CN114985128B

CN114985128B - Water outlet device

Info

Publication number: CN114985128B
Application number: CN202210396087.3A
Authority: CN
Inventors: 谢炜; 杨小正; 郑峰
Original assignee: Arrow Home Group Co Ltd
Current assignee: Arrow Home Group Co Ltd
Priority date: 2022-04-15
Filing date: 2022-04-15
Publication date: 2023-01-17
Anticipated expiration: 2042-04-15
Also published as: WO2023197416A1; CN114985128A

Abstract

The invention discloses a water outlet device which comprises a shell assembly, a water inlet assembly, a water distribution assembly, a control assembly and a light-emitting assembly, wherein the shell assembly comprises an upper shell and a panel, the water inlet assembly comprises a water inlet pipe, a flow dividing pipe and a water flow control member, the water inlet pipe is communicated with the flow dividing pipe, water can enter the flow dividing pipe from the water inlet pipe, the water distribution assembly comprises a water dividing groove, the flow dividing pipe is communicated with the water dividing groove, the water flow control member is communicated with the flow dividing pipe or the water dividing groove, the water flow control member is used for controlling the opening and closing of a water path of the flow dividing pipe or the water dividing groove, and the control assembly can simultaneously adjust the light-emitting frequency of the light-emitting assembly and the opening and closing frequency of the water flow control member. By adopting the invention, unique visual effect can be generated, and visual appreciation is improved, thereby improving the shower experience of a user.

Description

Water outlet device

Technical Field

The invention relates to the technical field of bathroom accessories, in particular to a water outlet device.

Background

Along with the improvement of living standard of people, the development of bathroom accessories is faster and faster, the bathroom accessories are only used for cleaning purposes and are endowed with more and more functions, shower systems equipped with devices such as atmosphere lamps, sound equipment and fragrance are already on the market at present, the devices can enrich the functionality of the shower systems and improve the shower experience of users, but the shower systems all utilize a water pump to pump water to a high place and then enable water drops to do free falling motion at present, the visual effect of the water drop falling process is dull, the ornamental performance is not good, and the experience of the users is too dull.

The stroboscopic device that current phenomenon of staying according to the vision is made according to afterglow effect principle can realize the visual effect that the water droplet rises, suspends and slowly descends through the frequency of adjusting the frequency of water droplet and the frequency flashing light. If the device is applied to a shower system, the combination of the stroboscopic device and the shower device belongs to the problem which can not be solved in the industry all the time because the inner cavity of the existing shower device is filled with water and is completely driven by water pressure, the regional flowing of the water and the frequency of water drops can not be accurately controlled, and the chamber of the shower device is difficult to realize better water resistance for the stroboscopic device.

Disclosure of Invention

The invention aims to solve the technical problem of providing a water outlet device, which can realize accurate partition and accurate control on a water body, can control the falling frequency of water drops, generates a unique visual effect and improves the visual appreciation so as to improve the shower experience of a user; and has excellent waterproof performance.

In order to solve the technical problem, the invention provides a water outlet device which comprises a shell assembly, a water inlet assembly, a water distribution assembly, a control assembly and a light emitting assembly, wherein the shell assembly comprises an upper shell and a panel, and the water inlet assembly, the water distribution assembly and the control assembly are all arranged in a space defined by the upper shell and the panel.

The subassembly of intaking includes into water dish, inlet tube, shunt tubes and rivers control, the inlet tube with the shunt tubes intercommunication, the shunt tubes distribute in on the dish of intaking, hydroenergy can follow the inlet tube gets into the shunt tubes and shunted extremely each region of the dish of intaking, each region of the dish of intaking is isolated each other, the subassembly of dividing includes shunt tubes and a plurality of distributive groove, the distributive groove is located each region of shunt tubes, each region of shunt tubes is isolated each other, the shunt tubes with the distributive groove intercommunication, rivers control with the shunt tubes or the distributive groove intercommunication, rivers control is used for controlling the shunt tubes or the switching in the water route of distributive groove.

The control assembly is respectively electrically connected with the water flow control piece and the light-emitting assembly, the light-emitting assembly is arranged on the panel, and the control assembly can simultaneously adjust the light-emitting frequency of the light-emitting assembly and the on-off frequency of the water flow control piece.

