CN210920264U - Water tap device - Google Patents

Abstract

The utility model relates to a faucet device, which comprises a valve body and a control system, wherein the valve body mechanism comprises a base component and a water valve component; the water valve assembly is installed in the base assembly, the control system is arranged in the valve body mechanism, the base assembly is communicated with the water pipe, the relative position of the water valve assembly and the base assembly is adjusted to control the water faucet device to be in a use state or a stop state, when the water faucet device is operated, the control system is triggered to detect the working state of the valve body mechanism, and when the water faucet device is in the stop state, the control system is in a dormant state.

Description

Water tap device

Technical Field

The utility model relates to a faucet device especially relates to a faucet device with control dress system.

Background

Water valves are commonly used in life for controlling the water outlet state of a water pipe. The water valve is arranged at the water outlet end of the water pipe, and the water pipe is controlled to be in an open or closed state or the water outlet quantity of the water pipe is controlled by changing the state of the water valve. However, in the actual use process, the user often forgets to adjust the water valve to be in the closed state after using, so that the water in the water pipe is always in the outflow state, and further the waste of water resources is caused. And the water contains a certain amount of impurity particles, if the water valve is in an unused state for a long time or the service life of the water valve is too long, the impurity particles are precipitated and adhered to the inner wall of the water valve, and the phenomenon affects the working efficiency of the water valve on one hand, and also pollutes the water to affect the drinking safety of a user on the other hand.

Along with the enhancement of health consciousness of a user, the water purifying device is widely used for ensuring the drinking safety of the user, and is used for filtering impurities in water and harmful substances to a human body. The water purified by the water purifier is connected to the water valve for users to use, but the water valve on the market is only used for controlling the use state of the water valve, and users cannot acquire the use parameters of the water valve, such as the cleanness of the interior of the water valve and the use state of the water purifier, and cannot know whether the purifier needs to be replaced or not. At present, an intelligent water valve is urgently needed, and a user can conveniently and visually know the use state of the water valve.

Disclosure of Invention

The main advantage of the present invention is that it provides a water tap device, wherein when the water tap device is operated, the water tap device can purify water, when the water tap device is in a closed state, the water tap device can not purify water, thereby making the use and purification synchronous, along with purifying promptly.

Another advantage of the present invention is that it provides a faucet assembly, wherein a user controls the operational status of the faucet assembly via the control system.

Another advantage of the present invention is to provide a faucet assembly, wherein the control system controls the faucet assembly to check the operational status of the faucet assembly.

Another advantage of the present invention is that it provides a faucet assembly, wherein when operated, a trigger signal is generated to drive the control system; when the faucet device is in an off state, the control system is in a dormant state.

Another advantage of the present invention is that it provides a faucet assembly, wherein the faucet assembly has a display screen to facilitate control by touch of the faucet assembly and to view the operational status of the faucet assembly.

Another advantage of the present invention is that it provides a faucet assembly, wherein the continuous use time of the faucet assembly exceeds a predetermined value, and the control system controls the faucet assembly to be in a non-use state.

Another advantage of the present invention is that it provides a faucet assembly, wherein the faucet assembly has an automatic flushing function, the control system monitors and automatically flushes the interior of the faucet assembly to keep the interior of the faucet assembly clean.

Another advantage of the present invention is that it provides a faucet assembly, wherein the faucet assembly is in use for more than a predetermined amount of time, and the control system automatically flushes the interior of the faucet assembly to keep the interior of the faucet assembly clean

Another advantage of the present invention is that it provides a faucet device, wherein the faucet device has a water leakage protection function, the control system monitors whether the faucet device is in a water leakage state, when the faucet device is in a water leakage state, the control system controls to send an alarm signal to the user, and controls the faucet device is in a water cut-off state.

Another advantage of the present invention is that it provides a faucet assembly, wherein the faucet assembly has a purifying function, and the control system can monitor the usage of a purifying device and feed back usage data to the user.

Another advantage of the present invention is that it provides a faucet device, wherein the service status of at least one purifying member of the water purifying device can be displayed, and when the purifying member can not effectively play the purifying efficiency, the control system feeds back the information to the user to remind the user to change in time.

Another advantage of the present invention is that it provides a faucet assembly, wherein the display brightness of a display module of the control system can be adjusted according to the usage requirement to reduce the loss of electrical energy of the faucet assembly.

Another advantage of the present invention is to provide a faucet assembly, wherein when the faucet assembly is operated by an operating member, a first control member is electrically connected to a second control member to drive the control system in an operating state.

