CN209853856U - Intelligent faucet and water taking control system - Google Patents

Abstract

The utility model provides an intelligence tap and water intaking control system. The intelligent water tap comprises a water outlet pipe, a switch element, a control element, a direct drinking water inlet pipe, a domestic water inlet pipe and an execution element. The control element is arranged on the water outlet pipe, the switch element is connected with the control element, and the switch element is used for inputting signals to the control element. The water outlet pipe is respectively connected with the direct drinking water inlet pipe and the domestic water inlet pipe through the execution element. The execution element is connected with the control element and selectively communicates the water outlet pipe with the direct drinking water inlet pipe or communicates the water outlet pipe with the domestic water inlet pipe based on the control signal of the control element. The utility model discloses intelligent tap not only can easily carry out intelligent control to the water in the outlet pipe, moreover, can also the line machine of lug connection, also can be used for ordinary purifier, and the commonality is strong.

Description

Intelligent faucet and water taking control system

Technical Field

The utility model relates to a water purification technology field specifically, relates to intelligent tap and water intaking control system.

Background

At present, the types of the water tap can be divided into two types, one type is a mechanical water tap, and the other type is an intelligent water tap.

The mechanical faucet controls the switch of the faucet through the operating handle to switch on and off the water path. The intelligent water tap is an intelligent sensing water tap or a touch sensing water tap, the intelligent water-saving and automatic sensing control is performed on and off, hands or water containers and washing articles are stretched into a sensing range, the water tap can automatically discharge water, and the water discharge can be stopped after the water tap leaves. The touch type induction faucet controls the water outlet of the faucet in a touch mode.

There are two types of existing intelligent faucets:

1. intelligent display and mechanical operation of ball valve to control water discharge. Although the intelligent faucet has an intelligent display function (such as displaying water outlet types and water outlet time), the intelligent faucet is single in operation mode, poor in user water taking experience feeling, and not attractive enough due to the fact that a mechanical handle is required in appearance.

2. Intelligent display, electric signal control water outlet (no actuator such as water inlet solenoid valve). The intelligent faucet is good in use experience, but cannot be directly connected with a pipeline machine due to the fact that no executing element such as a water inlet electromagnetic valve exists. For example, there is a water purifier in the prior art, and its theory of operation is: the intelligent faucet supplies electric signals to the water purifier, the water purifier works, and water is supplied to the intelligent faucet after a water purification electromagnetic valve of the water purifier is opened; however, if when connecting the pipeline machine, because the pipeline machine can not provide the signal of telecommunication and make the water purification solenoid valve of purifier open for the purifier, so the intelligent tap of this kind of scheme can't directly be used for connecting the pipeline machine, just so, to this section purifier, forced to develop a section water box and solved this problem, the use of water box has increaseed the cost greatly undoubtedly.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention provides an intelligent faucet for at least partially solving the problems of the prior art.

The utility model provides an intelligent water tap, including outlet pipe, switching element, control element, straight drinking water inlet tube, domestic water inlet tube and execute component. The control element is arranged on the water outlet pipe, the switch element is connected with the control element, and the switch element is used for inputting signals to the control element. The water outlet pipe is respectively connected with the direct drinking water inlet pipe and the domestic water inlet pipe through the execution element. The execution element is connected with the control element and selectively communicates the water outlet pipe with the direct drinking water inlet pipe or communicates the water outlet pipe with the domestic water inlet pipe based on the control signal of the control element. Owing to be provided with straight drinking water inlet tube, domestic water inlet tube and execute component, execute component links to each other with control component and based on control element's control signal selectively communicates outlet pipe and straight drinking water inlet tube, perhaps, communicates outlet pipe and domestic water inlet tube, like this, not only can easily carry out intelligent control to the water in the outlet pipe, moreover, can also the directness connect the pipeline machine, also can be used for ordinary purifier, the commonality is strong.

Illustratively, the actuating element is a double water inlet solenoid valve or two single water inlet solenoid valves. Through a two solenoid valve of intaking or two single solenoid valve of intaking selectively communicate outlet pipe and straight drink water inlet tube, perhaps, communicate outlet pipe and domestic water inlet tube, not only control simply, moreover, when being connected with the purifier, can save the solenoid valve that drains on the purifier.

