CN216131423U - Multifunctional shower faucet - Google Patents

Abstract

The utility model discloses a multifunctional shower faucet, which comprises a shell, a first waterway switching mechanism, a flow measuring mechanism, a flow regulating mechanism, a second waterway switching mechanism, a first switching mechanism, a second switching mechanism, a control mechanism, an identity recognition mechanism and at least two water outlet mechanisms, wherein the first waterway switching mechanism is arranged on the shell; one end of the flow regulating mechanism is connected with different water sources sequentially through the flow measuring mechanism and the first waterway switching mechanism, and the other end of the flow regulating mechanism is connected with the water outlet mechanism through the second waterway switching mechanism; the first waterway switching mechanism is used for switching different water sources and controlling the on-off of the first switching mechanism. By adopting the shower bath device and the shower bath method, the use convenience of a user can be improved, the use duration and the flow of the shower bath product can be monitored, and accidents caused by long-time showering can be avoided.

Description

Multifunctional shower faucet

Technical Field

The utility model relates to the field of bathrooms, in particular to a multifunctional shower faucet.

Background

The existing shower products basically adjust the water flow through a simple rotary switch, and a user needs to adjust the water flow to be suitable for the user through manually using the rotary switch when using the shower products each time; in addition, when the old, young, weak, sick and the like take a shower for a long time, if an accident happens carelessly, family members are often difficult to find in time, and serious even irrecoverable consequences are caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a multifunctional shower faucet which can improve the convenience of showering and avoid accidents caused by long-time showering.

In order to solve the technical problem, the utility model provides a multifunctional shower faucet which comprises a shell, a first waterway switching mechanism, a flow measuring mechanism, a flow regulating mechanism, a second waterway switching mechanism, a first switching mechanism, a second switching mechanism, a control mechanism, an identity recognition mechanism and at least two water outlet mechanisms, wherein the first waterway switching mechanism is arranged on the shell; one end of the flow regulating mechanism is connected with different water sources sequentially through the flow measuring mechanism and the first waterway switching mechanism, and the other end of the flow regulating mechanism is connected with the water outlet mechanism through the second waterway switching mechanism; the first waterway switching mechanism is used for switching different water sources and controlling the on-off of the first switching mechanism, the control mechanism is connected with the flow regulating mechanism through the second switching mechanism and is used for controlling the on-off of the flow regulating mechanism, and the first switching mechanism is connected with the second switching mechanism and is used for controlling the on-off of the second switching mechanism; the flow measuring mechanism is connected with the control mechanism and used for calculating water flow, the identity recognition mechanism is connected with the control mechanism and used for recognizing identity signals, and the control mechanism controls the switch of the flow regulating mechanism according to the water flow and the identity signals.

Preferably, the flow regulating mechanism comprises a flow regulating pipeline, a connecting rod and a hydraulic telescopic assembly; the flow regulating pipeline is provided with a water inlet hole, a water outlet hole and a connecting hole, a sliding block which is in seamless fit with the inner wall of the flow regulating pipeline is arranged in the flow regulating pipeline, the water inlet hole of the flow regulating pipeline is connected with different water sources through the flow measuring mechanism and the first water path switching mechanism in sequence, and the water outlet hole of the flow regulating pipeline is connected with the water outlet mechanism through the second water path switching mechanism; one end of the connecting rod is connected with the hydraulic telescopic assembly, the other end of the connecting rod is connected with the sliding block through the connecting hole, the hydraulic telescopic assembly is connected with the control mechanism and used for driving the connecting rod to stretch and further drive the sliding block to slide in the flow regulating pipeline, and therefore the aperture size of the water inlet hole is changed.

Preferably, the identity recognition mechanism comprises a fingerprint acquisition assembly and a face acquisition assembly, and the fingerprint acquisition assembly and the face acquisition assembly are connected with the control mechanism and are respectively used for acquiring fingerprint information and face information.

Preferably, the first waterway switching mechanism comprises a first valve core and a handle connected with the first valve core, the first valve core is respectively connected with the flow measuring mechanism and different water sources, and the handle is rotated to drive the first valve core to rotate so as to switch the different water sources.

Preferably, the first switch mechanism comprises a reed switch and a magnet, the magnet is arranged on the handle, and the reed switch is arranged on the shell; one end of the reed switch is connected with the control mechanism, the other end of the reed switch is connected with the second switch mechanism, and the on-off of the reed switch is controlled by rotating the handle.

