CN214331568U - Faucet and water supply control system - Google Patents

Abstract

The embodiment of the utility model relates to the technical field of taps, and discloses a tap and a water supply control system, wherein the tap comprises a body, a water type regulator, a water quantity control knob and a controller; the water type regulator comprises a first motor, a rotary disc and a water dividing head, the water dividing head is fixed at the water outlet end of the body and is provided with at least two water outlets with different water outlet types, the rotary disc is arranged in the water dividing head, and the rotary disc is provided with a communicating hole; the water quantity regulator is connected with the water inlet end of the body; the water quantity control knob is connected to the outer wall of the body; the controller is used for controlling the first motor to drive the rotary disc to rotate relative to the water distribution head according to the target water outlet type so as to enable the communication hole to be communicated with a water outlet corresponding to the target water outlet type, adjusting the water outlet type of the water type regulator, and adjusting the opening degree of the water quantity regulator according to the control signal of the water quantity control knob so as to adjust the water outlet quantity of the faucet. By the mode, the water outlet type of the automatic adjusting faucet is realized, the structure is simple, and the water quantity is adjusted conveniently and laborsavingly.

Description

Faucet and water supply control system

Technical Field

The embodiment of the utility model provides a relate to tap technical field, concretely relates to tap and water supply control system.

Background

The traditional faucet is mechanically connected with an internal switch valve through an external handle, and a user transmits the action of a switch to the switch valve through the handle so as to control the switch of the faucet; in addition, the water outlet of the existing faucet is water column type water outlet, which easily causes waste of water resource.

SUMMERY OF THE UTILITY MODEL

In view of the above problem, the embodiment of the utility model provides a tap and water supply control system realizes automatically regulated tap's play water type, simple structure to the water regulation is convenient laborsaving.

According to an aspect of the embodiments of the present invention, there is provided a faucet, the faucet including: the water-saving device comprises a body, a water type regulator, a water quantity control knob and a controller; the water type regulator comprises a first motor, a rotary disc and a water dividing head, one end of the water dividing head is fixed at the water outlet end of the body, the other end of the water dividing head is provided with at least two water outlets with different water outlet types, the rotary disc is arranged in the water dividing head and is provided with a communication hole, and the first motor is used for driving the rotary disc to rotate relative to the water dividing head so as to enable the communication hole to be communicated with the water outlet corresponding to the target water outlet type, so as to control the water outlet of the water outlet with different water outlet types; the water quantity regulator is connected to the water inlet end of the body; the water quantity control knob is connected to the outer wall of the body; the controller respectively with first motor, water yield regulator with the water yield control knob electricity is connected, the controller is used for according to the regulation of target play water type the play water type of water type regulator, and be used for according to the control signal adjustment of water yield control knob the aperture of water yield regulator is in order to adjust tap's water yield.

In an optional mode, a sealing cover is further arranged in the water distribution head, the sealing cover is provided with at least two water inlet holes, and each water inlet hole is communicated with one water outlet; the rotary disc is attached to the top of the sealing cover and is in rotating connection with the sealing cover, and the rotary disc rotates relative to the sealing cover so that one of the at least two water inlet holes is communicated with the water outlet end.

In an alternative mode, the water inlet hole comprises a water column water inlet hole, an atomization water inlet hole and a shower water inlet hole; the water outlet comprises a water column water outlet, an atomized water outlet and a shower head water outlet; a water column cavity, an atomization cavity and a shower head cavity are arranged in the water distribution head; the sealed lid is located the water column chamber the atomizing chamber with the top in gondola water faucet chamber, and the water column chamber intercommunication the water column inlet opening with the water column delivery port, the atomizing chamber intercommunication the atomizing inlet opening with the atomizing delivery port, the gondola water faucet chamber intercommunication gondola water faucet inlet opening and gondola water faucet delivery port.

In an alternative form, the sealing cap is removably attached within the dividing head.

In an optional mode, a partition plate is arranged in the water outlet end of the body, the partition plate is provided with a shaft hole, and the first motor is installed in the body; the carousel is equipped with the connecting axle, the connecting axle stretch into in the shaft hole with the pivot fixed connection of first motor, and the periphery wall of connecting axle with be provided with first sealing washer between the internal perisporium in shaft hole.

In an optional mode, the water quantity regulator comprises a second motor, a valve core and a valve seat, one end of the valve seat is provided with a mounting port, the other end of the valve seat is connected with a water inlet pipe and a water outlet pipe, the water inlet pipe is used for being communicated with a water supply device, the water inlet pipe is used for being communicated with the water inlet end of the body, the valve core is mounted in the mounting port, the second motor is electrically connected with the controller, a rotating shaft of the second motor is connected with the valve core, and the second motor is used for driving the valve core to rotate so as to regulate the water outlet quantity of the faucet.

In an optional mode, the valve core comprises a valve cover, a fixed valve body fixedly connected with the valve cover, and a linkage shaft and a rotating valve body which are positioned between the valve cover and the fixed valve body; the rotating valve body is provided with a first water inlet hole and a first water outlet hole, and is positioned between the linkage shaft and the fixed valve body; the fixed valve body is provided with a second water inlet hole and a second water outlet hole, the fixed valve body is fixedly connected with the valve seat, the second water inlet hole is communicated with the water inlet pipe, and the second water outlet hole is communicated with the water outlet pipe; one end of the linkage shaft is located in the valve cover and fixedly connected with the rotary valve body, a communication groove communicated with the first water inlet hole and the first water outlet hole is formed in the linkage shaft, and the other end of the linkage shaft penetrates through the valve cover and is fixedly connected with a rotating shaft of the second motor.

In an alternative mode, a mounting seat is arranged on one side wall of the body; the water quantity control knob comprises a first rotary coding switch and a first rotary disc, the first rotary coding switch is electrically connected with the second motor, the first rotary coding switch is fixed in the mounting seat, and the first rotary disc is positioned outside the mounting seat and fixedly connected with a rotary shaft of the first rotary coding switch.

In an optional mode, the water quantity control knob further comprises a first support, a first fixing disc is arranged at one end of the first support, a first supporting shaft is arranged at the other end of the first support, the first fixing disc is fixed in the installation seat, and the first supporting shaft extends out of the installation seat; the first rotary coding switch is provided with a first through hole, the first rotary coding switch is sleeved on the first supporting shaft through the first through hole, and the first rotary coding switch is fixedly connected with the first fixed disc.

In another aspect of the embodiment of the present invention, there is provided a water supply control system, including the water delivery end of the water supply device is connected to the water inlet end of the body, the water supply device is connected to the controller, the controller is also used for controlling the water supply device to the target water supply type provided by the faucet.

In the embodiment of the utility model, the controller drives the first motor to drive the rotary table to rotate relative to the water distribution head according to the target water outlet type, so that the communication hole is communicated with the corresponding water outlet of the target water outlet type, thereby realizing the automatic adjustment of the water outlet type of the water faucet; the controller controls the opening of the water quantity regulator according to the water quantity control knob touch signal, so that the water yield of the water supply device flowing to the faucet through the water quantity regulator is achieved.

The above description is only an overview of the technical solutions of the present invention, and in order to make the technical means of the present invention more clearly understood, the present invention may be implemented according to the content of the description, and in order to make the above and other objects, features, and advantages of the present invention more obvious and understandable, the following detailed description of the present invention is given.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

fig. 1 shows an exploded view of a faucet provided by an embodiment of the present invention;

fig. 2 is a perspective view of a faucet provided by an embodiment of the present invention;

fig. 3 is an exploded view of a water level regulator in a faucet according to an embodiment of the present invention;

fig. 4 is an exploded view of a water regulator in a faucet from another perspective provided by an embodiment of the present invention;

fig. 5 shows a partial cross-sectional view of a faucet provided by an embodiment of the present invention;

fig. 6 shows another exploded view of a faucet provided by an embodiment of the present invention.