The other advantages and features of the invention will be fully apparent from the following detailed description and realized by means of the instruments and combinations particularly pointed out in the appended claims.

In accordance with the present invention, the foregoing and other objects and advantages are achieved in accordance with the present invention which provides a faucet assembly, comprising a valve body and a control system, the valve body mechanism including a base assembly and a water valve assembly; the water valve assembly is installed in the base assembly, the control system is arranged in the valve body mechanism, the base assembly is communicated with the water pipe, the relative position of the water valve assembly and the base assembly is adjusted to control the water faucet device to be in a use state or a stop state, when the water faucet device is operated, the control system is triggered to detect the working state of the valve body mechanism, and when the water faucet device is in the stop state, the control system is in a dormant state.

In a preferred embodiment, the valve body mechanism comprises at least one water purifying assembly, the water purifying assembly is communicated with the water valve assembly, and the control system is electrically communicated with the water purifying assembly and is used for controlling the water purifying assembly to be in a purifying state when the water faucet device is operated; when the faucet device is in a stop state, the control system cannot drive the water purification assembly to be in a purification state.

In a preferred embodiment, the water valve assembly includes a water outlet member, a water inlet member, and a driving member, the water outlet member, the water inlet member, and the driving member are respectively mounted on the base assembly, and the water outlet member and the water inlet member are communicated with each other through the driving member.

In a preferred embodiment, the driving member includes a valve body and an operating member, the valve body is movably mounted on the base assembly, the operating member is coupled to the valve body, and the operating member is used to adjust the relative positions of a water inlet end and a water outlet end of the valve body and an end of the water inlet member and the water outlet member, respectively, so that the driving member is used to control the faucet device to be in an open state or a closed state.

In a preferred embodiment, the base assembly includes a first base and a second base, the first base being removably connected to the second base, the control system being mounted to the first base, the second base being in communication with the water line.

In a preferred embodiment, the control system comprises a trigger component and a control component, the trigger component and the control component are respectively arranged on the base component, the trigger component is electrically connected with the control component, when the operating component controls the faucet device to be operated, the trigger component forms a trigger signal and transmits the trigger signal to the control component, and the control component is used for detecting and controlling the use state of the faucet device.

In a preferred embodiment, the trigger assembly includes a first trigger disposed on the first base and a second trigger disposed on the operating member, the first trigger being communicatively and electrically connected to the second trigger, the operating member controlling the faucet assembly to be operated such that the first trigger and the second trigger form the trigger signal.

In a preferred embodiment, the control assembly includes a display module and a touch screen module, the display module and the touch screen module are respectively mounted on the first base, the display module is electrically connected to the touch screen module, the display module is configured to view data of a usage state of the faucet device, and the touch screen module is configured to control the usage state of the faucet device.

In a preferred embodiment, the control assembly comprises a strong stop module, the strong stop module is used for detecting the use state of the faucet device, the water valve assembly is in the water outlet state for more than a preset time, and the strong stop module controls the faucet device to be in the stop state.

In a preferred embodiment, the control assembly includes a rinse module for detecting cleanliness of the interior of the base assembly and performing a rinse process.

In a preferred embodiment, the control assembly comprises a water leakage protection module for monitoring the water leakage condition of the faucet device and controlling the use state of the faucet device.

In a preferred embodiment, the display module comprises a use state display module and a purifier state display module, and the use state display module and the purifier state display module are used for checking the use states of the faucet device and the water purification assembly.

In a preferred embodiment, the display module comprises a brightness adjusting module, and the brightness adjusting module is used for controlling the brightness change of the display module.

In a preferred embodiment, the flushing module comprises a monitoring module and a judging module, the monitoring module is used for monitoring the cleanliness of the interior of the base assembly and feeding back monitoring data to the judging module, and the judging module is used for controlling the flushing process of the faucet device.

Drawings

Fig. 1 is an overall schematic view of a faucet assembly according to a preferred embodiment of the present invention.

Fig. 2 is an exploded view of a faucet assembly according to a preferred embodiment of the present invention.

Fig. 3 is a sectional view of a faucet assembly according to a preferred embodiment of the present invention.

Fig. 4A and 4B are schematic views illustrating the use of the faucet assembly according to the preferred embodiment of the present invention.

Fig. 5 is a schematic view illustrating an application of the faucet assembly according to the preferred embodiment of the present invention.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents and other technical solutions without departing from the spirit and scope of the invention.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in a generic and descriptive sense only and not for purposes of limitation, as the terms are used in the description to indicate that the referenced device or element must have the specified orientation, be constructed and operated in the specified orientation, and not for the purpose of limitation.