Preferably, the second switching mechanism includes a first MOS transistor, a first current limiting resistor, and a second current limiting resistor; the grid electrode of the first MOS tube is connected with the control mechanism sequentially through the first current-limiting resistor and is grounded through the reed pipe, the drain electrode of the first MOS tube is connected with the hydraulic telescopic assembly through the second current-limiting resistor, and the source electrode of the first MOS tube is connected with the control mechanism.

Preferably, the second waterway switching mechanism comprises a switching pipeline, a water inlet and at least two water outlets, the water inlet of the switching pipeline is connected with the water outlet of the flow regulating pipeline, a second valve core is arranged at each water outlet of the switching pipeline, and each water outlet of the switching pipeline is connected with the water outlet mechanism through the second valve core.

Preferably, the second valve core is a key valve core or a rotary valve core, one end of the second valve core is connected with the water outlet on the switching pipeline, and the other end of the second valve core is arranged outside the shell.

Preferably, the control mechanism comprises a single chip microcomputer and a power supply, the power supply is used for supplying power to all elements of the multifunctional shower faucet, the source electrode of the first MOS tube, the flow measuring mechanism, the fingerprint collecting assembly, the face collecting assembly and the power supply are all connected with the single chip microcomputer, and the power supply is connected with the grid electrode of the first MOS tube through the first current limiting resistor.

Preferably, the multifunctional shower faucet further comprises a warning mechanism, the warning mechanism comprises a loudspeaker assembly and an LED indicating assembly, and the loudspeaker assembly and the LED indicating assembly are connected with the single chip microcomputer.

The beneficial effects of the implementation of the utility model are as follows:

according to the utility model, different water sources can be switched by the second waterway switching mechanism, the water flow of a user is measured in real time by the flow measuring mechanism, different water outlet mechanisms are switched by the second waterway switching mechanism, the identity of the user is identified by the identity identification mechanism, the first switching mechanism is connected with the second switching mechanism and is used for controlling the on-off of the second switching mechanism, and the control mechanism controls the on-off of the flow regulating mechanism according to the water flow and the identity signal. By adopting the utility model, the water outlet size does not need to be manually adjusted, the water outlet flow can be adjusted according to the identity information of the user so as to meet the water use habits of different users, and the use convenience of the user is improved; meanwhile, the water flow and the water consumption of the user are recorded in the whole process, when any one of the water flow and the water consumption of the user exceeds a preset threshold value, the control mechanism passes through the flow adjusting mechanism slowly reduces the water outlet flow until the water outlet flow reaches zero, so that the use time and the flow of a shower product can be monitored, and an accident caused by long-time shower is avoided.

Drawings

FIG. 1 is a schematic structural view of a multifunction shower faucet provided by the present invention;

FIG. 2 is a schematic view of the connection of the multifunctional shower faucet provided by the present invention;

FIG. 3 is a schematic structural diagram of a flow regulating mechanism provided by the present invention;

fig. 4 is a schematic structural diagram of a first waterway switching mechanism provided by the present invention;

FIG. 5 is a diagram of electrical connections of a second switch structure provided in the present invention;

fig. 6 is a schematic structural diagram of a second waterway switching mechanism provided by the present invention;

fig. 7 is a diagram of electrical connections of the multifunction shower faucet provided by the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings. It is only noted that the utility model is intended to be limited to the specific forms set forth herein, including any reference to the drawings, as well as any other specific forms of embodiments of the utility model.

As shown in fig. 1-2, the utility model provides a multifunctional shower faucet, which comprises a housing 1, a first waterway switching mechanism 2, a flow measuring mechanism 11, a flow regulating mechanism 4, a second waterway switching mechanism 5, a first switch mechanism 6, a second switch mechanism 7, a control mechanism 8, an identity recognition mechanism 3 and at least two water outlet mechanisms 10; one end of the flow regulating mechanism 4 is connected with different water sources sequentially through the flow measuring mechanism 11 and the first waterway switching mechanism 2, and the other end of the flow regulating mechanism is connected with the water outlet mechanism 10 through the second waterway switching mechanism 5; the first waterway switching mechanism 2 is used for switching different water sources and controlling the on-off of the first switching mechanism 6, the control mechanism 8 is connected with the flow regulating mechanism 4 through the second switching mechanism 7 and is used for controlling the on-off of the flow regulating mechanism 4, and the first switching mechanism 6 is connected with the second switching mechanism 7 and is used for controlling the on-off of the second switching mechanism 7; the flow measuring mechanism 11 is connected with the control mechanism 8 and used for calculating water flow, the identity recognition mechanism 3 is connected with the control mechanism 8 and used for recognizing identity signals, and the control mechanism 8 controls the on-off of the flow regulating mechanism 4 according to the water flow and the identity signals.