The reference numbers in the detailed description are as follows:

the water dispenser comprises a body 100, a partition plate 110, a shaft hole 111, a water pipe joint 112, a mounting seat 120, a touch display screen 130, an infrared sensor 140, a water type regulator 200, a first motor 210, a turntable 220, a rotating groove 221, a first through hole 222, a second through hole 223, a butting part 224, a first butting point 2241, a second butting point 2242, a connecting shaft 225, a water dividing head 230, a water column water outlet 231, an atomization water outlet 232, a shower water outlet 233, a first supporting wall 234, a limiting protrusion 237, a second supporting wall 235, a third supporting wall 236, a connecting part 238, a sealing cover 240, a water column water inlet 241, an atomization water inlet 242, a shower water inlet 243, a connecting column 244, a limiting clamping groove 245, a positioning part 246, a first positioning point 2461, a second positioning point 2462, an atomizer 250, a second sealing ring 260, a water quantity regulator 300, a second motor 310, a valve core 320, a valve cover 321, a linkage shaft 322, a communication groove 3221 and a rotating valve body 323, the instant heating pipe comprises a first water inlet hole 3231, a first water outlet hole 3232, a fixed valve body 324, a second water inlet hole 3241, a second water outlet hole 3242, a valve seat 330, a mounting hole 331, a connecting piece 340, a fixed frame 350, a containing hole 351, a water quantity control knob 400, a first rotary coding switch 410, a first through hole 411, a first rotary disc 420, a first support 430, a first fixed disc 431, a first support shaft 432, a water temperature control knob 500, a second rotary coding switch 510, a second through hole 511, a second rotary disc 520, a second support 530, a second fixed disc 531, a second support shaft 532, an instant heating pipe 600, a connecting frame 700 and a mounting groove 710.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

Referring to fig. 1 and 2, fig. 1 shows an exploded view of a faucet provided in an embodiment of the present invention, and fig. 2 shows a perspective view of the faucet provided in an embodiment of the present invention.

In an aspect of the embodiment of the present invention, there is provided a faucet, a body 100, a water type regulator 200, a water amount regulator 300, a water amount control knob 400, and a controller (not shown). The water supply device comprises a body 100, a water inlet end and a water outlet end, wherein the water inlet end of the body 100 is used for being connected with a water delivery end of the water supply device, namely the water outlet end of the body 100 is a water outlet of the water faucet, and the water delivery end of the water supply device is communicated with a water inlet of the water faucet so that the water supply device supplies water to the water faucet; the water type regulator 200 comprises a first motor 210, a rotary disc 220 and a water distribution head 230, wherein one end of the water distribution head 230 is fixed at the water outlet end of the body 100, the other end of the water distribution head 230 is provided with at least two water outlets of different water types, the rotary disc 220 is arranged in the water distribution head 230, the rotary disc 220 is provided with a communication hole, the first motor 210 is used for driving the rotary disc 220 to rotate relative to the water distribution head 230 so as to enable the communication hole to be communicated with the water outlet corresponding to a target water outlet type, so as to control the water outlet of the water outlets of different water outlet types, and the first motor 210 can adopt a stepping motor; the water quantity regulator 300 is connected to the water inlet end of the body, and is generally disposed between the water inlet end of the body 100 and the water delivery end of the water supply device, that is, the water quantity regulator 300 is installed in a water delivery pipe of the water supply device communicated with the water inlet of the faucet, so that the water quantity regulator 300 controls the water flow quantity of the water supply device flowing to the body 100; the water amount control knob 400 is fixedly connected to the outer wall of the body 100; the controller is electrically connected with the first motor 210, the water quantity regulator 300, the water quantity control knob 400 and the water supply device respectively, and is used for adjusting the water outlet type of the water quantity regulator 200 according to the target water outlet type, and adjusting the opening degree of the water quantity regulator 300 according to the control signal of the water quantity control knob 400, so that the water outlet quantity of the faucet is adjusted. Wherein, the target water outlet type can be water column type, gondola water faucet water type and form water outlet mode such as atomizing water type to can be that the user controls through key input, or carries out communication input control through mobile terminal and tap, or predetermine and carry out automatic control in the control. For example, when the water supply devices provide different water supply types, or the water yield controlled by the water yield regulator is different, the controller can control the water yield of the water yield regulator according to the preset relation between the target water yield and the water supply type and/or different water yields. Therefore, intelligent control is realized, and the water outlet type requirements of users under different water using scenes are met.

The traditional faucet controls the water yield of the faucet in a mode of mechanical transmission of a handle and a control valve, and the control valve is required to be arranged at a position corresponding to the handle in a body 100; in addition, since the control valve is operated in a water environment for a long time, it is likely to be deteriorated, and when it is detached and replaced, it is necessary to detach the main body 100 and the handle together, which makes the replacement troublesome.

In this embodiment, the water quantity control knob 400 is electrically connected to the water quantity regulator 300, and the water quantity control knob 400 outputs a control signal by rotation, so that the controller controls the opening of the water quantity regulator 300 according to the control signal, thereby realizing regulation and control of the water yield of the faucet; in addition, the water quantity control knob 400 is electrically connected with the water quantity regulator 300 through a connecting wire, so that the water quantity regulator 300 can be arranged outside the body 100 of the faucet, and only the water quantity regulator 300 needs to be arranged in a water flowing pipeline between the water inlet end of the body 100 and the output end of the water supply device through a connecting water pipe, the internal structure of the faucet is favorably simplified, the body 100 and the water quantity control knob 400 do not need to be disassembled when the water quantity regulator 300 is replaced, and the replacement and the maintenance are simpler and more convenient.

In addition, the controller can drive the rotary table 220 to rotate relative to the water distribution head 230 through driving the first motor 210 according to the target water outlet type, so that the communication hole is communicated with the water outlet corresponding to the target water outlet type, thereby controlling the water outlet of the water outlets of different water outlet types of the water distribution opening, thereby realizing that the water outlet end of the water faucet has the water outlet modes of different water types through the water type regulator 200, thereby realizing the mode of automatically regulating the water outlet type of the water faucet according to the water scene of the target water outlet type of the water supply device, reducing the waste of water resources, thereby leading the water faucet to be more intelligent and meeting the water outlet type requirements of users under different water scenes.

Referring to fig. 3 to fig. 5, and with reference to fig. 1 and fig. 2, fig. 3 shows an exploded view of a water volume regulator in a faucet provided by an embodiment of the present invention, fig. 4 shows an exploded view of another view of the water volume regulator in the faucet provided by an embodiment of the present invention, and fig. 5 shows a partial cross-sectional view of the faucet provided by an embodiment of the present invention. Specifically, a sealing cover 240 is further disposed in the water dividing head 230, the sealing cover 240 is provided with at least two water inlet holes, and each water inlet hole is communicated with a water outlet of one water type, so that each water type has an independent water inlet hole. The rotating disc 220 is attached to the top surface of the sealing cover 240, and the rotating disc 220 is rotatably connected to the sealing cover 240, that is, the rotating disc 220 is rotatably connected to the surface of the sealing cover 240 facing away from the different water type water outlets, and the sealing cover 240 is used for isolating the water outlets of different water types in the water dividing head 230 from the water outlet end of the body 100.