It is understood that the terms "a" and "an" should be interpreted as meaning that a number of one element or element is one in one embodiment, while a number of other elements is one in another embodiment, and the terms "a" and "an" should not be interpreted as limiting the number.

A faucet device as shown in fig. 1 to 3, which includes a valve body unit 10 and a control system 20, wherein the valve body unit 10 is connected to a water pipe to control the use state of the valve body unit 10, so that the valve body unit 10 is in an open state or a closed state. When the valve body unit 10 is in an open state, water in the water pipe is discharged from the valve body unit 10; when the valve body unit 10 is in the closed state, the water cannot be discharged from the valve body unit 10. The control system 20 is provided to the valve body unit 10, and when the valve body unit 10 is operated, the control system 20 is used for monitoring the use state of the valve body unit 10, and when the valve body unit 10 is not operated, the control system 20 is in a sleep state to reduce the energy consumption of the control system 20.

It is worth mentioning that the valve body unit 10 has a water purifying function to remove impurities and harmful particles in water, so as to ensure the safety of drinking water for users. The prior art purification device carries out the purifying process with water earlier, and the water after the purification can be saved in a container to the user lasts and drinks, but the problem that this kind of mode exists lies in, and the water after the purification is in the long-time pollution that still can cause the purified water of saving process, causes and drinks the security. And control system 20 is used for control the purification process of valve body unit 10 to water works as when valve body unit 10 is operated, control system 20 control valve body unit 10 carries out the purification process, works as when valve body unit 10 is in the closed condition, control system 20 can not drive valve body unit 10 carries out the purification process to water. Therefore, the control system 20 controls the purification process of the valve body unit 10 to ensure that the water drunk by the user is always in a purified state.

It should be noted that the valve body unit 10 includes a base component 11 and a water valve component 12, the base component 11 is used for connecting the water pipe, the water valve component 12 is installed in the base component 11, and the valve body unit 10 is controlled to be in an open state or a closed state by operating different states of the water valve component 12. The faucet assembly is mounted to different mounting locations by the base assembly 11 according to different use requirements. It will be understood by those skilled in the art that the external shape of the base assembly 11 and the water valve assembly 12 is not a limitation of the present invention, and the base assembly 11 has good sealing performance to allow the water pipe to be stably connected to the water pipe, so as to prevent water from leaking from the connection gap between the base assembly 11 and the water pipe. Further, the water valve assembly 12 is detachably connected to the base assembly 11, so that the water valve assembly 12 or the base assembly 11 can be replaced or repaired, and the faucet device can be installed in different water pipes. The size of the base member 11 is adapted to the water pipe, and in another embodiment, the size of the connection end of the base member 11 is adjusted according to the size of the water pipe.

Further, the base assembly 11 includes a first base 111 and a second base 112, the water valve assembly 12 and the water pipe are respectively connected to the first base 111, the second base 112 is disposed on the first base 111, and the second base 112 enhances the connection stability between the water pipe and the first base 111. The water pipe and the water valve assembly 12 are communicated with each other through the first base 111, when the water valve assembly 12 is in an open state, the water pipe is communicated with the water valve assembly 12, and water in the water pipe enters the water valve assembly 12, so that the valve body unit 10 is in a use state; when the water valve assembly 12 is in a closed state, the water pipe is disconnected from the water valve assembly 12, water in the water pipe cannot flow through the water valve assembly 12, and the valve body unit 10 is in a closed state.

Furthermore, the first base 111 has a mounting chamber 1111 and a cavity 1112, the water valve assembly 12 includes a water outlet 121, a water inlet 122 and a driving member 123, the water outlet 121 and the water inlet 122 are respectively disposed on the first base 111, and one end of the water outlet 121 and one end of the water inlet 122 respectively extend into the mounting chamber 1111, and the positions of the water outlet 121 and the water inlet 122 mounted on the first base 111 respectively correspond to each other. The driving member 123 is movably disposed in the installation chamber 1111, and controls a communication state between the water outlet member 121 and the water inlet member 122 according to the position of the driving member 123 in the installation chamber 1111.