Exemplarily, the switch element includes a direct drinking water switch and a domestic water switch, the direct drinking water switch is used for sending a first input signal containing direct drinking water outlet time information, the domestic water switch is used for sending a second input signal containing domestic water outlet time information, and the control element receives the first input signal or the second input signal and sends a direct drinking water taking or domestic water taking control signal to the execution element after processing. When direct drinking water is taken, the water outlet time of the direct drinking water can be conveniently adjusted only by operating the direct drinking water switch; when the domestic water is taken, the water outlet time of the domestic water can be conveniently adjusted only by operating the domestic water switch.

Illustratively, the intelligent faucet further comprises a display element, the display element is electrically connected with the control element, and the display element is used for displaying water mode, water outlet type, water outlet quantity, direct drinking water quality condition, domestic water quality condition or service life information of a filter element of a water purifier connected with the intelligent faucet. Based on the display element setting, not only can demonstrate water mode, play water type, water yield, straight drinking water quality of water condition, life water quality of water condition, can also show the water purifier filter core life-span that links to each other with intelligent tap.

Illustratively, the intelligent water faucet further comprises a timing element, the timing element is connected with the control element, the timing element starts to count down at the time of taking direct drinking water so as to record the time of remaining available direct drinking water, and when the counted down time reaches a preset time, the control element controls the display element to display the service life reminding information of the filter element of the water purifier. Based on the setting of the timing element, when the countdown time reaches a preset time, the display element can display the service life reminding information of the filter element of the water purifier, so that the filter element can be replaced in time.

Illustratively, the intelligent faucet further comprises a power supply line electrically connected with the control element and the display element respectively. The control element and the display element can be supplied with power by the power supply line.

According to the utility model discloses an on the other hand provides a water intaking control system, including intelligent tap, purifier, pipeline machine and three way connection. The intelligent faucet is the intelligent faucet. The water purifier comprises a direct drinking water pipeline and a living water pipeline, wherein a water purifying execution element is arranged on the direct drinking water pipeline. The inside intake valve that has of pipeline machine. The three-way joint has first interface, second interface and third interface, first interface with directly drink water pipe connection, the second interface with intelligent tap's straight drink water inlet pipe connects, the third interface with the inlet valve of pipeline machine is connected. Wherein, the domestic water pipeline with intelligent tap's domestic water inlet tube is connected. The utility model discloses a water intaking control system, based on the last execute component setting of intelligent tap, not only can easily carry out intelligent control to the water in the outlet pipe, moreover, can also the line machine of lug connection, also can be used for ordinary purifier, and the commonality is strong.

Illustratively, a first water quality sensor is arranged on the direct drinking water pipeline and is in communication connection with a control element of the intelligent faucet. Based on the setting of first quality of water sensor, can feed back the straight drinking water quality of water condition of purifier to the control element to can carry out visual display through display element.

Exemplarily, a second water quality sensor is arranged on the domestic water pipeline, and the second water quality sensor is in communication connection with the control element of the intelligent water faucet. Based on the setting of second quality of water sensor, can feed back the life water quality condition to the control element to can carry out visual display through display element.

Illustratively, a reverse osmosis processor for performing reverse osmosis treatment and a pressure barrel for storing pure water after the reverse osmosis treatment are arranged on the straight drinking water pipeline, and the water purification execution element comprises a water inlet electromagnetic valve which is arranged on an upstream waterway of the reverse osmosis processor and is used for controlling water inlet of the water purifier; and the high-pressure switch is arranged on a water path between the reverse osmosis processor and the pressure barrel. Because set up reverse osmosis treatment ware and pressure bucket on the straight drinking water pipeline, can be in advance with the pure water entering pressure bucket after reverse osmosis treatment ware filters in store, like this, when needs, can directly filter the use with the pure water in the pressure bucket. Based on the use of the water inlet electromagnetic valve and the high-voltage switch, when direct drinking water is taken, because the execution element of the intelligent faucet is communicated with the water outlet pipe and the direct drinking water inlet pipe, the pipeline is decompressed, the high-voltage switch is closed after sensing a low-voltage signal, the water inlet electromagnetic valve of the water purifier is opened, and the water purifier starts to work; when getting pipeline machine water, the inside inlet valve of pipeline machine is opened, and the pipeline pressure release, high-voltage switch feel closed behind the low pressure signal equally, and the purifier solenoid valve that intakes opens, and the purifier begins to work.