When the rotary disc 220 rotates relative to the sealing cover 240, one water inlet hole is communicated with the water outlet end of the body 100, and the other water inlet hole is covered and sealed by the rotary disc 220, so that only one water-type water outlet is used for water outlet at each time. In the embodiment shown in the figure, the water inlets include a water column inlet 241, an atomization inlet 242 and a shower inlet 243; the water outlets comprise a water column water outlet 231, an atomized water outlet 232 and a shower water outlet 233; a water column cavity, an atomization cavity and a shower head cavity are arranged in the water distribution head 230; the sealing cover 240 is connected to the tops of the water column cavity, the atomization cavity and the shower head cavity, the water column cavity is communicated with the water column water inlet hole 241 and the water column water outlet 231, the atomization cavity is communicated with the atomization water inlet hole 242 and the atomization water outlet 232, and the shower head cavity is communicated with the shower head water inlet hole 243 and the shower head water outlet 233.

When the rotary disc 220 rotates relative to the sealing cover 240 to communicate the communicating hole with the water column water inlet 241 in an overlapped mode, the atomization water inlet 242 and the shower water inlet 243 are sealed by the rotary disc 220 in a covered mode, and at the moment, the water column water outlet 231 discharges water, so that a water column water type water discharging mode is achieved; when the turntable 220 rotates relative to the sealing cover 240 until the communication hole is superposed and communicated with the atomization water inlet hole 242, the water column water inlet hole 241 and the shower water inlet hole 243 are covered and sealed, and at the moment, the atomization water outlet 232 discharges water, so that an atomization water type water discharging mode is realized; when the turntable 220 rotates relative to the sealing cover 240 to the communicating hole to be communicated with the shower water inlet 243 in an overlapped mode, the water column water inlet 241 and the atomization water inlet 242 are covered and sealed by the turntable 220, at the moment, the shower water outlet 233 discharges water, and therefore the water discharging mode of the shower water type is achieved.

Because the water supply device can deliver different target water supply types to the faucet after processing water, for example, different target water supply types such as tap water, soft water, hydrogen-rich water, pure water and the like can be obtained after the water is filtered by different filter elements of the water supply device, for example, the tap water can be used for irrigation, the soft water can be used for washing and rinsing and the like, the hydrogen-rich water and the pure water can be used for cooking, drinking and the like, different target water supply types are in different water use scenes, different water outlet modes can be needed, for example, when washing, the water consumption is small, and the water outlet mode of the water type regulator 200 can be atomized water type; the water for cooking and drinking can be water column water type; the water outlet mode of the water type regulator 200 can be shower water type during irrigation.

As an example, when the water supply device delivers soft water to the faucet, the controller controls the first motor 210 to drive the rotating disc 220 to rotate relative to the sealing cover 240 to enable the atomized water inlet hole 242 to communicate with the water outlet end of the body 100, so as to implement an atomized water type water outlet mode; when the water supply device supplies hydrogen-rich water and pure water to the faucet, the controller controls the first motor 210 to drive the rotating disc 220 to rotate relative to the sealing cover 240 to enable the water inlet hole 241 of the water column to be communicated with the water outlet end of the body 100, so as to realize the water outlet mode of the water column type; when the water supply device delivers tap water to the faucet, the controller controls the first motor 210 to drive the rotating disc 220 to rotate relative to the sealing cover 240 to enable the water inlet 243 of the shower head to be communicated with the water outlet end of the body 100, so as to realize the water outlet mode of the shower head.

This embodiment is kept apart the water column chamber through sealed lid 240, atomizing chamber and gondola water faucet chamber to make water column inlet opening 241 communicate through water column chamber and water column delivery port 231, atomizing inlet opening 242 passes through atomizing chamber and atomizing delivery port 232 intercommunication, gondola water faucet inlet opening 243 passes through gondola water faucet chamber and gondola water faucet delivery port 233 intercommunication, make the water column, atomizing water type and water type gondola water faucet have mutually independent inhalant canal respectively, avoid dividing the different water type delivery ports of the interior water supply of water head 230, influence the effect of water.

In addition, the sizes, the arrangement positions and the number of the arranged apertures of the water column outlet 231, the atomized water outlet 232 and the shower outlet 233 are not influenced by the structure of the turntable 220, and the designable spaces of the water column outlet 231, the atomized water outlet 232 and the shower outlet 233 on the water diversion head 230 are increased, for example, for the shower outlet 233, the larger the arrangeable area of the water diversion head 230 is, the more the number is, and the more the water outlet effect of the shower is favorably improved.

Further, a rotating groove 221 is formed in the center of the bottom of the rotary disc 220, a connecting column 244 is formed in the center of the top of the sealing cover 240, the connecting column 244 is completely inserted into the rotating groove 221, the connecting column 244 is in clearance fit with the rotating groove 221, so that the bottom surface of the rotary disc 220 is attached to the top surface of the sealing cover 240, and the rotary disc 220 can rotate relative to the sealing cover 240 by taking the connecting column 244 as a rotating shaft.

It should be understood by those skilled in the art that the rotating groove 221 may be disposed at the center of the top of the sealing cover 240, and the connecting column 244 may be disposed at the center of the bottom of the rotating disc 220, as long as the rotating disc 220 is rotatably connected to the sealing cover 240.

In the embodiment shown in the figures, the water inlet 241 and the atomizing inlet 242 are spaced along the circumference of a first circle of the sealing cover 240, the shower inlet 243 is along the circumference of a second circle, the diameter of the first circle is smaller than that of the second circle, and the first circle and the second circle are coaxial with the rotating shaft of the rotating disc 220 rotating relative to the sealing cover 240; the turntable 220 is provided with a first through hole 222 and a second through hole 223.

When the first motor 210 drives the rotating disc 220 to rotate relative to the sealing cover 240, the first through hole 222 on the rotating disc 220 rotates along the circumference of the first circle to coincide with the atomizing water inlet hole 242, or rotates to coincide with the water column water inlet hole 241, or the second through hole 223 on the rotating disc 220 rotates along the circumference of the first circle to coincide with the shower water inlet hole 243. Also when first through-hole 222 communicates with the coincidence of atomizing inlet opening 242 or water column inlet opening 241, second through-hole 223 communicates with gondola water faucet inlet opening 243 is not coincident, and when second through-hole 223 communicates with gondola water faucet inlet opening 243 is coincident, atomizing inlet opening 242 or water column inlet opening 241 all do not communicate with first through-hole 222 to when realizing that one of water column inlet opening 241, atomizing inlet opening 242 and gondola water faucet inlet opening 243 three communicates with play water outlet portion, other two then are sealed off.

In this embodiment, through setting up water column inlet opening 241 and the atomizing intake on the circumference of the first circle of sealed lid 240, set up gondola water faucet inlet opening 243 on the circumference of the second circle of sealed lid 240, because the diameter of second circle is greater than the diameter of first circle, be convenient for set up the gondola water faucet intake chamber in the periphery of water column intake chamber and atomizing intake chamber.

It should be noted that, in other embodiments, the water column inlet opening 241, the atomization inlet opening 242, and the shower inlet opening 243 may also be disposed at intervals along the circumference of the same circle outside the rotating shaft of the turntable, that is, the distances from the centers of the water column inlet opening 241, the atomization inlet opening 242, and the shower inlet opening 243 to the center of the sealing cover 240 are all equal, and the water column inlet opening 241, the atomization inlet opening 242, and the shower inlet opening 243 are disposed at intervals along the same circumferential direction, at this time, the turntable 220 can rotate relative to the sealing cover 240 only by disposing one through hole, and the communication and the closing of the water column inlet opening 241, the atomization inlet opening 242, and the shower inlet opening 243 are controlled, so as to simplify the structure of the communication hole of the turntable 220.