It should be noted that the driving member 123 includes a valve body 1231 and an operating member 1232, the valve body 1231 is rotatably disposed in the mounting chamber 1111, the operating member 1232 is axially connected to an end of the valve body 1231, and the operating member 1232 is disposed at one side of the first base 111, and provides a force to the operating member to change the position of the valve body 1231 in the mounting chamber 1111. Preferably, the operation member 1232 is coupled to the valve body 1231 by a threaded connection, but it is understood by those skilled in the art that the connection between the operation member 1232 and the valve body 1231 is not a limitation of the present invention, and the operation member 1232 can be coupled to the valve body 1231 by other connection methods, such as a snap-fit structure or an integrally formed structure.

Further, the valve body 1231 has an inlet end 12311, an outlet end 12312 and a solution chamber 12313, the inlet end 12311 and the outlet end 12312 are respectively connected to the solution chamber 12313, and the inlet end 12311 and the outlet end 12312 are located at the corresponding positions of the valve body 1231. In other words, the water inlet end 12311 and the water outlet end 12312 are located in the same vertical direction of the valve body 1231, when the operating element 1232 is vertically parallel to the first base 111, the directions of the water inlet end 12311 and the water outlet end 12312 are perpendicular to the connecting end of the water outlet member 121 and the water inlet member 122, and thus the water inlet end 12311 and the water outlet end 12312 are not communicated with each other, and the valve body 1231 blocks the water in the water inlet member 121 from flowing to the water outlet member 122. When the operation member 1232 is perpendicular to the first base 111, the directions of the water inlet end 12311 and the water outlet end 12312 are perpendicular to the connecting ends of the water outlet member 121 and the water inlet member 122, so that the water inlet end 12311 is communicated with the water inlet member 121, the water outlet end 12312 is communicated with the water outlet member 121 to realize the communication between the water inlet member 121 and the water outlet member 122 and the valve body 1231, respectively, and the water in the water inlet member 121 flows to the water outlet member 122 for use.

In one variation of the valve body 1231, the positions of the inlet end 12311 and the outlet end 12312 on the valve body 123 do not correspond, but the inlet end 12311 and the outlet end 12312 are located on two different sides of the valve body 123, i.e., water enters the solution chamber 12313 from the inlet end 12311 and then exits the outlet end 12312. The water inlet member 121 is opposite to the water inlet end 12311, the water outlet member 122 is opposite to the water outlet end 12312, when the position of the valve body 1231 changes, the water inlet member 121 is communicated with the water inlet end 12311, and when the water outlet member 122 is communicated with the water outlet end 12312, the valve body mechanism 10 is in a use state. When the position of the valve 1231 changes, the water inlet member 121 does not correspond to the water inlet end 12311, and the water outlet member 122 does not correspond to the water outlet end 12312, the valve mechanism 10 is in a closed state, and water in the water pipe cannot enter the valve mechanism 10.

It will be understood by those skilled in the art that the installation position of the operation member 1232 and the base assembly 11 and the relative position of the operation member 1232 and the first base 111 in the control state are not limitations of the present invention, and the operation member 1232 is used to control the relative positions of the water inlet end 12311 and the water outlet end 12312 and the water outlet member 121 and the water inlet member 122, respectively.

Further, the valve body mechanism comprises at least one water purifying assembly 13, the water purifying assemblies 13 are respectively communicated with the water inlet 122, the water purifying assemblies 13 are electrically and communicatively connected to the control system 20, and the control system 20 is used for controlling the working state of the water purifying assemblies 13. When the operating element 1232 controls the valve body 1231 to change the relative position state in the installation chamber 1111, the valve body mechanism 10 is in the use state, and the control system 20 controls the water purification assembly 13 to be in the purification state; the operating member 1232 controls the valve body 1231 to be in a stop state when the relative position of the installation chamber 1111 is changed, and the control system 20 does not drive the water purification assembly 13 to purify water.

Preferably, the water purification unit 13 has a plurality of purifiers, and the water passes through the purifiers to filter impurities and harmful particles in the purified water during the purification of the water by the water purification unit 13. The purifiers can be combined in parallel or in series to form the purification structure of the water purification assembly 13, the combination of the purifiers is not limited by the present invention, and when the control system 20 monitors the reduction of the purification efficiency of any one of the purifiers, the purifier can be replaced to maintain the purification efficiency of the water purification assembly 13.

It should be noted that the control system 20 includes a trigger assembly 21 and a control assembly 22, the trigger assembly 21 and the control assembly 22 are respectively mounted on the cavity 1112, and the trigger assembly 21 is electrically connected to the control assembly 22 to control the control state of the control assembly 22 on the faucet device. When the faucet assembly 10 is operated, the trigger assembly 21 generates a trigger signal, which is transmitted to the control assembly 22 to operate the control system 20; when the faucet assembly 10 is not operated, the trigger assembly 21 cannot generate the trigger signal, and the control system 20 is in a standby state to reduce power consumption of the control system 20.