Drawings

The above and other objects, features and advantages of the present invention will become more apparent by describing in more detail embodiments of the present invention with reference to the attached drawings. The accompanying drawings are included to provide a further understanding of the embodiments of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description, serve to explain the invention and not to limit the invention. In the drawings, like reference numbers generally represent like parts or steps.

Fig. 1 is a schematic structural diagram of an intelligent faucet according to an embodiment of the present invention;

fig. 2 is a control schematic block diagram of an intelligent faucet according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a water intake control system according to an embodiment of the present invention.

Wherein the figures include the following reference numerals:

100-intelligent water tap; 110-a water outlet pipe; 120-a switching element; 121-direct drinking water switch; 122-domestic water switch; 130-a control element; 140-direct drinking water inlet pipe; 150-domestic water inlet pipe; 160-an actuator; 170-display elements; 180-a timing element; 190-supply line; 200-a water purifier; 201-tap water inlet; 202-polypropylene cotton filter element device; 203-compressing the activated carbon filter element device; 204-a reverse osmosis processor; 205-granular activated carbon filter element device; 206-pressure barrel; 207-a second water quality sensor; 208-water inlet electromagnetic valve; 209-a booster pump; 210-a high voltage switch; 211-a check valve; 212-a first water quality sensor; 213-concentrated water electromagnetic valve; 300-a pipeline machine; 400-a three-way joint; 401 — a first interface; 402-a second interface; 403-third interface.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, exemplary embodiments according to the present invention will be described in detail below with reference to the accompanying drawings. It is to be understood that the described embodiments are merely exemplary of the present invention and are not intended to limit the invention to the particular embodiments described herein. Based on the embodiments of the present invention described in the present application, all other embodiments obtained by those skilled in the art without creative efforts shall fall within the protection scope of the present invention.

The intelligent control degree of the water faucet and the water taking control system in the prior art is poor, the water line machine cannot be connected, and the problem that the demand of people for increasing living quality is increased day by day cannot be met. The utility model provides an intelligence tap and water intaking control system, wherein, water intaking control system includes intelligent tap, purifier and pipeline machine.

As shown in fig. 1 and fig. 2, the intelligent faucet 100 of the present invention includes an outlet pipe 110, a switch element 120, a control element 130, a direct drinking water inlet pipe 140, a domestic water inlet pipe 150, and an actuator 160. The control element 130 is arranged on the water outlet pipe 110, the switch element 120 is connected with the control element 130, the switch element 120 is used for inputting signals to the control element 130, the control element 130 outputs control signals according to the input signals of the switch element 120, and the control signals control the action of the execution element 160 to control the water outlet condition of the intelligent faucet. The water outlet pipe 110 is connected to the direct drinking water inlet pipe 140 and the domestic water inlet pipe 150 through the actuator 160, and the actuator 160 selectively communicates the water outlet pipe 110 with the direct drinking water inlet pipe 140 or communicates the water outlet pipe 110 with the domestic water inlet pipe 150 based on the control signal of the control element 130. Therefore, the user can easily carry out intelligent control on the water outlet condition of the intelligent faucet through the operation of the switch element 120, the intelligent control degree of the water taking control system is improved, and the increasingly higher requirements of people on the living quality are met.

Additionally, the utility model discloses an intelligent water tap 100 is owing to be provided with executive component 160, and executive component 160 communicates outlet pipe 110 and straight drinking water inlet tube 140 based on control element 130's control signal selectivity, or, communicates outlet pipe 110 and domestic water inlet tube 150, like this, not only can easily carry out intelligent control to the water in the outlet pipe, moreover, can also the directness connect the pipeline machine, also can be used for ordinary purifier, and the commonality is strong, and concrete principle will be described in detail in the following.

For example, the actuator 160 may be a dual water inlet solenoid valve, one water inlet of which is connected to the direct drinking water inlet pipe 140, and the other water inlet of which is connected to the domestic water inlet pipe 150. Of course, the actuator 160 may also be two single water inlet solenoid valves, wherein the water inlet of one single water inlet solenoid valve is connected to the direct drinking water inlet pipe 140, and the water inlet of the other single water inlet solenoid valve is connected to the domestic water inlet pipe 150. Selectively communicate outlet pipe 110 and straight drinking water inlet tube 140 based on a two solenoid valve or two single solenoid valve of intaking, or, communicate outlet pipe 110 and domestic water inlet tube 150, not only control simply, moreover, when being connected with the purifier, can save the solenoid valve that drains on the purifier, the purifier has saved behind the solenoid valve that drains, just can the direct connection pipeline machine in order to supply water for the pipeline machine.