As an improvement of the scheme, the diversion pipes are divided into a diversion header pipe and a diversion branch pipe, one end of the diversion header pipe is communicated with the water inlet pipe, the other end of the diversion header pipe is communicated with the plurality of diversion branch pipes, the tail end of each diversion branch pipe is also provided with a collecting port, and water can enter the diversion grooves from the collecting ports.

As an improvement of the scheme, the flow guide main pipe is arranged in the middle of the water inlet disc, and the flow guide branch pipes are arranged on the side part of the flow guide main pipe and symmetrically distributed on the water inlet disc.

As an improvement of the scheme, a plurality of shunt grids are arranged on the water diversion disc, the shunt grids are uniformly and longitudinally arranged in the water diversion disc, the shunt grids protrude out of the water diversion disc upwards, and gaps among the shunt grids form the water diversion grooves which are communicated with each other.

As an improvement of the above scheme, a first division bar and a second division bar which are perpendicular to each other are arranged in the water diversion trench, the first division bar and the second division bar both protrude upwards from the water diversion disc, the first division bar spans over a plurality of transversely arranged diversion grids, and the second division bar spans over a plurality of longitudinally arranged diversion grids.

As an improvement of the above scheme, the periphery of the diversion grid is further provided with a water bar, the water bar protrudes upwards from the water diversion disc, the water diversion disc is surrounded by the water bar to form a large water inlet area, the large water inlet area is divided into a plurality of small water inlet areas by the first division bar and the second division bar, and each small water inlet area corresponds to each collecting port.

As an improvement of the above scheme, the light emitting assembly comprises a plurality of strobe lights, the strobe lights are fixed on one side of the outer edge of the panel, which is far away from the water bar, and the light emitting surfaces of the strobe lights face to the lower side of the panel.

As an improvement of the above scheme, the number and the positions of the water flow control members correspond to those of the collecting ports, and the water flow control members are arranged on the collecting ports and communicated with the collecting ports.

As an improvement of the scheme, a plurality of mounting grooves are formed in the outer edge of the water distribution disc, the positions of the strobe lamps correspond to the positions of the mounting grooves, and the strobe lamps can be fixed in the mounting grooves.

As an improvement of the scheme, the water flow control part is a water pump.

As an improvement of the above scheme, the water flow control member is disposed on the panel, the number and the positions of the water flow control member correspond to those of the outlets of the water diversion trench, the water flow control member includes a water inlet, a water outlet and a control block, the water inlet is communicated with the water diversion trench, the control block is disposed on a side portion of the water flow control member, the control block is electrically connected with the control assembly, and the control block can control the communication or the closing between the water outlet and the water inlet.

As an improvement of the above scheme, in the same water flow control member, the number of the water inlets is 1, and the number of the water outlets is 1.

As an improvement of the above scheme, in the same water flow control member, the number of the water inlets is 1, the number of the water outlets is multiple, and the multiple water outlets can be communicated with the water inlets.

As an improvement of the scheme, the water flow control part is a water control valve.

The implementation of the invention has the following beneficial effects:

the water outlet device is provided with a water inlet assembly, a water distribution assembly, a control assembly and a light emitting assembly, wherein the water inlet assembly comprises a water inlet disc, a water inlet pipe and a water distribution pipe, water can enter the water distribution pipe from the water inlet pipe and is distributed to each area of the water inlet disc, so that the water is accurately guided to each area of the water inlet disc, the water distribution assembly comprises a water distribution disc and a plurality of water distribution grooves, the water can flow into each water distribution groove from the water distribution pipe, the water distribution grooves further uniformly disperse the water into each area of the water distribution disc, the water inlet assembly further comprises a water flow control element, and the water flow control element can accurately control the falling frequency of water drops in each area by simultaneously or respectively controlling the opening and closing of the water distribution pipes or the water paths of the water distribution grooves in each area, so that the accurate area division and the accurate control of a water body are realized, and the control of the frequency of the water drops is also realized. Meanwhile, the control component can adjust the light-emitting frequency of the light-emitting component, the water flow control component can also be controlled by the control component, and the light-emitting frequency of the light-emitting component can be equal to, greater than or less than the falling frequency of water drops through the cooperative control of the control component, so that the visual effect that the water drops in all areas hover, rise or slowly fall is generated. On the basis, the combination of the visual effects of hovering, rising or slow descending can be formed in each area simultaneously or respectively, a unique visual effect is formed, the visual appreciation is improved, and the shower experience of a user is improved.

