensing piece.

2. The faucet of claim 1, wherein the handle is rotatable relative to the body and has the first sensing state and the second sensing state; the first sensing position and the second sensing position are arranged at intervals along the rotating path of the handle.

3. The faucet of claim 2, wherein the first sensing member comprises:

the limiting fixing piece is connected to the body and is positioned on one side of the valve core structure, and the handle is arranged on one side of the limiting fixing piece, which is opposite to the valve core structure, and is rotationally connected to the body through the limiting fixing piece;

the sensing element is connected to the limiting fixing piece and provided with the first sensing position and the second sensing position.

4. The faucet of claim 3, wherein a mounting groove is formed in a side of the limit fixture adjacent to the valve core structure, the mounting groove is provided with a relief hole, the sensing element is disposed in the mounting groove, and the second sensing element can trigger the sensing element through the relief hole.

5. The faucet of claim 3, wherein the sensing element comprises:

the mounting box is connected with the limiting fixing piece;

the induction electric control plate is arranged in the installation box and is provided with the first induction position and the second induction position.

6. The faucet of any of claims 1 to 5, wherein the handle is disposed opposite the first sensing member, and the second sensing member is disposed on a side of the handle adjacent the first sensing member.

7. The faucet of claim 6, wherein a side of the handle adjacent to the first sensing member is provided with a fixing groove, and the second sensing member is disposed in the fixing groove.

8. The faucet of any of claims 1 to 5, wherein the cartridge structure includes:

the fixing ring is connected with the body in a threaded manner;

the valve core is arranged in the fixing ring in a penetrating mode, and a valve core handle of the valve core is arranged in the sensing structure in a penetrating mode and is connected with the handle.

9. The faucet of any of claims 1 to 5, further comprising a display module disposed on the body and electrically connected to the first sensing member.

10. The faucet of claim 9, wherein the body is provided with a display window; the display module includes:

the connecting part is at least partially arranged in the body;

the display part is arranged in the body and connected with the connecting part, and a display panel of the display part is exposed out of the display window.

11. The faucet of claim 10, wherein one side of the waterway is provided with an avoidance slot, and the connecting portion is at least partially disposed within the avoidance slot.

12. The faucet of any one of claims 1 to 5, wherein the waterway is provided with a first communication channel and a second communication channel; a first water inlet channel and a second water inlet channel are formed in the water inlet structure; a first water outlet channel and a second water outlet channel are formed in the water outlet structure; the first water inlet channel is communicated with the first water outlet channel through the first communication channel; the second water inlet channel is communicated with the second water outlet channel through the second communication channel;

and/or, the water inlet structure comprises a fixing piece and a water inlet pipe assembly, wherein the fixing piece is used for connecting the body to the table top, and the water inlet pipe assembly penetrates through the fixing piece and is communicated with the water channel;

and/or, the water outlet structure comprises a connecting piece and a water outlet pipe assembly, wherein the connecting piece is connected with the body, and the water outlet pipe assembly is connected with the connecting piece and communicated with the water channel;

and/or the water outlet end of the water outlet structure is provided with a bubbler.

13. A bubble water generating apparatus, comprising:

the bubble water machine is provided with a water outlet, a normal-temperature water channel, a cold water channel, a first-concentration bubble water channel and a second-concentration bubble water channel which are communicated with the water outlet;

the faucet of any one of claims 1 to 12, a water inlet end of the water inlet structure being in communication with the water outlet.