Illustratively, the switch element 120 includes a direct drinking water switch 121 and a domestic water switch 122, the direct drinking water switch 121 is configured to send a first input signal containing direct drinking water outlet time information, the domestic water switch 122 is configured to send a second input signal containing domestic water outlet time information, and the control element 130 receives and processes the first input signal or the second input signal and sends a direct drinking water taking or domestic water taking control signal to the execution element 160. When direct drinking water is taken, the water outlet time of the direct drinking water can be conveniently adjusted only by operating the direct drinking water switch 121; when the domestic water is taken, the water outlet time of the domestic water can be conveniently adjusted only by operating the domestic water switch 122. Direct drinking water switch 121 and life water switch 122 all can be electronic switch, like this, can conveniently adjust the water intaking volume of water intaking control system through electronic switch, satisfy user's user demand. For example, the time for the intelligent faucet to output direct drinking water once can be 10 seconds, 20 seconds and the like by adjusting the direct drinking water switch 121; the living water switch 122 can also be adjusted to enable the water running time of the intelligent faucet in a single birth to be 10 seconds, 20 seconds and the like.

Illustratively, the intelligent faucet 100 further comprises a display element 170, the display element 170 is electrically connected to the control element 130, and the display element 170 is used for displaying the water mode, the water outlet type, the water outlet amount, the quality of the direct drinking water, the quality of the domestic water, or the service life information of the filter element of the water purifier connected to the intelligent faucet. Based on the display element 170, not only can the water mode, the water outlet type, the water yield, the direct drinking water quality condition and the domestic water quality condition be displayed, but also the service life of the filter element of the water purifier connected with the intelligent faucet can be displayed. It should be noted that the water discharging mode includes a time shift control mode, a flow shift control mode, and a flow speed shift control mode of cyclic switching (as the water discharging mode is the prior art, it is not described herein in detail, and specifically, reference may be made to the previous technology of the applicant, for example, the technology disclosed in publication No. CN 207158826U). The water outlet types comprise direct drinking water and domestic water. The water yield is the amount of single water outlet and is related to the single water outlet time.

Illustratively, the intelligent faucet 100 further comprises a timing element 180, the timing element 180 is connected to the control element 130, the timing element 180 starts counting down at the time of taking direct drinking water to record the time of remaining direct drinking water, and the control element 130 controls the display element 170 to display the water purifier filter element life reminding information when the counted down time reaches a preset time. Based on the setting of the timing element 180, when the countdown time reaches a preset time, the display element 170 can display a service life reminding message of the filter element of the water purifier, so that the filter element can be replaced in time.

Illustratively, the smart faucet 100 further includes a power supply line 190, and the power supply line 190 is electrically connected to the control element 130 and the display element 170, respectively. The power supply line is provided to supply power to the control element 130 and the display element 170, for example, in a water intake control system described later, the power supply line 190 may be connected to a main control board (not shown) of the water purifier 200, so that the water purifier 200 supplies power to the intelligent faucet 100 and transmits signals.

As shown in fig. 3, the water intake control system includes an intelligent faucet 100, a water purifier 200, a pipeline machine 300, and a three-way joint 400.

The smart faucet 100 is described in detail above.

The water purifier 200 comprises a direct drinking water pipeline and a living water pipeline, and a water purifying execution element is arranged on the direct drinking water pipeline. Particularly, the embodiment of the present invention provides a water purifier 200 which is a reverse osmosis water purifier, wherein a reverse osmosis processor 204 for performing reverse osmosis treatment and a pressure barrel 206 for storing pure water after reverse osmosis treatment are disposed on a direct drinking water pipeline, and a water purifying execution element comprises a water inlet solenoid valve 208 disposed on an upstream water path of the reverse osmosis processor 204 for controlling water inlet of the water purifier and a high-voltage switch 210 disposed on a water path between the reverse osmosis processor 204 and the pressure barrel 206. When the water purifier 200 works, the water inlet electromagnetic valve 208 is opened, raw water flows into the water inlet 201 through the tap water inlet and enters the reverse osmosis processor 204 after being subjected to pre-treatment, the reverse osmosis processor 204 is a reverse osmosis membrane component, generated pure water is stored in the pressure barrel 206 after reverse osmosis treatment, the wastewater discharge pipeline of the reverse osmosis processor 204 is provided with the concentrated water electromagnetic valve 213, and the wastewater discharge pipeline can be opened to discharge wastewater quickly when being opened, so that the reverse osmosis processor 204 is washed. Because the reverse osmosis processor 204 and the pressure barrel 206 are arranged on the direct drinking water pipeline, the pure water filtered by the reverse osmosis processor 204 can enter the pressure barrel 206 in advance for storage, so that the pure water in the pressure barrel 206 can be directly filtered for use when needed.