Further, a first supporting wall 234, a second supporting wall 235 and a third supporting wall 236 are arranged in the water dividing head 230, the first supporting wall 234 is arranged on the inner peripheral wall of the water dividing head 230, the second supporting wall 235 is arranged in the middle of the water dividing head 230, and a shower head cavity is enclosed between the inner peripheral wall of the first supporting wall 234 and the outer peripheral wall of the second supporting wall 235; the third supporting wall 236 is disposed inside the second supporting wall 235, the third supporting wall 236 encloses a water column cavity, and an atomization cavity is enclosed between an outer peripheral wall of the third supporting wall 236 and an inner peripheral wall of the second supporting wall 235, that is, the water column cavity and the atomization cavity are located in a space enclosed by the second supporting wall 235. The sealing cover 240 is attached to the top of the first supporting wall 234, the second supporting wall 235 and the third supporting wall 236, that is, the bottom surface of the sealing cover 240 is attached to the surface of the first supporting wall 234, the second supporting wall 235 and the third supporting wall 236 facing the water outlet portion, so as to prevent the openings at the top of the water column chamber, the atomization chamber and the shower head chamber from communicating with each other.

Set up in the internal perisporium of dividing water head 230 through first support wall 234, support wall 235 with the second and support the wall 235 and set up the middle part position in dividing water head 230 with the second, make the gondola water faucet chamber be located the periphery in water column chamber and atomizing chamber, so that gondola water faucet delivery port 233 encircles the periphery setting of water column delivery port 231 and atomizing delivery port 232, also be this moment, the water column water type can set up in the middle part region of wind head, and the gondola water faucet water type is cyclic annular and sets up in the peripheral region of dividing water head 230 and encircles water column delivery port 231 and atomizing delivery port 232, thereby improve the gondola water faucet effect of the play water mode of gondola water faucet water type.

In addition, since the rotary plate 220 is rotatably connected to the top of the seal cover 240, and the rotary plate 220 is in contact with the seal cover 240, the seal cover 240 is subjected to an axial force generated by the rotary plate 220, and the first support wall 234, the second support wall 235 and the third support wall 236 support the seal cover, so that the structural strength of the seal cover 240 can be increased, and the seal cover is prevented from being crushed by the rotary plate 220.

In the embodiment shown, the sealing cover 240 is removably attached to the top of the first support wall 234, the second support wall 235 and the third support wall 236, i.e., the sealing cover 240 is removably attached to the interior of the water distribution head 230, so that it can be easily removed for cleaning and maintenance when a blockage occurs in the interior of the water distribution head 230.

It is understood that in other embodiments, the sealing cap 240 may be formed as a unitary structure with the drop head 230.

In the embodiment shown in the figure, an atomizer 250 is disposed in the atomizing water outlet 232, and water flowing into the atomizing water outlet 232 from the water outlet end can flow out of the atomizing water under the atomizing action of the atomizer 250.

Preferably, the atomizing water outlet 232 can be detachably mounted in the atomizing water outlet 232 through a screw joint, a clamping joint and the like, so that the atomizing water outlet 232 is convenient for a user to detach, maintain or replace when being blocked or damaged. Specifically, the internal perisporium of atomizing delivery port 232 extends along atomizing direction and has a fixed cylinder, the both ends of fixed cylinder communicate with atomizing chamber and atomizing delivery port 232 respectively, and the grafting can be dismantled in fixed cylinder to atomizer 250.

It should be understood by those skilled in the art that the illustration is merely an example, and in other embodiments, the atomizer 250 may be an atomizing structure disposed in the atomizing water outlet 232 to achieve the same atomizing effect.

In the embodiment shown in the figures, a limiting protrusion 237 is disposed on the top of the first supporting wall 234, a limiting slot 245 is disposed on the outer peripheral wall of the sealing cover 240, the limiting slot 245 is matched with the limiting protrusion 237, and the limiting slot 245 is engaged with the limiting protrusion 237.

Through the block of spacing arch 237 and spacing draw-in groove 245 to when making the sealed lid 240 of carousel 220 relatively rotate, sealed lid 240 can not rotate along with carousel 220, in addition through the cooperation of spacing arch 237 and spacing draw-in groove 245, play the effect of location to sealed lid 240, when the sealed lid 240 of installation, be convenient for be used for fast with the water column inlet opening 241 on the sealed lid 240, atomizing inlet opening 242 and gondola water faucet inlet opening 243 respectively with the water column chamber that corresponds, atomizing chamber and gondola water faucet chamber aim at one by one.

In the illustrated embodiment, the outer peripheral wall of the seal cover 240 is extended with a positioning portion 246 along an axial direction facing the rotary plate 220, and both ends of the positioning portion 246 along a circumferential direction of the seal cover 240 are respectively provided with a first positioning point 2461 and a second positioning point 2462; the outer circumferential wall of the dial 220 extends in the radial direction by an abutment portion 224, and both ends of the abutment portion 224 in the circumferential direction of the dial 220 have a first abutment point 2241 and a second abutment point 2242, respectively. When the first motor 210 drives the rotating disc 220 to rotate relative to the sealing cover 240, so that the first abutting point 2241 abuts against the first positioning point 2461, the first through hole 222 and the atomizing water inlet hole 242 are coincided and communicated, and at this time, water flows out of the atomizing water outlet 232; when the second support point 2242 is supported by the second positioning point 2462, the second through hole 223 is coincided and communicated with the shower water inlet 243, and at this time, the shower water outlet 233 discharges water. When the rotating disc 220 rotates between the first positioning point 2461 and the second positioning point 2462 relative to the sealing cover 240 and is overlapped and communicated with the first through hole 222 and the water column water inlet 241, water is discharged from the water column water outlet 231 at the time.

In the embodiment, the first positioning point 2461 and the first abutting point 2241 are matched and positioned, and the second positioning point 2462 and the second abutting point 2242 are matched and positioned, so that as long as the first motor 210 is controlled to drive the first abutting point 2241 and the second abutting point 2242 of the turntable 220 to abut against the first positioning point 2461 and the second positioning point 2462 respectively, an atomized water type or a shower water type water outlet mode can be realized, and in this mode, the first motor 210 can drive the turntable 220 to control the communication state of the atomized water inlet hole 242, the water column water inlet hole 241 and the shower water inlet hole 243 without adopting a complex control method, so that different water type control is realized; in addition, the first positioning point 2461 and the first abutting point 2241, the second positioning point 2462 and the second abutting point 2242 can be used as positioning reference points when the rotary disc 220 is assembled with the sealing cover 240, so that assembly errors can be avoided.

In the embodiment shown in the figures, a partition plate 110 is disposed in the water outlet end of the body 100, the partition plate 110 has a shaft hole 111, the first shaft hole 111 connects the interior of the body 100 and the water outlet end, and the first motor 210 is installed in the body 100. The carousel 220 is equipped with connecting axle 225, and connecting axle 225 sets up in the middle part position of the one side that carousel 220 deviates from sealed lid 240, and connecting axle 225 stretches into in shaft hole 111 with first motor 210's pivot fixed connection to be equipped with first sealing washer (not shown) between the periphery wall of connecting axle 225 and the interior perisporium of shaft hole 111, first sealing washer is used for sealing the clearance between connecting axle 225 and the shaft hole 111.