According to the utility model, different water sources can be switched by the second waterway switching mechanism 5, the water flow of a user is measured in real time by the flow measuring mechanism 11, different water outlet mechanisms are switched by the second waterway switching mechanism 5, the identity of the user is identified by the identity identifying mechanism 3, the first switching mechanism 6 is connected with the second switching mechanism 7 and is used for controlling the switching of the second switching mechanism 7, and the control mechanism 8 controls the switching of the flow regulating mechanism 4 according to the water flow and the identity signal; by adopting the utility model, the water outlet size does not need to be manually adjusted, the water outlet flow can be adjusted according to the identity information of the user so as to meet the water use habits of different users, and the use convenience of the user is improved; meanwhile, the water flow and the water consumption of the user are recorded in the whole process, when any one of the water flow and the water consumption of the user exceeds a preset threshold value, the control mechanism passes through the flow adjusting mechanism slowly reduces the water outlet flow until the water outlet flow reaches zero, so that the use time and the flow of a shower product can be monitored, and an accident caused by long-time shower is avoided.

As shown in fig. 3, preferably, the flow regulating mechanism 4 comprises a flow regulating pipe 41, a connecting rod 42 and a hydraulic telescopic assembly 43; a water inlet 411, a water outlet 412 and a connecting hole 413 are arranged on the flow regulating pipeline 41, a sliding block 414 which is in seamless fit with the inner wall of the flow regulating pipeline 41 is arranged in the flow regulating pipeline 41, the water inlet 411 of the flow regulating pipeline 41 is connected with different water sources sequentially through the flow measuring mechanism 11 and the first water path switching mechanism 2, and the water outlet 412 of the flow regulating pipeline 41 is connected with the water outlet mechanism 10 through the second water path switching mechanism 5; one end of the connecting rod 42 is connected with the hydraulic telescopic assembly 43, the other end of the connecting rod is connected with the sliding block 414 through the connecting hole 413, and the hydraulic telescopic assembly 43 is connected with the control mechanism 8 and used for driving the connecting rod 42 to be telescopic so as to drive the sliding block 414 to slide in the flow regulating pipeline 41, so that the aperture size of the water inlet hole 411 is changed.

It should be noted that, in this embodiment, the hydraulic telescopic assembly 43 drives the connecting rod to extend and retract, so as to drive the sliding block 414 to slide in the flow regulating pipe 41, so as to change the aperture of the water inlet 411, and thus, the size of the outlet flow is regulated.

As shown in fig. 1-2, preferably, the identification mechanism 3 includes a fingerprint collecting component 31 and a face collecting component 32, and both the fingerprint collecting component 31 and the face collecting component 32 are connected to the control mechanism 8 and are respectively used for collecting fingerprint information and face information.

The fingerprint acquisition component is a fingerprint collector, the face acquisition component is a camera, the fingerprints and faces of a plurality of users are stored in the fingerprint collector and the camera in advance, when the users use the fingerprint collector, the fingerprint collector can identify the fingerprint information of the users, and when the users use the camera to collect the faces, the camera can identify the face information of the users. Each user sets the water outlet flow suitable for the user, and the control mechanism selects the corresponding water outlet flow to adjust according to the user identity identified by the identity identification mechanism 3.

As shown in fig. 4 to 5, the first waterway switching mechanism 2 preferably includes a first valve core 21 and a handle 22 connected to the first valve core 21, the first valve core 21 is respectively connected to the flow measuring mechanism 11 and different water sources, and the handle 22 is rotated to drive the first valve core 31 to rotate so as to switch the different water sources.

It should be noted that the housing is provided with an opening, the handle is connected with a first valve core arranged inside the housing through a handle, wherein the first valve core is a rotary valve core, and the first valve core is driven to rotate by rotating the handle, so that different water supply mechanisms (cold water or hot water or cold and hot mixed water) can be switched.

Further, the first switch mechanism 6 comprises a reed switch 61 and a magnet 62, the magnet 62 is arranged on the handle 22, and the reed switch 61 is arranged on the housing 1; one end of the reed pipe 61 is connected with the control mechanism 8, the other end of the reed pipe is connected with the second switch mechanism 7, and the on-off of the reed pipe 61 is controlled by rotating the handle 22. Preferably, the second switching mechanism 7 includes a first MOS transistor 71, a first current limiting resistor 72, and a second current limiting resistor 73; the gate of the first MOS tube 71 is connected to the control mechanism 8 sequentially through the first current limiting resistor 72 and grounded through the reed pipe 61, the drain of the first MOS tube 71 is connected to the hydraulic telescopic assembly 43 through the second current limiting resistor 73, and the source of the first MOS tube 71 is connected to the control mechanism 8.