A check valve 211 is disposed in a water path between the reverse osmosis processor 204 and the pressure barrel 206 to prevent the reverse osmosis processor 204 from being damaged by the reverse osmosis processor 204 when the water pressure of the pure water in the pressure barrel 206 is too high.

Purifier 200 also performs pre-treatment by Placing Polypropylene (PP) cotton filter element device 202 and compressed activated Carbon (CTO) filter element device 203 on the upstream waterway of water inlet solenoid valve 208. Raw water is filtered by a polypropylene cotton filter element device 202, and further filtration is realized by a compressed activated carbon filter element device 203.

The water purifier 200 may also be provided with a booster pump 209 to boost the intake water. A booster pump 209 is provided on the water path between the water inlet solenoid valve 208 and the reverse osmosis processor 204.

The water purifier 200 further comprises a post-treatment system, such as a granular activated carbon filter 205, disposed in the water path between the pressure tank 206 and the three-way joint 400, for filtering the pure water generated by the reverse osmosis process or the pure water in the pressure tank 206 again.

Illustratively, a first water quality sensor 212 can also be arranged on the direct drinking water pipeline, and the first water quality sensor 212 is in communication connection with the control element 130 of the intelligent water tap 100. Based on the setting of first quality of water sensor 212, can feed back the straight drinking water quality condition of purifier to control element 130 to can carry out visual display through display element 170.

Illustratively, a second water quality sensor 207 may be further disposed on the living water pipeline, and the second water quality sensor 207 is communicatively connected to the control element 130 of the intelligent faucet 100. Based on the setting of the second water quality sensor 207, the water quality condition of the domestic water can be fed back to the control element 130, and can be visually displayed through the display element 170.

The water inlet valve is arranged inside the pipeline machine 300, and the pipeline machine 300 can be a pipeline machine which is common in the prior art, so that the pipeline machine is not described herein for a lot.

The three-way joint 400 is provided with a first interface 401, a second interface 402 and a third interface 403, the first interface 401 is connected with a direct drinking water pipeline of the water purifier, the second interface 402 is connected with the direct drinking water inlet pipe 140 of the intelligent water tap 100, and the third interface 403 is connected with an inlet valve of the pipeline machine 300. And, the living water pipeline of the water purifier is connected with the living water inlet pipe 150 of the intelligent faucet 100.

The utility model discloses a water intaking control system's theory of operation does:

1. taking domestic water: when a user touches or presses the domestic water switch 122 of the intelligent faucet, the execution element 160 is communicated with the water outlet pipe 110 and the domestic water inlet pipe 150, the domestic water pipeline of the water purifier 200 is opened, and after the tap water is filtered by the PP-CTO filter element device of the water purifier, the tap water is directly produced from the water outlet pipe 110 of the intelligent faucet.

2. Taking direct drinking water: the user touches or presses intelligent tap's straight drinking water switch 121, and executive component 160 communicates outlet pipe 110 and straight drinking water inlet tube 140, and the straight drinking water pipeline of purifier 200 is opened, and after the pipeline pressure release, the high-voltage switch 210 of purifier feels closed behind the low pressure signal, and the solenoid valve 208 of intaking is opened, and the purifier begins to work, and intelligent tap normally goes out straight drinking water.

3. Taking pipeline machine water: the inside solenoid valve of intaking of pipeline machine 300 is opened, and the pipeline pressure release, high-voltage switch 210 of purifier are closed after can feeling low pressure signal equally, and the solenoid valve 208 of intaking is opened, and purifier 200 can normally be given pipeline machine 300 moisturizing.