Further, the triggering component 21 includes at least a first triggering member 211 and at least a second triggering member 212, the first triggering member 211 is electrically and communicatively connected to the second triggering member 212, and the first triggering member 211 and/or the second triggering member 212 are electrically connected to the control component 22, the triggering component 21 forms the triggering signal and feeds back the triggering signal to the control component 22, and the control component 22 can control the working state of the faucet device. The first trigger piece 211 and the second trigger piece 212 are respectively arranged on the valve body mechanism 10, and a certain preset distance is provided between the first trigger piece 211 and the second trigger piece 212, when the first trigger piece 211 and the second trigger piece 212 are in a touching state or the distance between the two is smaller than the preset distance, the first trigger piece 211 and the second trigger piece 212 form the trigger signal; when the distance between the first trigger 211 and the second trigger 212 exceeds the preset distance, the first trigger 211 and the second trigger 212 cannot form the trigger signal.

Preferably, the first triggering part 211 is disposed on the operation part 1232, the second triggering part 212 is disposed on the base component 11, and when the operation part 1232 is in a vertical state relative to the base component 11, the triggering component 21 cannot form the triggering signal, that is, when the operation part 1232 is in a horizontal state relative to the base component 11, the first triggering part 211 is far away from the second triggering part 212, and thus cannot form the triggering signal. The first trigger member 211 and the second trigger member 212 are a magnetic switch or a magnet, and the trigger signal is generated when the first trigger member 211 is close to the second trigger member 212, but it is understood by those skilled in the art that the type of the first trigger member 211 and the second trigger member 212 and the position of the first trigger member 211 and the second trigger member 212 mounted on the valve body mechanism 10 are not limitations of the present invention.

It should be noted that the control assembly 22 includes a display module 221 and a touch screen module 222, the display module 221 and the touch screen module 222 are respectively mounted on the base assembly 11, wherein the display module 222 is electrically and communicatively connected to the touch screen module 222. The user can check the usage status of the faucet device, such as the water output of the faucet device, the usage status of the water purifying assembly 13, the cleanliness of the interior of the valve mechanism 10, etc., through the display module 222. The user controls the control system 20 via the touch screen module 222, for example, the display module 22 displays brightness, display content or implements control content for the faucet device. The display module 221 and the touch screen module 22 are activated to be in a working state after the trigger signal is formed according to the trigger assembly 21, or the display module 221 and the touch screen module 222 are in a standby state in real time, so that a user can operate the control assembly 22 in real time to control the working state of the water valve state, that is, the working states of the display module 221 and the touch screen module 2222 are not affected by the trigger assembly 21, and when the faucet device is in a use state or a stop state, both the display module 221 and the touch screen module 222 can be in the working state.

Further, the display module 221 includes a usage status display module 2211 and a purifier status display module 2212, the usage status display module 2211 is electrically connected to the valve body mechanism 10 for monitoring usage data of the valve body mechanism 10, the usage data is understood as usage status data of the faucet device, such as the usage status or the closing status of the valve body mechanism 10, or the water outlet amount of the water valve assembly 12 or the cleanliness of the interior of the base assembly 11.

Further, the display module 221 includes a brightness adjusting module 2213, the brightness adjusting module 2213 is electrically connected to the display module 221, and the brightness adjusting module 2213 is configured to control the display brightness of the display module 221, so as to reduce power consumption of the display module 221. When the display module 221 is not triggered or the display module 221 is not triggered to be operated within a certain preset time, the display module 221 is in a sleep state, and the display of the brightness is reduced; when the display module 221 is operated, the brightness adjusting module 2213 controls the display module 221 to be in a bright screen state, and can adjust the display brightness of the display module 221 according to the use habit thereof. The brightness adjustment module 2213 has a memory function, that is, when the display module 221 is in a bright screen state, the brightness that is initially set is achieved in advance.

Further, the display module 221 includes a purifier selection module 2214, the purifier selection module 2214 is electrically connected to the touch screen module 222, and the usage state of the water purification assembly 13 is controlled by touching the purifier selection module 2214 on the touch screen module 222. When the purifier use module 2212 displays that the purification effect of the purifier cannot reach the preset effect, the purifier can be selected to be in a stop working state, and other purifiers are selected for purification. The water purification assembly 13 can be configured with different numbers and models of purifiers, and numbers are respectively applied to the purifiers, and the using states of the purifiers are displayed on the display module 2211, so that the using states of the purifiers can be selected by controlling the numbers.