In this embodiment, by providing the isolation plate 110, to isolate the inner space of the body 100 from the water outlet end, so that the first motor 210 can be fixed in the body 100 through the isolation plate 110, the connecting shaft 225 of the turntable 220 located in the water dividing head 230 extends into the body 100 through the shaft hole 111 to be connected with the rotating shaft of the first motor 210, the gap between the connecting shaft 225 and the shaft hole 111 is sealed by the first sealing ring, contact with the first motor 210 or other internal electrical components in the body 100 filled in the water tap can be prevented, short circuit is avoided, and the first motor 210 does not need high waterproof performance, so that the use cost of the motor can be reduced.

It will be appreciated by those skilled in the art that in other embodiments, the isolation plate 110 may not have the shaft hole 111, wherein the first motor 210 and the rotating disc 220 may be installed together between the water diversion head 230 and the water outlet end, and the first motor 210 is a waterproof motor.

Furthermore, a water pipe connector 112 is further arranged on one side of the isolation plate 110, which is away from the water outlet end of the body 100, the water pipe connector 112 and the shaft hole 111 are arranged at intervals, the water pipe connector 112 is communicated with the water outlet end, the water pipe connector 112 is used for being connected with a water pipe, the water pipe connector 112 is equivalent to the water inlet end of the body 100, and the water pipe of the water supply device is connected with the water outlet end of the body 100 through the water pipe connector 112, so that water supply to the faucet is realized. The water pipe joint 112 can be detachably connected with the water pipe, so that the water pipe is convenient for a user to detach and replace when the water pipe is aged.

In the embodiment shown in the figures, the water dividing head 230 has a connecting portion 238 along the axial direction, and the water dividing head 230 is detachably connected to the water outlet end of the body 100 through the connecting portion 238, so that the water outlet portion or the water dividing head 230 can be easily detached and cleaned when it is blocked.

Further, the outer peripheral wall of the connecting portion 238 is provided with an external thread, the inner peripheral wall of the water outlet end of the body 100 is provided with an internal thread matched with the external thread, and the water dividing head 230 is fixed to the water outlet portion in a threaded manner through threaded engagement of the external thread and the internal thread.

It will be appreciated by those skilled in the art that the illustrations are merely exemplary, and that in other embodiments, internal threads may be provided on the inner peripheral wall of the connecting portion 238, and external threads may be provided on the outer peripheral wall of the outlet portion. In addition, other detachable connection modes can be adopted between the water diversion head 230 and the water outlet part, such as clamping connection, or fixing by using conventional fixing pieces such as screws.

In the embodiment shown in the figures, a second sealing ring 260 is further disposed between the connecting portion 238 of the water dividing head 230 and the water outlet end of the body 100, and the second sealing ring 260 is used for sealing the connecting gap between the connecting portion 238 and the water outlet end. Specifically, the second sealing ring 260 is located between the end surface of the connecting portion 238 and the isolation plate 110, and when the connecting portion 238 is fixedly connected to the body 100, the end surface of the connecting portion 238 and the isolation plate 110 in the water outlet portion press the second sealing ring 260, so that a sealing effect is achieved, and water is prevented from leaking out from the connection between the water outlet portion and the connecting portion 238.

It will be appreciated that the second sealing ring 260 may also be disposed between the outer peripheral wall of the connecting portion 238 and the inner peripheral wall of the water outlet end of the body 100.

Referring to fig. 6 in conjunction with fig. 1 and 2, fig. 6 shows another exploded view of a faucet provided by an embodiment of the present invention.

For the water quantity regulator 300, the water quantity regulator 300 includes the second motor 310, the valve seat 330 and the valve core 320, one end of the valve seat 330 is provided with the mounting port 331, the other end of the valve seat 330 is connected with the water inlet pipe 332 and the water outlet pipe 333, the water outlet pipe 333 is used for communicating with the water outlet end of the body 100, the water inlet pipe 332 is used for communicating with the water delivery end of the water supply device, the valve core 320 is arranged in the mounting port 331, the second motor 310 is electrically connected with the water quantity control knob 400, the rotating shaft of the second motor 310 is connected with the valve core 320, and the second motor 310 is used for driving the valve core 320 to rotate so as to regulate the water outlet quantity of the water faucet. The second motor 310 may be a stepping motor.

In the embodiment, the water quantity control knob 400 controls the second motor 310 through the controller, the second motor 310 drives the valve core 320 to rotate to adjust the water yield, the rotation of the valve core 320 is completed through the motor, the force used when a user rotates to adjust is small, and the operation is simple; in addition, the water quantity control knob 400 is not connected with the valve seat 330 in a mechanical transmission manner, the water quantity control knob 400 is electrically connected with the second motor 310 and the controller, and the valve seat 330 only needs to be communicated with the water outlet end of the body 100 through the water outlet pipe 333, so that the valve core 320, the valve seat 330 and the second motor 310 in the water quantity regulator 300 can be arranged outside the body 100, the internal structure of the faucet is favorably simplified, the valve core 320 does not need to be disassembled from the body 100 and the water quantity control when being replaced, the replacement and the maintenance are simpler and more convenient, the water quantity is regulated and controlled in an electric control manner, and the operation is light and labor-saving.

In the illustrated embodiment, the valve core 320 includes a valve cap 321, a linkage shaft 322, a rotating valve body 323 and a fixed valve body 324, the valve cap 321 is fixedly connected with the fixed valve body 324, and the linkage shaft 322 and the rotating valve body 323 are located between the valve cap 321 and the fixed valve seat 330.

The rotary valve body 323 is provided with a first water inlet hole 3231 and a first water outlet hole 3232, the fixed valve body 324 is provided with a second water inlet hole 3241 and a second water outlet hole 3242, the first water inlet hole 3231 and the second water inlet hole 3241 are correspondingly arranged, the first water outlet hole 3232 and the second water outlet hole 3242 are correspondingly arranged, the fixed valve body 324 is fixedly connected with the valve seat 330, the second water inlet hole 3241 is communicated with the water inlet pipe 332, and the second water outlet hole 3242 is communicated with the water outlet pipe 333; the rotating valve body 323 is positioned between the linkage shaft 322 and the fixed valve body 324; one end of the linkage shaft 322 is located in the valve cap 321 and fixedly connected with the rotary valve body 323, the linkage shaft 322 is provided with a communication groove 3221 communicating the first water inlet hole 3231 and the first water outlet hole 3232, and the other end of the linkage shaft 322 penetrates out of the valve cap 321 and is fixedly connected with a rotating shaft of the second motor 310, so that the second motor 310 drives the rotary valve body 323 to rotate relative to the fixed valve body 324 through the linkage shaft 322, the size of an overlapping area of the first water inlet hole 3231 and the second water inlet hole 3241 of the rotary valve body 323 and/or the size of an overlapping area of the first water outlet hole 3232 of the rotary valve body 323 and the second water outlet hole 3242 of the fixed valve body 324 are/is changed, so as to adjust the amount of water flowing to the body 100 through the water amount adjuster 300 by the water inlet pipe 332, and thus adjust the water output amount of the faucet.

Further, a third sealing ring is disposed between the outer circumferential wall of the fixed valve body 324 and the inner circumferential wall of the valve seat 330, and the third sealing ring is used for sealing a connection gap between the outer circumferential wall of the fixed valve body 324 and the inner circumferential wall of the valve seat 330.