It should be noted that the reed switch and the magnet are both arranged inside the shell of the handle, the magnet is fixedly arranged on the inner wall of the shell of the handle, the reed switch is arranged on the shell 1 of the multifunctional shower faucet, the distance between the magnet and the reed switch is the minimum at the beginning, the reed switch is closed, the base of the first MOS switch is at a low level, the first MOS switch is turned off, and the hydraulic telescopic component does not work at this time; the handle is rotated to drive the magnet to rotate, the distance between the magnet and the reed pipe is increased, the reed pipe is disconnected, the base of the first MOS pipe is at a high level, the first MOS pipe is conducted, the control mechanism is communicated with the hydraulic telescopic assembly, and the corresponding water outlet flow is adjusted according to the identity information of a user.

As shown in fig. 6, preferably, the second waterway switching mechanism 5 includes a switching pipe 51, a water inlet 511 disposed on the switching pipe 51, and at least two water outlets 512, the water inlet 511 of the switching pipe 51 is connected to the water outlet 412 of the flow rate adjusting pipe 41, a second valve plug 513 is disposed at each water outlet 512 on the switching pipe 51, and each water outlet 512 on the switching pipe 51 is respectively connected to the water outlet mechanism 10 through the second valve plug 513. Further, the second valve spool 513 is a key valve spool or a rotary valve spool, one end of the second valve spool is connected to the water outlet on the switching pipeline, and the other end of the second valve spool is arranged outside the housing 1.

In this embodiment, a plurality of shower modes can be selected by one or more second valve spools, such as a top shower, a side shower or a bottom shower; specifically, the corresponding water outlet is communicated with the corresponding water outlet mechanism by pressing down or rotating the second valve core by a certain angle; the embodiment can meet the selection requirements of different users on the shower mode, thereby improving the duration competitiveness of the product.

As shown in fig. 7, preferably, the control mechanism 8 includes a single chip 81 and a power supply 82, the power supply 82 is used for supplying power to each element of the multifunctional shower faucet, the source of the first MOS tube 71, the flow measuring mechanism 11, the fingerprint collecting assembly 31, the face collecting assembly 32, and the power supply 82 are all connected to the single chip 81, and the power supply 82 is connected to the gate of the first MOS tube 71 through the first current limiting resistor 72.

The single chip 81 integrates various components such as an arithmetic unit, a controller, a memory, an input/output device, and the like, and realizes various functions such as signal processing and data storage. For example, an arithmetic unit includes a large number of comparison circuits, and can perform logical operation processing on a received signal instruction. Preferably, the single chip microcomputer can adopt models including but not limited to PIC12F 615.

Specifically, the single chip microcomputer obtains the water flow measured by the flow measuring mechanism and the water using time recorded by the timing module in the single chip microcomputer, the water flow and the water using time are compared with a preset flow value and a preset time respectively, and when any one of the water flow and the water using time is larger than a preset value, the single chip microcomputer drives the hydraulic telescopic assembly to slowly reduce the size of the water inlet hole, so that the water outlet flow is reduced until the water outlet flow is zero. In addition, through identity recognition mechanism can acquire user's identity information, and every identity information corresponds a water outlet flow, when identity recognition mechanism discerned concrete identity information, confirm a water outlet flow command signal and send to the singlechip amount is through the drive hydraulic telescoping component adjusts corresponding apopore size to realize individualized water outlet flow and select, improved the convenience of use.

As shown in fig. 1 and 7, preferably, the multifunctional shower faucet further includes a warning mechanism 9, the warning mechanism 9 includes a speaker assembly 91 and an LED indicating assembly 92, and both the speaker assembly 91 and the LED indicating assembly 92 are connected to the single chip 81.

It should be noted that when any one of the water flow rate and the water using time is greater than a preset value, the single chip drives the speaker assembly and the LED indicating assembly to perform sound and light reminding, so that the using time and the flow rate of a shower product can be monitored, and accidents caused by long-time showering can be avoided.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the utility model.