It is worth mentioning that the control assembly 22 comprises a hard stop module 223, and the hard stop module 223 is electrically connected to the valve body mechanism 10 for detecting and controlling the use state of the valve body mechanism 10. The forced stopping module 223 detects that the water valve assembly 12 is always in the water outlet state for more than a certain preset time, and the forced stopping module 223 automatically cuts off the water outlet state of the water valve assembly 12 to perform an automatic protection state, so as to avoid waste of water resources or damage to the valve body mechanism 10 due to long-time use. The time for monitoring the water valve assembly 12 in the water outlet state by the strong stopping module 223 can be set according to different requirements, and after the strong stopping module 223 controls the valve body mechanism 10 to be in the stop state, the control system 20 needs to be switched again to release the locking of the strong stopping module 223 on the valve body mechanism 10.

It is worth mentioning that the control assembly 22 comprises a flushing module 224, the flushing module 224 is electrically connected to a flushing member of the valve body mechanism 10, the flushing module 224 monitors the cleanliness of the interior of the valve body mechanism 10, and the flushing module 224 controls the flushing member to flush the valve body mechanism 10 to clean the cavity 1112 of dirt and impurities. When the faucet device is in a flushing mode, the faucet device can be kept in a flushing state for a certain preset time, a user cannot control the faucet device to be in a water outlet state in the period, and the faucet device is reused only after the flushing state is finished. Or when the user operates the flushing module 224 during use, the water faucet device first stops water output to enter the flushing mode until the water faucet device is used again after the flushing mode is finished.

Further, it includes a monitoring module 2241 and a judgment module 2242 to wash module 224, monitoring module 2241 is electric in valve body mechanism 10, in order to be used for the monitoring inside valve body mechanism 10, judgment module 2242 electricity connect in monitoring module 2241, monitoring module 2241 monitoring data feed back in judgment module 2242, it is right whether judgment module 2242 judges valve body mechanism 10 washes the process. The determining module 2242 sets different determining criteria according to the use requirement, and when the monitoring data of the monitoring module 2241 reaches the determining criteria, the flushing module 224 performs a flushing process on the valve body mechanism 10. Furthermore, the time of the flushing module 224 in the flushing state can be set according to different requirements of the user, so as to increase the practicability of the flushing function. In another embodiment, the duration of the flushing module 224 is determined and controlled according to the degree of contamination of the impurities inside the valve body mechanism 10 monitored by the monitoring module 2241.

It should be noted that the control system 20 includes a water leakage protection module 225, and the water leakage protection module 225 is configured to monitor whether a water leakage phenomenon exists in the use process of the valve body mechanism 10, and feed back the monitoring data to the display module 221 and perform a warning function. After the water tap device is communicated with the water pipe, the water tap device has water leakage phenomenon due to installation problem or use problem, and the water leakage protection module 225 can monitor the water tap device in real time so as to avoid the phenomenon. When the water leakage protection module 225 monitors the water leakage of the valve body mechanism 10, the control system 20 generates an alarm signal to prompt maintenance.

It should be noted that the control system 20 includes a valve body monitoring module 226, the valve body monitoring module 226 is electrically connected to the water purifying assembly 13 to monitor the usage status of the valve body in the water purifying assembly 13, and the monitoring data of the valve body monitoring module 226 on the valve body is displayed on the display module 221, so as to directly know the usage status of each purifier. The valve body monitoring module 226 can perform classification labeling of different colors according to different service conditions of the valve body, so as to more conveniently read monitoring data. After the valve body monitoring module 226 knows the usage time and the remaining usage time of the valve body, the purifier can be selectively used by the purifier use selection module 2214.

As shown in fig. 5, the present invention relates to a method for using a faucet device, the faucet device is connected to the water pipe, the operating element 1232 controls the using state of the valve body mechanism 10, when the operating element 1232 is operated to change from the vertical state to the horizontal state relative to the base component 11, the water valve component 12 and the water pipe form a water passage, and the water outlet member 121 is in water outlet use. When the faucet assembly 10 is in the water discharge state, the first control element 211 is electrically connected to the second control element 212, so that the control system 20 is in the activated state, and the control system 20 is configured to display the operating parameters of the faucet assembly and correspondingly control the usage state of the faucet assembly through the touch screen module 222.