In some embodiments, the first water outlet port 3232 of the fixed valve body 324 and the second water outlet port 3242 of the rotary valve body 323 are coaxially disposed with the linkage shaft 322, that is, the first water outlet port 3232 is disposed at the center of the fixed valve body 324, the second water outlet port 3242 is disposed at the center of the rotary valve body 323, the first water inlet port 3231 is disposed at the outer side of the first water outlet port 3232, and the second water inlet port 3241 is disposed at the outer side of the second water outlet port 3242, so that when the rotary valve body 323 rotates relative to the fixed valve body 324, the first water outlet port 3232 and the second water outlet port 3242 are always in a completely overlapped communication state, and at this time, when the first water inlet port 3231 and the second water inlet port 3241 are completely overlapped, the water outlet amount of the water flow channel formed by the water inlet pipe 332, the second water inlet port 3241, the first water inlet port 3231, the 3221, the first water outlet port 3232, the second water outlet port 3242, and the water outlet pipe 333 is the largest; when the overlapping area of the first water inlet hole 3231 and the second water inlet hole 3241 becomes smaller, the water outlet amount of the water flow channel formed by the water inlet pipe 332, the second water inlet hole 3241, the first water inlet hole 3231, the communication groove 3221, the first water outlet hole 3232, the second water outlet hole 3242 and the water outlet pipe 333 is gradually reduced; when the first water inlet hole 3231 and the second water inlet hole 3241 are staggered, the first water inlet hole 3231, the communicating groove 3221 and the first water outlet hole 3232 cannot communicate with each other, and the faucet cannot discharge water.

The larger the adjustable range of the water amount is, the larger the size of the space occupied by the first water inlet hole 3231 and the second water inlet hole 3241 on the rotary valve body 323 and the fixed valve body 324 is, so that the first water outlet hole 3232 and the second water outlet hole 3242 are coaxially arranged with the linkage shaft 322, the first water inlet hole 3231 is arranged at the outer side of the first water outlet hole 3232, and the second water inlet hole 3241 is arranged at the outer side of the second water outlet hole 3242, so that the water amount can be adjusted by only adjusting the size of the overlapped area of the first water inlet hole 3231 and the second water inlet hole 3241, the space occupied by the first water outlet hole 3232 and the second water outlet hole 3242 can be reduced, the space where the first water inlet hole 3231 and the second water inlet hole 3241 can be arranged is increased, and the adjustable range of the water amount is increased.

Specifically, the first and second outlet holes 3232 and 3242 are circular slot holes, and the first and second inlet holes 3231 and 3241 are arc slot holes disposed in a circumferential direction outside the circular slot holes to increase an adjustable overlapping area of the first and second inlet holes 3231 and 3241 in the circumferential direction.

It will be appreciated that in some other examples, the first inlet opening 3231, the second inlet opening 3241, the first outlet opening 3232 and the second outlet opening 3242 may all be circular slots, or slots of other shapes.

In the embodiment shown in the figure, the water quantity regulator 300 further includes a connecting member 340, one end of the connecting member 340 is provided with a first fixing groove, the other end of the connecting member 340 is provided with a second fixing groove, the connecting member 340 is sleeved and fixed at one end of the linkage shaft 322 outside the valve cover 321 through the first fixing groove, and the other end of the connecting member 340 is sleeved and fixed at the rotating shaft of the second motor 310 through the second fixing groove.

In this embodiment, the rotating shaft of the second motor 310 is fixedly connected with the linkage shaft 322 of the valve core 320 by the connecting piece 340, so that the rotating shaft of the second motor 310 and the linkage shaft 322 of the valve core 320 do not need to be provided with a fixed structure matched with each other, which is beneficial to improving the reliability of the connection between the rotating shaft of the second motor 310 and the linkage shaft 322, and in addition, when the valve core 320 is aged, a user can conveniently replace the valve core 320 with other common valve cores 320 which can be matched with the valve seat 330, thereby reducing the use cost of the valve core 320.

In the embodiment shown in the figures, the water regulator 300 further comprises a fixing frame 350, the fixing frame 350 is provided with a receiving opening 351, the outer peripheral wall of the receiving opening 351 is provided with a combining portion, the fixing frame 350 is fixedly sleeved with the mounting opening 331 of the valve seat 330 through the combining portion, and the second motor 310 is fixed in the receiving opening 351.

In this embodiment, by providing the fixing frame 350, after the fixing frame 350 is fixed to the mounting hole 331 of the valve seat 330 by the coupling portion, the receiving hole 351 forms a closed space, thereby protecting the second motor 310.

Specifically, the joint portion is provided with external threads, the mounting port 331 of the valve seat 330 is provided with internal threads, or the joint portion is provided with internal threads, the external threads are arranged outside the mounting port 331 of the valve seat 330, the fixed connection between the fixing frame 350 and the valve seat 330 is realized through the screw connection matching of the internal threads and the external threads, the mode is convenient to disassemble and assemble, and the replacement and maintenance of the second motor 310 and the valve core 320 are facilitated.

In the embodiment shown in the figures, a mounting seat 120 is provided on a side wall of the body 100, the water quantity control knob 400 includes a first rotary encoder switch 410 and a first rotary disk 420, the first rotary encoder switch 410 is electrically connected to the second motor 310, the first rotary encoder switch 410 is fixed in the mounting seat 120, and the first rotary disk 420 is located outside the mounting seat 120 and is fixedly connected to a rotary shaft of the first rotary encoder switch 410.

The rotary coding switch can sense the rotation angle and the change of the rotation direction of the rotating shaft and output corresponding pulse signals, and dozens to thousands of pulse signals can be output when the rotating shaft of the rotary coding switch rotates for one circle. Therefore, when the first rotating disc 420 is rotated, the first rotating disc 420 drives the rotating shaft of the first rotary coding switch 410 to rotate, the first rotary coding switch 410 generates a pulse signal, the controller controls the rotating angle of the second motor 310 through the pulse signal, and the second motor 310 drives the rotating valve body 323 to rotate relative to the fixed valve body 324 through the linkage shaft 322 of the valve core 320, so as to adjust the water yield. As an example, every time the first rotating disk 420 outputs a pulse signal, the rotating shaft of the second motor 310 rotates by 1 degree, and when the rotating shaft of the first rotary encoder switch 410 is rotated in the reverse direction, the second motor 310 also rotates in the reverse direction.

In this embodiment, the first rotary encoder switch 410 is installed in the installation seat 120 of the body 100, and the first rotary disc 420 is located outside the installation seat 120 and is fixedly connected with the rotary shaft of the first rotary encoder switch 410, so that the first rotary encoder switch 410 can be protected, and the service life of the first rotary encoder switch can be prolonged. In addition, the rotary coding switch has small volume, light weight, small moment and quick response, and compared with a mode of directly connecting and controlling a mechanical control handle and a mechanical valve, the mode has high control sensitivity, and the whole connection structure of the water quantity control knob 400 of the body 100 is simple and compact.

Further, the water amount control knob 400 further includes a first bracket 430, one end of the first bracket 430 is provided with a first fixing plate 431, the other end of the first bracket 430 is provided with a first supporting shaft 432, the fixing plate is fixed in the mounting seat 120, and the supporting shaft extends out of the mounting seat 120. The first rotary encoder switch 410 is provided with a hole, the first rotary encoder switch 410 is sleeved on the first supporting shaft 432 through the first through hole 411, and the first rotary encoder switch 410 is fixedly connected with the first fixing disc 431. Wherein, the first through hole 411 is disposed at the middle position of the first rotary encoder switch 410; the first fixing plate 431 and the mounting base 120, and the first rotary encoder switch 410 and the first bracket 430 may be screwed and fixed by a fixing member such as a screw.

In this embodiment, by providing the first bracket 430, the first rotary encoder switch 410 is sleeved on the first supporting shaft 432 and is fixedly connected to the first fixing plate 431, so that the first rotary encoder switch 410 and the first rotating plate 420 are fixedly connected to the mounting seat 120 of the body 100 through the first bracket 430, thereby increasing the structural strength of the first rotary encoder switch 410 and making it less prone to damage.