In addition, the shunt tubes divide into water conservancy diversion house steward and water conservancy diversion branch pipe, be equipped with a plurality of reposition of redundant personnel grids on the water diversion tray, the clearance between the reposition of redundant personnel grid forms mutual intercommunication the distributive channel, be equipped with mutually perpendicular's first parting bead and second parting bead in the distributive channel, the periphery of reposition of redundant personnel grid still is equipped with the water bar the water conservancy diversion branch pipe the water bar first parting bead with under the effect of second parting bead, water can only flow in specific region, can't stretch to among the light-emitting component, thereby the protection light-emitting component has better waterproof nature.

Drawings

FIG. 1 is a schematic view of a disassembled structure of a first embodiment of the water outlet device of the present invention;

FIG. 2 is a partial view of A of FIG. 1;

FIG. 3 is a schematic view of a second embodiment of the water outlet device of the present invention;

FIG. 4 is a partial view of B of FIG. 3;

FIG. 5 is a partial view of the water knock out plate of the present invention;

FIG. 6 is a schematic view of the water flow control member of the present invention with 1 water outlet;

FIG. 7 is a schematic view of the water flow control member of the present invention having 2 water outlets;

fig. 8 is a working principle diagram of the water outlet device of the invention.

Detailed Description

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 invention 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 invention.

Referring to fig. 1 and 2, the embodiment of the invention discloses a water outlet device, which comprises a shell assembly 1, a water inlet assembly 2, a water distribution assembly 3, a control assembly 4 and a light emitting assembly 5, wherein the shell assembly 1 comprises an upper shell 11 and a panel 12, the upper shell 11 and the panel 12 are buckled with each other, a cavity is formed in the upper shell 11 and the panel 12, the panel 12 is fixed at the bottom of the upper shell 11, and the water inlet assembly 2, the water distribution assembly 3 and the control assembly 4 are all arranged in a space surrounded by the upper shell 11 and the panel 12. The subassembly 2 that intakes includes into water tray 24, inlet tube 21, shunt tubes 22 and rivers control 23, inlet tube 21 with shunt tubes 22 intercommunication, shunt tubes 22 distribute in on the dish 24 of intaking, the hydroenergy can follow inlet tube 21 gets into shunt tubes 22 and is shunted to each region of the dish 24 of intaking, each region of the dish 24 of intaking is isolated each other, shunt tubes 22 is used for with the water dispersion water conservancy diversion in the inlet tube 21 extremely each region of water installation to can realize the independent control to each region. The subassembly 3 that divides includes distributive disk 32 and a plurality of distributive groove 31, distributive groove 31 is located each region of distributive disk 32, each region of distributive disk 32 is isolated each other, shunt tubes 22 with distributive groove 31 intercommunication, for the convenience flow control piece 23 carries out decentralized control to rivers, shunt tubes 22 with moisture to a plurality of regions after, reentrant each region in the distributive disk 32, utilize water pressure or the drive power of flow control piece 23, water can be followed the terminal inflow of shunt tubes 22 in the distributive groove 31.