Claims (10)

1. A multifunctional shower faucet comprises a shell and is characterized by comprising a first waterway switching mechanism, a flow measuring mechanism, a flow regulating mechanism, a second waterway switching mechanism, a first switching mechanism, a second switching mechanism, a control mechanism, an identity recognition mechanism and at least two water outlet mechanisms;

one end of the flow regulating mechanism is connected with different water sources sequentially through the flow measuring mechanism and the first waterway switching mechanism, and the other end of the flow regulating mechanism is connected with the water outlet mechanism through the second waterway switching mechanism;

the first waterway switching mechanism is used for switching different water sources and controlling the on-off of the first switching mechanism, the control mechanism is connected with the flow regulating mechanism through the second switching mechanism and is used for controlling the on-off of the flow regulating mechanism, and the first switching mechanism is connected with the second switching mechanism and is used for controlling the on-off of the second switching mechanism;

the flow measuring mechanism is connected with the control mechanism and used for calculating water flow, the identity recognition mechanism is connected with the control mechanism and used for recognizing identity signals, and the control mechanism controls the switch of the flow regulating mechanism according to the water flow and the identity signals.

2. A multifunction shower faucet as recited in claim 1, wherein said flow regulating mechanism comprises a flow regulating conduit, a connecting rod and a hydraulic telescopic assembly;

the flow regulating pipeline is provided with a water inlet hole, a water outlet hole and a connecting hole, a sliding block which is in seamless fit with the inner wall of the flow regulating pipeline is arranged in the flow regulating pipeline, the water inlet hole of the flow regulating pipeline is connected with different water sources through the flow measuring mechanism and the first water path switching mechanism in sequence, and the water outlet hole of the flow regulating pipeline is connected with the water outlet mechanism through the second water path switching mechanism;

one end of the connecting rod is connected with the hydraulic telescopic assembly, the other end of the connecting rod is connected with the sliding block through the connecting hole, the hydraulic telescopic assembly is connected with the control mechanism and used for driving the connecting rod to stretch and further drive the sliding block to slide in the flow regulating pipeline, and therefore the aperture size of the water inlet hole is changed.

3. The multifunction shower faucet of claim 2, wherein said identification mechanism comprises a fingerprint acquisition assembly and a face acquisition assembly, both of said fingerprint acquisition assembly and said face acquisition assembly being connected to said control mechanism and being adapted to acquire fingerprint information and face information, respectively.

4. A multifunction shower faucet as recited in claim 3 wherein said first waterway switching mechanism comprises a first valve spool and a handle connected to said first valve spool, said first valve spool being connected to said flow measuring mechanism and to a different water source, respectively, and wherein said handle is rotated to rotate said first valve spool to switch said different water source.

5. A multifunction shower faucet as recited in claim 4, wherein said first switch mechanism comprises a reed switch and a magnet, said magnet being disposed on said handle, said reed switch being disposed on said housing;

one end of the reed switch is connected with the control mechanism, the other end of the reed switch is connected with the second switch mechanism, and the on-off of the reed switch is controlled by rotating the handle.

6. A multifunction shower faucet as claimed in claim 5, wherein said second switch mechanism comprises a first MOS transistor, a first current limiting resistor and a second current limiting resistor;

the grid electrode of the first MOS tube is connected with the control mechanism sequentially through the first current-limiting resistor and is grounded through the reed pipe, the drain electrode of the first MOS tube is connected with the hydraulic telescopic assembly through the second current-limiting resistor, and the source electrode of the first MOS tube is connected with the control mechanism.

7. The multifunctional shower faucet of claim 6, wherein the second waterway switching mechanism comprises a switching pipeline, a water inlet disposed on the switching pipeline, and at least two water outlets, the water inlet of the switching pipeline is connected to the water outlet of the flow regulating pipeline, a second valve core is disposed at each water outlet on the switching pipeline, and each water outlet on the switching pipeline is respectively connected to the water outlet mechanism through the second valve core.

8. The multifunction shower faucet of claim 7, wherein said second valve core is a push button valve core or a rotary valve core, one end of said second valve core is connected to a water outlet on said switching pipe, and the other end is disposed outside said housing.

9. The multifunctional shower faucet of claim 8, wherein the control mechanism comprises a single-chip microcomputer and a power supply, the power supply is used for supplying power to all elements of the multifunctional shower faucet, the source electrode of the first MOS tube, the flow measuring mechanism, the fingerprint collecting component, the face collecting component and the power supply are all connected with the single-chip microcomputer, and the power supply is connected with the grid electrode of the first MOS tube through the first current limiting resistor.

10. The multifunctional shower faucet of claim 9, further comprising a warning mechanism, wherein the warning mechanism comprises a speaker assembly and an LED indicating assembly, and both the speaker assembly and the LED indicating assembly are connected to the single-chip microcomputer.

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