In the embodiment shown in the figure, the faucet further includes a water temperature control knob 500 and an instant heating type heating pipe 600 electrically connected to the controller, the water temperature control knob 500 and the water amount control knob 400 are coaxially disposed on the same side wall of the body 100, and the instant heating type heating pipe 600 is disposed between the water outlet pipe 333 and the water inlet pipe 332 of the body 100. The instantaneous heating pipe 600 is used to heat the water inlet pipe 332 by the water flowing to the body 100, and the water temperature control knob 500 is used to control the heating temperature of the instantaneous heating pipe 600.

Traditional tap adopts the water of cold and hot delivery pipe of control valve control to mix and adjusts the temperature, and the user need rotate the open-ended size of cold and hot delivery pipe in the handle adjustment control valve, goes the mixed degree of adjustment cold and hot water to realize the regulation of temperature, and the regulation between water yield and the temperature can receive the interact, adjusts inconveniently.

In this embodiment, by setting the water temperature control knob 500 and the instant heating type heating pipe 600, since the instant heating type heating pipe 600 is controlled by the electric control mode of the water temperature control knob 500 to regulate the temperature of the water flowing to the body 100 of the water supply pipe, the water amount control knob 400 is also controlled by the electric control mode of driving the valve core 320 to rotate by the second motor 310, as long as the valve seat 330 and the instant heating type heating pipe 600 are arranged in the same water inlet pipe 332, the mode has a simple structure, the water temperature regulation and the water amount regulation cannot influence each other, the control is convenient, the operation is labor-saving, and the accurate water amount and water temperature control can be realized.

Further, a connecting frame 700 is further arranged between the water temperature control knob 500 and the water amount control knob 400, the water temperature control knob 500 is fixedly connected with the water amount control knob 400 through the connecting frame 700, the connecting frame 700 is of a cylindrical structure, one end of the connecting frame 700 is provided with a fixing hole, the other end of the connecting frame 700 is provided with a mounting groove 710, a first supporting shaft 432 of the first support 430 penetrates through the first rotary encoding switch 410 and the first rotating disc 420 and then is fixedly inserted into the fixing hole, so that one end of the connecting frame 700 is fixedly connected with the water amount control knob 400; the water temperature control knob 500 comprises a second rotary coding switch 510 and a second rotary disc 520, the second rotary coding switch 510 is electrically connected with the instant heating pipe 600, the second rotary coding switch 510 is installed in the installation groove 710, and the second rotary disc 520 is located outside the installation groove 710 and is fixedly connected with a rotary shaft of the second rotary coding switch 510, so that the other end of the connecting frame 700 is fixedly connected with the water temperature control knob 500. When the second rotating disc 520 is rotated, the rotating disc drives the rotating shaft of the second rotary coding switch 510 to rotate, so that the second rotary coding switch 510 can control and adjust the heating temperature of the instant heating pipe 600, thereby controlling the temperature of the outlet water flowing from the water inlet pipe 332 to the faucet.

Since the second rotary encoder switch 510 is an electrical component, it is fixed in the mounting groove 710 of the connection frame 700, so as to prevent the external environment from being exposed to the outside and protect the external environment, and in addition, the connection frame 700 can separate the water temperature control knob 500 from the water amount control knob 400, so as to prevent the two from moving and interfering when performing rotation control.

Further, the water temperature control knob 500 further includes a second bracket 530, one end of the second bracket 530 is provided with a second fixing plate 531, the other end of the second bracket 530 is provided with a second support shaft 532, and the second fixing plate 531 is fixedly installed in the installation groove 710 of the connection frame 700. The middle position of the second rotary encoder switch 510 is provided with a second through hole 511, the second rotary encoder switch 510 is sleeved on the second supporting shaft 532 through the second through hole 511, and the second rotary encoder switch 510 is fixedly connected with the second fixing disc 531.

Through the arrangement of the second bracket 530, the second rotary coding switch 510 can be sleeved on the second supporting shaft 532 and fixedly connected with the second fixing disc 531, so that the second bracket 530 can be used as a supporting framework of the first rotary coding switch 410, which is beneficial to increasing the structural strength of the first rotary coding switch 410.

In the embodiment shown in the figure, the top of the body 100 is further provided with a touch display screen 130, the touch display screen 130 is respectively electrically connected with the water quantity control knob 400, the first motor 210, the second motor 310, the water temperature control knob 500 and the instant heating pipe 600 and is used for controlling the water outlet type of the water type regulator 200, the heating water temperature of the instant heating pipe 600, the opening degree of the water quantity regulator 300 and the like, and the touch display screen 130 can also be used for displaying the target water supply type of the water supply device, the water outlet type of the water type regulator 200, the water temperature, the water flow and other parameters.

The user sends the control instruction to the controller through the touch display screen 130, and relevant electrical components are controlled to work through the controller, and simultaneously, the user can visually observe and set water flow, water temperature, water outlet type, target water supply type and the like, so that the user can intelligently control the faucet.

In the embodiment shown in the figures, an infrared sensor 140 is further disposed on a side of the body 100 facing the user, wherein the infrared sensor 140 may be disposed on a sidewall of the body 100 facing the water outlet portion, and the infrared sensor 140 is electrically connected to the water quantity regulator 300, so that the user can control the water outlet of the faucet through the infrared sensor 140 without using the water quantity control knob 400 or the water quantity control knob 400 being inoperable.

In another aspect of the embodiments of the present invention, there is also provided a water supply control system, wherein the water supply control system includes a water supply device and the water faucet in the above embodiments, and the structure of the water faucet is the same as the structure and function of the above embodiments, and detailed description is not repeated here.

The water delivery end of the water supply device is communicated with the water inlet end of the body 100, the water quantity regulator 300 is arranged in a water delivery pipeline between the water delivery end of the water supply device and the water inlet end of the body 100, that is, the water inlet pipe 332 of the valve seat 330 in the water quantity regulator 300 is communicated with the water delivery end of the water supply device, the water outlet pipe 333 of the valve seat 330 is communicated with the water pipe of the body 100, the water supply device is used for delivering different target water supply types to the faucet, and the water supply device is electrically connected with the controller, so that the water supply device can be electrically connected with the electrical components of the faucet, such as the first motor 210 of the faucet, the water quantity control knob 400, the second motor 310 of the water quantity regulator 300, the water temperature control knob 500, the instant heating pipe 600, the touch display screen 130 and the like through the controller. The controller may also be used to adjust the target outlet water type of the water type regulator 200 according to the target water supply type of the control target water supply device.

The target water supply type of the water supply device refers to a water type, such as tap water, soft water, pure water and the like, which is delivered to the outside after the water supply device is processed by different built-in filter elements and the like. The water outlet type refers to different water outlet modes such as water column type, shower water type and atomized water type, etc. which are discharged from different water outlets of the water type regulator 200 in the above embodiments. Also, the target water supply type may be controlled by a user through a key input or a communication input with a faucet through a mobile terminal.

The controller can control the first motor 210 of the water type regulator 200 to work according to a built-in control mode, and automatically control the water outlet mode of the water distribution head 230. Different water application scenes are different, and when the water supply device can deliver different water to the water faucet according to the water supply device, the first motor 210 is started to rotate to drive the rotating disc 220 of the water distribution head 230 to rotate, so that different water outlets of the water distribution head 230 can discharge water. As an example, when the water supply device supplies pure water to the faucet, the water supply device controls the first motor 210 to drive the rotating disc 220 to rotate, so that the water outlet 231 of the water column discharges water; when the water supply device delivers tap water to the faucet, the water supply device controls the first motor 210 to drive the rotating disc 220 to rotate, so that the water outlet 233 of the shower head or the atomized water outlet 232 discharges water.