The water flow control part 23 is communicated with the diversion pipe 22 or the diversion trench 31, the water flow control part 23 is used for controlling the opening and closing of a water path of the diversion pipe 22 or the diversion trench 31, the water flow control part 23 can cut off the water path and also can be communicated with the water path, the cutting and communicating operation is carried out through circulation, the water flow control part 23 is electrically connected with the control component 4, the control component 4 controls the water flow control part 23, and the control component 4 can drive the water flow control part 23 to respectively control the diversion pipe 22 or the diversion trench 31 of each area, so that the frequency of water dripping from each area can be controlled. The control component 4 is also electrically connected to the light-emitting component 5, the light-emitting component 5 is disposed on the panel 12, and the control component 4 can simultaneously adjust the light-emitting frequency of the light-emitting component 5 and the on-off frequency of the water flow control component 23, so that the control component 4 can control the light-emitting frequency of the light-emitting component 5 to be greater than, equal to or less than the on-off frequency of the water flow control component 23, that is, the light-emitting frequency of the light-emitting component 5 to be greater than, equal to or less than the falling frequency of the water drop, when the light-emitting frequency of the light-emitting component 5 is equal to the falling frequency of the water drop, a visual effect of suspending the water drop can be formed, when the light-emitting frequency of the light-emitting component 5 is greater than the falling frequency of the water drop, a visual effect of rising the water drop can be formed, and when the light-emitting frequency of the light-emitting component 5 is less than the falling frequency of the water drop, a visual effect of slowly falling water drop can be formed.

In the present invention, the adjusting frequency of the control assembly 4 can be changed simultaneously or by regions, and the diversion grooves 31 of each region in the diversion tray 32 are independent from each other, so that by controlling the water flow control members 23 of different regions respectively, in addition to the visual effect of making the water drops of the whole panel 12 appear to rise, hover or slowly fall, various effects can also appear alternately or in combination in each different region, thereby forming a better visual effect. In practical application, control assembly 4 can be connected with external terminals such as touch screen, acoustic control switch, mechanical button to make the user control the effect in each region through touch screen, acoustic control switch, mechanical button etc. thereby reach the convenient effect of control, further promote user experience.

The water outlet device is provided with a water inlet component 2, a water distribution component 3, a control component 4 and a light-emitting component 5, wherein the water inlet component 2 comprises a water inlet pipe 21, a shunt pipe 22 and a water flow control component 23 which are mutually communicated, water enters from the water inlet pipe 21 and is guided into the shunt pipe 22, the water distribution component 3 comprises a water distribution disc 32 and a plurality of water distribution grooves 31, the water can flow into each water distribution groove 31 from the shunt pipe 22, the water distribution grooves 31 further uniformly disperse the water into each area of the water distribution disc 32, the water inlet component 2 further comprises the water flow control component 23, and the water flow control component 23 can accurately control the falling frequency of water drops of each area by simultaneously or respectively controlling the opening and closing of the water paths of the shunt pipe 22 or the water distribution grooves 31 of each area, so as to realize accurate zoning and accurate control of a water body and also realize the control of the frequency of the water drops. Meanwhile, the control component 4 is electrically connected to the light-emitting component 5, and the control component 4 can simultaneously adjust the light-emitting frequency of the light-emitting component 5 and the on-off frequency of the water flow control member 23, so that, in use, the light-emitting frequency of the light-emitting component 5 can be controlled to be equal to the frequency of the falling of the water drop by the control component 4 according to afterglow effect, so as to generate the visual effect of hovering the water drop, and the light-emitting frequency of the light-emitting component 5 can be controlled to be greater than the frequency of the falling of the water drop, so as to generate the visual effect of ascending the water drop, and the light-emitting frequency of the light-emitting component 5 can be controlled to be less than the frequency of the falling of the water drop, so as to generate the visual effect of slowly falling of the water drop. On the basis, the combination of the visual effects of hovering, rising or slow descending can be formed in each area simultaneously or respectively, a unique visual effect is formed, the visual appreciation is improved, and the shower experience of a user is improved.

The inlet tube 21 stands on the intake tray 24, and the vertical entering of water in the inlet tube 21, the bottom of inlet tube 21 with the shunt tubes 22 intercommunication, the shunt tubes 22 distribute in the 24 upper surface of intake tray, water transversely is followed inlet tube 21 flows in shunt tubes 22. Preferably, the diversion pipe 22 is divided into a diversion header pipe 221 and a diversion branch pipe 222, one end of the diversion header pipe 221 is communicated with the inlet pipe 21, and the other end is communicated with the plurality of diversion branch pipes 222. The water conservancy diversion house steward 221 is located the middle part of intake tray 24, water conservancy diversion branch pipe 222 is located the lateral part and the symmetric distribution of water conservancy diversion house steward 221 are in on the intake tray 24, and are a plurality of water conservancy diversion branch pipe 222 is used for water conservancy diversion extremely each corner of intake tray 24, both do benefit to even water, simultaneously water conservancy diversion branch pipe 222 can also accurately guide rivers in to each region, so that make water flow control piece 23 carries out accurate area control to rivers. The tail end of the diversion branch pipe 222 is also provided with a collection port 223, the collection port 223 is communicated between the diversion trench 31 and the diversion branch pipe 222, and water can enter the diversion trench 31 from the collection port 223.