From the above, the utility model discloses based on the last execute component setting of intelligent tap, not only can easily carry out intelligent control to the water in the outlet pipe, but also, can also save the outlet solenoid valve on the purifier 200, like this, when the lug connection pipeline machine, the inside solenoid valve of intaking of pipeline machine 300 is opened, and during the pipeline pressure release, purifier 200 also can normally be given pipeline machine 300 moisturizing, thereby, the utility model discloses water intaking control system need not the water box and just can lug connection pipeline machine, also can be used for ordinary purifier, and the commonality is strong.

For other components of the water purifier, various structures that are present or may appear in the future may be adopted. The present invention is not intended to be limited thereto. Accordingly, these components will not be described in detail herein.

In the description of the embodiments of the present invention, it should be noted that unless explicitly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The present invention has been described in terms of the above embodiments, but it is to be understood that the above embodiments are for purposes of illustration and description only and are not intended to limit the invention to the described embodiments. Furthermore, it will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that many more modifications and variations are possible in light of the teaching of the present invention and are within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. An intelligent faucet, comprising:

a water outlet pipe;

the control element is arranged on the water outlet pipe and is connected with the control element, and the switch element is used for inputting signals to the control element;

a direct drinking water inlet pipe;

a domestic water inlet pipe; and

the water outlet pipe is respectively connected with the direct drinking water inlet pipe and the domestic water inlet pipe through the execution element;

the executing element is connected with the control element and selectively communicates the water outlet pipe with the direct drinking water inlet pipe or communicates the water outlet pipe with the domestic water inlet pipe based on a control signal of the control element.

2. The intelligent faucet of claim 1, wherein the actuator is one dual inlet solenoid valve or two single inlet solenoid valves.

3. The intelligent faucet according to claim 1 or 2, wherein the switch element comprises a direct drinking water switch and a domestic water switch, the direct drinking water switch is used for sending a first input signal containing direct drinking water outlet time information, the domestic water switch is used for sending a second input signal containing domestic water outlet time information, and the control element receives and processes the first input signal or the second input signal and sends a direct drinking water taking or domestic water taking control signal to the execution element.

4. The intelligent faucet of claim 1 or 2, further comprising a display element electrically connected to the control element, wherein the display element is used for displaying a water mode, a water outlet type, a water outlet amount, a quality of direct drinking water, a quality of domestic water, or life information of a filter element of a water purifier connected to the intelligent faucet.

5. The intelligent faucet of claim 4, further comprising a timing element, wherein the timing element is connected to the control element, the timing element starts counting down at the time of direct drinking water to record the time of the remaining direct drinking water, and the control element controls the display element to display a water purifier filter element life reminding message when the counted down time reaches a preset time.

6. The intelligent faucet of claim 4, further comprising a power cord electrically connected to the control element and the display element, respectively.

7. A water intake control system, comprising:

the smart faucet of any one of claims 1 to 6;

the water purifier comprises a direct drinking water pipeline and a domestic water pipeline, and a water purifying execution element is arranged on the direct drinking water pipeline;

the pipeline machine is internally provided with a water inlet valve; and

the three-way joint is provided with a first interface, a second interface and a third interface, the first interface is connected with the direct drinking water pipeline, the second interface is connected with a direct drinking water inlet pipe of the intelligent faucet, and the third interface is connected with a water inlet valve of the pipeline machine;

wherein, the domestic water pipeline with intelligent tap's domestic water inlet tube is connected.

8. The water intake control system of claim 7, wherein the direct drinking water pipeline is provided with a first water quality sensor, and the first water quality sensor is in communication connection with a control element of the intelligent faucet.

9. The water intake control system according to claim 7 or 8, wherein a second water quality sensor is arranged on the domestic water pipeline, and the second water quality sensor is in communication connection with the control element of the intelligent faucet.

10. The water intake control system according to claim 7 or 8, wherein the direct drinking water pipeline is provided with a reverse osmosis processor for performing reverse osmosis treatment and a pressure barrel for storing pure water after reverse osmosis treatment, and the pure water execution element comprises:

the water inlet electromagnetic valve is arranged on an upstream waterway of the reverse osmosis processor and is used for controlling the water inlet of the water purifier; and

and the high-pressure switch is arranged on a water path between the reverse osmosis processor and the pressure barrel.