The controller can also control the first motor 210 to rotate according to the water supply amount controlled by the water amount control knob 400, so that the water distribution head 230 can distribute water from different water outlets according to the water supply amount. For example, when the opening degree of the valve body in the water quantity regulator 300 regulated by the water quantity control knob 400 is greater than 60%, at this time, the water supply device drives the first motor 210 to rotate, so that the water outlet 231 of the water column discharges water; when the opening of the water outlet of the valve seat 330 regulated by the water amount control knob 400 is greater than 30% and less than 60%, the water supply device drives the first motor 210 to rotate, the shower water outlet 233 discharges water, and when the opening of the water outlet of the valve seat 330 regulated by the water amount control knob 400 is less than 30%, the water supply device drives the first motor 210 to rotate, and the atomized water outlet 232 discharges water. Similarly, the water supply device can also control the culvert of the first motor 210 group through the water temperature controlled by the water temperature control knob 500, so that the water distribution head 230 can output water from different water outlets according to the water temperature.

It can be understood that the water supply device can control the operation of the first motor 210 according to one or more parameters of the opening degree of the valve body in the water quantity regulator 300 regulated by the water quantity control knob 400, the water supply temperature regulated by the water temperature control knob 500, and the type of water delivered to the faucet by the water supply device, so as to control the water outlet of different water outlets under different parameters.

In addition, the controller can control different water outlets to discharge water through the control instruction of the user on the touch display screen 130 on the faucet, the user can intuitively control and select through the touch display screen 130, and the control in the mode is simple and convenient.

It should be noted that the controller may be built in the water supply device or the body 100 of the faucet, or the controller is an upper computer detachably connected to the water supply device and the electrical components of the faucet through data interfaces.

The water supply control system in the embodiment has the advantages that the same beneficial effects as those of the embodiment can be realized, and the water supply device is electrically connected with the water faucet, so that the control of the water faucet is more intelligent.

It should be noted that unless otherwise indicated, technical or scientific terms used in accordance with embodiments of the present invention shall have the ordinary meaning as understood by those skilled in the art to which embodiments of the present invention pertain.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the scope of the embodiments of the present invention, and are intended to be covered by the claims and the specification. In particular, the technical features mentioned in the embodiments can be combined in any way as long as there is no structural conflict. The present invention is not limited to the particular embodiments disclosed herein, but encompasses all technical solutions falling within the scope of the claims.

Claims (10)

1. A faucet, comprising: the water-saving device comprises a body, a water type regulator, a water quantity control knob and a controller;

the water type regulator comprises a first motor, a rotary disc and a water dividing head, one end of the water dividing head is fixed at the water outlet end of the body, the other end of the water dividing head is provided with at least two water outlets with different water outlet types, the rotary disc is arranged in the water dividing head and is provided with a communication hole, and the first motor is used for driving the rotary disc to rotate relative to the water dividing head so as to enable the communication hole to be communicated with the water outlet corresponding to the target water outlet type, so as to control the water outlet of the water outlet with different water outlet types;

the water quantity regulator is connected to the water inlet end of the body;

the water quantity control knob is connected to the outer wall of the body;

the controller respectively with first motor, water yield regulator with the water yield control knob electricity is connected, the controller is used for according to the regulation of target play water type the play water type of water type regulator, and be used for according to the control signal adjustment of water yield control knob the aperture of water yield regulator is in order to adjust tap's water yield.

2. The faucet of claim 1, wherein a sealing cover is further arranged in the water dividing head, the sealing cover is provided with at least two water inlet holes, and each water inlet hole is communicated with one water outlet;

the rotary disc is attached to the top of the sealing cover and is in rotating connection with the sealing cover, and the rotary disc rotates relative to the sealing cover so that one of the at least two water inlet holes is communicated with the water outlet end.

3. The faucet of claim 2, wherein the water inlets include a water column inlet, an atomization inlet, and a shower inlet;

the water outlet comprises a water column water outlet, an atomized water outlet and a shower head water outlet;

a water column cavity, an atomization cavity and a shower head cavity are arranged in the water distribution head; the sealed lid is located the water column chamber the atomizing chamber with the top in gondola water faucet chamber, and the water column chamber intercommunication the water column inlet opening with the water column delivery port, the atomizing chamber intercommunication the atomizing inlet opening with the atomizing delivery port, the gondola water faucet chamber intercommunication gondola water faucet inlet opening and gondola water faucet delivery port.

4. The faucet of claim 3, wherein the sealing cap is removably attached within the dividing head.

5. The faucet according to any one of claims 1 to 4, wherein a partition plate is arranged in the water outlet end of the body, the partition plate is provided with a shaft hole, and the first motor is mounted in the body;

the carousel is equipped with the connecting axle, the connecting axle stretch into in the shaft hole with the pivot fixed connection of first motor, and the periphery wall of connecting axle with be provided with first sealing washer between the internal perisporium in shaft hole.

6. The faucet according to any one of claims 1 to 4, wherein the water flow regulator comprises a second motor, a valve core and a valve seat, one end of the valve seat is provided with a mounting port, the other end of the valve seat is connected with a water inlet pipe and a water outlet pipe, the water inlet pipe is used for being communicated with a water supply device, the water inlet pipe is used for being communicated with the water inlet end of the body, the valve core is mounted in the mounting port, the second motor is electrically connected with the controller, a rotating shaft of the second motor is connected with the valve core, and the second motor is used for driving the valve core to rotate so as to regulate the water outlet flow of the faucet.

7. The faucet of claim 6, wherein the valve cartridge comprises a valve cover, a fixed valve body fixedly connected with the valve cover, and a linkage shaft and a rotary valve body positioned between the valve cover and the fixed valve body;

the rotating valve body is provided with a first water inlet hole and a first water outlet hole, and is positioned between the linkage shaft and the fixed valve body;

the fixed valve body is provided with a second water inlet hole and a second water outlet hole, the fixed valve body is fixedly connected with the valve seat, the second water inlet hole is communicated with the water inlet pipe, and the second water outlet hole is communicated with the water outlet pipe;

one end of the linkage shaft is located in the valve cover and fixedly connected with the rotary valve body, a communication groove communicated with the first water inlet hole and the first water outlet hole is formed in the linkage shaft, and the other end of the linkage shaft penetrates through the valve cover and is fixedly connected with a rotating shaft of the second motor.

8. The faucet of claim 6, wherein a side wall of the body is provided with a mounting seat;

the water quantity control knob comprises a first rotary coding switch and a first rotary disc, the first rotary coding switch is electrically connected with the second motor, the first rotary coding switch is fixed in the mounting seat, and the first rotary disc is positioned outside the mounting seat and fixedly connected with a rotary shaft of the first rotary coding switch.

9. The faucet of claim 8, wherein the water volume control knob further comprises a first bracket, wherein a first fixing disc is arranged at one end of the first bracket, a first supporting shaft is arranged at the other end of the first bracket, the first fixing disc is fixed in the mounting seat, and the first supporting shaft extends out of the mounting seat;

the first rotary coding switch is provided with a first through hole, the first rotary coding switch is sleeved on the first supporting shaft through the first through hole, and the first rotary coding switch is fixedly connected with the first fixed disc.

10. A water supply control system comprising a water supply device and a faucet of any one of claims 1-9, wherein a water delivery end of the water supply device is connected to a water inlet end of the body, the water supply device is electrically connected to the controller, and the controller is further operable to control a target type of water supply provided by the water supply device to the faucet.

Images