In order to further improve the fineness of dividing water, the flow diversion disc 32 is located the below of water inlet disc 24, be equipped with a plurality of reposition of redundant personnel net 321 on the flow diversion disc 32, it is a plurality of reposition of redundant personnel net 321 evenly move about freely and quickly arrange in flow diversion disc 32, it is preferably square to reposition of redundant personnel net 321, reposition of redundant personnel net 321 upwards protrusion in flow diversion disc 32, adjacent two be equipped with the clearance between the reposition of redundant personnel net 321, these clearance between the reposition of redundant personnel net 321 can form mutual intercommunication the distributive channel 31, distributive channel 31 both plays the effect of guide rivers, also plays the effect of separating the region. After water flows into the water diversion disc 32 from the collection port 223, the water can enter the water diversion grooves 31 under the diversion effect of the diversion grids 321, and the water diversion grooves 31 are uniformly distributed on the water diversion disc 32, so that the water flow is uniformly distributed and divided into a plurality of areas.

Referring to fig. 5, a first division bar 311 and a second division bar 312 which are perpendicular to each other are arranged in the water diversion trench 31, the first division bar 311 and the second division bar 312 both protrude upward from the water diversion disc 32, the first division bar 311 and the second division bar 312 both function as a division region, the first division bar 311 spans over a plurality of transversely arranged diversion grids 321, the second division bar 312 spans over a plurality of longitudinally arranged diversion grids 321, and the first division bar 311 and the second division bar 312 can divide the water diversion disc 32 into a plurality of regions. Specifically, the periphery of the shunt grid 321 is further provided with a water bar 323, the water bar 323 protrudes upwards from the water diversion disc 32, the water bar 323 surrounds the water diversion disc 32 into a large water inlet area 324, after the water flows into the water diversion disc 32 from the collection port 223, the water firstly enters the large water inlet area 324, and the water bar 323 can block the water to prevent the water from overflowing, and can protect the light emitting component 5 and block the water outside the light emitting component 5. The first parting strip 311 and the second parting strip 312 divide the large water inlet area 324 into a plurality of small water inlet areas 325, each small water inlet area 325 corresponds to the position of each collecting port 223, so that water falls from the collecting ports 223 and enters each small water inlet area 325 respectively, and the first parting strip 311 and the second parting strip 312 divide each small water inlet area 325, thereby facilitating the subsequent independent control of each small water inlet area 325.

Under the action of the diversion branch pipes 222, the water barrier 323, the first division bar 311 and the second division bar 312, water can only flow in a specific area and cannot spread into the light emitting assembly 5, so that the light emitting assembly 5 is protected, and the water-proof performance is excellent.

The light emitting assembly 5 comprises a plurality of stroboscopic lamps 51, and a plurality of stroboscopic lamps 51 are fixed on one side of the outer edge of the panel 12 far away from the water retaining strip 323, so that the water retaining strip 323 can isolate water from the stroboscopic lamps 51 and protect the stroboscopic lamps 51. The light emitting surface of the strobe light 51 is directed downward of the panel 12 so as to provide different frequencies of illumination for falling water droplets. The position of the strobe 51 corresponds to the position of each of the small intake zones 325, and the small intake zones 325 can be irradiated individually, so that the irradiation frequency of each of the small intake zones 325 can be controlled individually, and different visual effects can be formed in each of the small intake zones 325.