It is worth mentioning that the control system 20 is provided with a function for monitoring and displaying the usage status of the water purification assembly 13, and selectively using different purifiers according to the monitoring data to ensure the purification efficiency of the faucet device. The display module 221 can display the service life of each purifier to remind the users to replace and repair the purifiers.

It is worth mentioning that another function of the control system 20 is that the faucet assembly has a strong stop function, and when the faucet assembly is used for more than a preset time, the strong stop module 223 controls the valve body mechanism 10 to be in a stop state to protect the faucet assembly from being used. Once the hard stop module 223 uses the hard stop function, the faucet assembly needs to be powered on and off again to resume normal use of the faucet assembly.

It is worth mentioning that another function of the control system 20 is that the faucet assembly has both internal cleanliness monitoring and automatic flushing functions. The flushing module 224 is used for monitoring the impurities or dirt inside the base assembly 11, the impurities inside the base assembly 11 are present to a certain extent, and the flushing module 224 automatically performs a flushing process on the cavity 1112 to ensure the cleanness of the faucet device.

It should be noted that, another function of the control system 20 is to protect the water leakage of the water faucet device, the water leakage protection module 225 can monitor the water leakage condition of the water faucet device in real time, and once the water leakage protection module 225 monitors that the water faucet device is in a water leakage state, the water leakage protection module 225 can issue a water leakage warning or automatically control the water faucet device to be in a stop state.

A method of using a faucet assembly as shown in fig. 4A and 4B, the method comprising:

(a) keeping a valve body mechanism 10 in a water outlet use state; and

(b) a trigger signal of the control system 20 is formed to monitor and control the usage state of the valve body mechanism 10.

It is worth mentioning that in the method (b), the using state of at least one purifier is displayed.

It is worth mentioning that the method (b) further comprises: (b.1) adjusting the display brightness of a display module 221, and adjusting the display brightness of the control system 20 by a touch screen module 222, so as to meet different environments and use requirements.

It is worth mentioning that the method (b) further comprises: (b.2) flushing the interior of a base assembly 11 to maintain the cleanliness of the valve body mechanism 10 and to maintain the safety of the faucet assembly in use.

It is worth mentioning that the method (b) further comprises: (b3.1) monitoring the usage time of the faucet assembly: and (b.31) controlling said faucet assembly to a stop state, said control system 20 being configured to monitor a time of use of said faucet assembly and to control said faucet assembly to a stop state when said time of use of said faucet assembly exceeds a predetermined value.

It is worth mentioning that the method (b) further comprises: and (b.4) monitoring the use state of at least one purifier, and feeding back monitoring data so as to know the purification efficiency and the service life of the purifier.

It is worth mentioning that the method (b.4) further comprises: (b.41) displaying usage data of the purifier; and (b.42) controlling the working states of different purifiers, wherein the display module 221 is used for displaying the purification rates and the residual service lives of different purifiers, so that the working states of different purifiers can be selected according to the display parameters to ensure the water purification effect of the faucet device.

Those skilled in the art will appreciate that the embodiments of the present invention illustrated in the drawings and described above are merely examples of the invention and not limitations.

It can thus be seen that the objects of the invention have been fully and effectively accomplished. The embodiments have been fully illustrated and described for the purpose of explaining the functional and structural principles of the present invention, and the present invention is not limited by changes based on the principles of these embodiments. Accordingly, this invention includes all modifications encompassed within the scope and spirit of the following claims.

Claims (15)

1. A faucet assembly for connecting to a water line, comprising:

the valve body mechanism comprises a base component and a water valve component; and

the water valve assembly is installed on the base assembly, the control system is arranged on the valve body mechanism, the base assembly is communicated with the water pipe, the relative position of the water valve assembly and the base assembly is adjusted to control the water faucet device to be in a use state or a stop state, when the water faucet device is operated, the control system is triggered to detect the working state of the valve body mechanism, and when the water faucet device is in the stop state, the control system is in a dormant state.

2. The faucet assembly of claim 1, wherein the valve mechanism includes at least one water purification assembly in communication with the water valve assembly and the control system is in communication with the water purification assembly, the control system being operable to control the water purification assembly to be in a purified state when the faucet assembly is operated; when the faucet device is in a stop state, the control system cannot drive the water purification assembly to be in a purification state.

3. The faucet assembly as recited in claim 1 or 2 wherein the water valve assembly comprises a water outlet member, a water inlet member and a driving member, the water outlet member, the water inlet member and the driving member being respectively mounted to the base assembly, the water outlet member and the water inlet member being in communication with each other via the driving member.

4. The faucet assembly as recited in claim 3 wherein the actuating member comprises a valve body movably mounted to the base assembly and an operating member pivotally coupled to the valve body for adjusting the relative positions of a water inlet end and a water outlet end of the valve body with respect to one of the water inlet member and the water outlet member, respectively, whereby the faucet assembly is controlled to be in the open position or the closed position by the actuating member.

5. The faucet assembly of claim 4 wherein the base assembly includes a first base and a second base, the first base being removably coupled to the second base, the control system being mounted to the first base, the second base being in communication with the water conduit.

6. The faucet assembly as recited in claim 5 wherein the control system includes a trigger assembly and a control assembly, the trigger assembly and the control assembly being disposed on the base assembly, respectively, the trigger assembly being electrically connected to the control assembly, the trigger assembly generating a trigger signal and transmitting the trigger signal to the control assembly when the operating member controls the faucet assembly to be operated, the control assembly being configured to detect and control the operational status of the faucet assembly.

7. The faucet assembly of claim 6, wherein the trigger assembly includes a first trigger disposed on the first base and a second trigger disposed on the operating member, the first trigger being communicatively and electrically connected to the second trigger, the operating member controlling the faucet assembly to be operated such that the first trigger and the second trigger form the trigger signal.

8. The faucet assembly of claim 7, wherein the control assembly includes a display module and a touch screen module, the display module and the touch screen module are respectively mounted on the first base, the display module is electrically connected to the touch screen module, the display module is used for viewing the usage status data of the faucet assembly, and the touch screen module is used for controlling the usage status of the faucet assembly.

9. The faucet assembly of claim 8, wherein the control assembly includes a hard stop module, the hard stop module configured to detect a use status of the faucet assembly, the water valve assembly being in the water out state for more than a predetermined time, the hard stop module configured to control the faucet assembly to be in the stop state.

10. The faucet assembly of claim 9 wherein the control assembly includes a flush module for detecting cleanliness of the interior of the base assembly and performing a flush procedure.

11. The faucet assembly of claim 10, wherein the control assembly includes a water leakage protection module for monitoring water leakage from the faucet assembly and controlling the operational status of the faucet assembly.

12. The faucet assembly of claim 6, wherein the control assembly includes a display module mounted to the first base, wherein the display module includes a use status display module and a purifier status display module for viewing the use status of the faucet assembly and the water purification assembly of the valve body mechanism.

13. The faucet assembly of claim 12 wherein the display module includes a brightness adjustment module for controlling brightness changes of the display module.

14. The faucet assembly as recited in claim 2 wherein the water valve assembly comprises a water outlet member, a water inlet member and a driving member, the water outlet member, the water inlet member and the driving member being mounted to the base assembly, respectively, the water outlet member and the water inlet member being interconnected by the driving member, wherein the driving member comprises a valve body movably mounted to the base assembly and an operating member pivotally connected to the valve body for adjusting a relative position of a water inlet end and a water outlet end of the valve body to an end of the water inlet member and the water outlet member, respectively, thereby controlling the faucet assembly to be in an open state or a closed state by the driving member, wherein the base assembly comprises a first base and a second base, the first base being detachably connected to the second base, the control system is installed on the first base, the second base is communicated with the water pipe, wherein the control system comprises a trigger component and a control component, the trigger component and the control component are respectively arranged on the base components, the trigger component is electrically connected with the control component, when the operating component controls the water faucet device to be operated, the trigger component forms a trigger signal and transmits the trigger signal to the control component, the control component is used for detecting and controlling the use state of the water faucet device, wherein the trigger component comprises a first trigger piece and a second trigger piece, the first trigger piece is arranged on the first base, the second trigger piece is arranged on the operating component, the first trigger piece is electrically communicated with the second trigger piece, when the operating component controls the water faucet device to be operated, the first trigger piece and the second trigger piece form the trigger signal, wherein the control assembly comprises a display module and a touch screen module, the display module and the touch screen module are respectively installed on the first base, the display module is electrically connected with the touch screen module, the display module is used for checking the use state data of the water faucet device, the touch screen module is used for controlling the use state of the water faucet device, the water purification assembly comprises at least two purifiers, the display module comprises a purifier selection module, and the purifier selection module is used for controlling different use states of the purifiers.

15. The faucet assembly of claim 10 wherein the flush module includes a monitor module for monitoring cleanliness of the interior of the base assembly and feeding back monitoring data to the diagnostic module, and a diagnostic module for controlling a flush process of the faucet assembly.

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