As shown in fig. 1 and 2, a first embodiment of the present invention is disclosed, in the first embodiment, the number and the position of the water flow control members 23 correspond to the number and the position of the collecting openings 223, the water flow control members 23 are disposed on the collecting openings 223 and communicate with the collecting openings 223, the water flow control members 23 are provided with inflow openings and outflow openings, water flows into the inflow openings from the collecting openings 223, the water flow control members 23 control on/off between the inflow openings and the outflow openings, when the water flow control members 23 are opened, the inflow openings communicate with the outflow openings, water flows from the outflow openings to the water distribution grooves 31, and when the water flow control members 23 are closed, the inflow openings and the outflow openings are cut off, water cannot flow out to form a flow-cut-off. The position of each collecting port 223 corresponds to the position of each small water inlet area 324, so that the water flow control part 23 can control the water outlet frequency of each small water inlet area 324 by independently controlling the on-off of each collecting port 223, thereby achieving the effect of accurately controlling the area. In order to fix the light emitting component 5, a plurality of mounting grooves 322 are formed in the outer edge of the water diversion disc 32, the position of the strobe lamp 51 corresponds to the position of the mounting grooves 322, and when the flashlight is mounted, the strobe lamp 51 can be clamped into the mounting grooves 322 to form fixed connection. In this embodiment, the water flow control member 23 may be a water pump such as a fixed displacement pump or a peristaltic pump, which can adjust the water outlet frequency, so as to implement the on-off function.

As shown in fig. 3 and 4, a second embodiment of the present invention is disclosed, which is different from the first embodiment in the installation location and specific application components of the water flow control member 23, in the second embodiment, the water flow control member 23 is provided on the panel 12, the number and location of the water flow control members 23 correspond to the number and location of the outlets of the water diversion trenches 31, since a plurality of water diversion trenches are divided into the same small water inlet area, a plurality of water flow control members 23 can belong to the same small water inlet area, and each water flow control member 23 can control the on-off of the water flow from each water diversion trench 31. Compared with the first embodiment, each water flow control element 23 can control the outlet of each water diversion trench 31, and each water flow control element 23 in the first embodiment can only control a plurality of water diversion trenches 31 in the same small water inlet area 325, so that the second embodiment has finer control precision, can control different water diversion trenches 31 in the same small water inlet area 325 to discharge water at different frequencies, and further improves the degree of area control.

Specifically, referring to fig. 6 and 7, in the first embodiment, the water flow control element 23 includes a water inlet 231, a water outlet 232, and a control block 233, the water inlet 231 is communicated with the outlet of the water diversion trench 31, the control block 233 is disposed at a side portion of the water flow control element 23, the control block 233 is electrically connected to the control assembly 4, and the control assembly 4 can control the on/off of each water flow control element 23 through the control block 233, so as to control the communication or the closing between the water outlet 232 and the water inlet 231. In the same water flow control element 23, the number of the water inlets 231 is 1, the outlets of the water diversion trench 31 and the water inlets 231 are fed with water in a one-to-one manner, the number of the water outlets 232 may be 1, or may be multiple, when the number of the water outlets 232 is 1, the water inlets 231 and the water outlets 232 are directly communicated, the control block 233 controls on/off, when the number of the water outlets 232 is multiple, the multiple water outlets 232 can be communicated with the water inlets 231, water entering from the water inlets 231 is diverted to the water outlets 232, and the control block 233 can control on/off of the water inlets 231 alone or on/off of each water outlet 232 respectively. In the second embodiment, the water flow control member 23 is preferably a water control valve such as a solenoid valve, a proportional valve, etc. capable of controlling the on/off of the water path. In other embodiments, the water flow control member 23 may also be a vibration member, which can control the frequency of water dropping from the water outlet 232 by a fixed frequency vibration, thereby achieving the effect of controlling the dropping frequency.

Referring to fig. 8, the working process and principle of the water outlet device of the invention are as follows:

the water flow enters the diversion header 221 from the water inlet pipe 21, the diversion header 221 disperses the water into a plurality of diversion branch pipes 222, the water flows into the water diversion tray 32 from the diversion branch pipes 222 and is evenly distributed in the water diversion tank 31, then the water flows out from the outlet of the water diversion tank 31, under the control of the water flow control member 23, water drops flow out according to a fixed frequency, and at first, the water drop strings "a, b, c and d" respectively fall on the positions shown in the figure. If the flashing frequency of the stroboscopic lamp is the same as the water outlet frequency of the water drops, the stroboscopic lamp is turned on after one period, the raw water drop 'a' falls at the position of the raw water drop 'b', the raw water drop 'b' falls at the position of the raw water drop 'c', and the raw water drop 'c' falls at the position of the raw water drop'd', due to the phenomenon of visual persistence, when the light is turned on, the positions of the water drops are the same as the positions of the last period, and the cycle is repeated, so that an observer can think that the water drops do not move, and the illusion that the water drops are suspended is generated.

If the flashing frequency of the flashing lamp is higher than the frequency of water drop outlet, the flashing lamp is turned on after a period, the original water drop 'a' does not fall on the position of the original water drop 'b', the original water drop 'b' does not fall on the position of the original water drop 'c', the original water drop 'c' does not fall on the position of the original water drop'd', and due to the phenomenon of visual persistence, when the flashing lamp is turned on, the positions of the water drops are higher than the positions of the water drops in the previous period, and the process is repeated, so that an observer thinks that the water drops ascend and generates the illusion that the water drops flow backwards.

If the flash frequency of the strobe light is lower than the frequency of water drop outlet, the strobe light is turned on after a period, the original water drop 'a' falls to a position exceeding the original water drop 'b', the original water drop 'b' falls to a position exceeding the original water drop 'c', the original water drop 'c' falls to a position exceeding the original water drop'd', and due to the phenomenon of visual persistence, the positions of the water drops are lower than those of the water drops in the previous period when the light is turned on, and the observer can think that the water drops fall and generate the illusion that the water drops slowly fall.

The control process can be uniformly regulated and controlled in the whole large water inlet area 324 to form a uniform visual effect, and can also be separately controlled in each small water inlet area 325, so that a combined visual effect of hovering, ascending or slowly descending is presented in the small water inlet areas 325, the ornamental value is further improved, and the use experience is improved.

The foregoing is a preferred embodiment of the present invention, and it should be noted that it would be apparent to those skilled in the art that various modifications and enhancements can be made without departing from the principles of the invention, and such modifications and enhancements are also considered to be within the scope of the invention.

Claims

1. A water outlet device is characterized by comprising a shell assembly, a water inlet assembly, a water distribution assembly, a control assembly and a light emitting assembly, wherein the shell assembly comprises an upper shell and a panel;

the water inlet assembly comprises a water inlet disc, a water inlet pipe, a flow dividing pipe and a water flow control piece, the water inlet pipe is communicated with the flow dividing pipe, the flow dividing pipe is distributed on the water inlet disc, water can enter the flow dividing pipe from the water inlet pipe and is divided to each area of the water inlet disc, each area of the water inlet disc is mutually isolated, the water flow control piece comprises a water dividing disc and a plurality of water dividing grooves, the water dividing grooves are arranged in each area of the water dividing disc, each area of the water dividing disc is mutually isolated, the flow dividing pipe is communicated with the water dividing grooves, the water flow control piece is communicated with the flow dividing pipe or the water dividing grooves, and the water flow control piece is used for controlling the opening and closing of a water path of the flow dividing pipe or the water dividing grooves;

the control assembly is electrically connected with the water flow control element and the light-emitting assembly respectively, the light-emitting assembly is arranged on the panel, and the control assembly can simultaneously adjust the light-emitting frequency of the light-emitting assembly and the on-off frequency of the water flow control element;

the diversion pipe is divided into a diversion header pipe and diversion branch pipes, one end of the diversion header pipe is communicated with the water inlet pipe, the other end of the diversion header pipe is communicated with the diversion branch pipes, the tail end of each diversion branch pipe is also provided with a collection port, and water can enter the diversion trench from the collection port;

a plurality of shunt grids are arranged on the water diversion disc, are uniformly and longitudinally and transversely arranged in the water diversion disc, protrude out of the water diversion disc upwards, and form mutually communicated water diversion grooves in gaps among the shunt grids;

the water diversion grid is characterized in that a water bar is further arranged on the periphery of the diversion grid and protrudes out of the water diversion disk upwards, the water bar surrounds the water diversion disk into a large water inlet area, a first partition strip and a second partition strip are arranged in the water diversion groove and divide the large water inlet area into a plurality of small water inlet areas, and each small water inlet area corresponds to the position of the collection port.

2. The water outlet device of claim 1, wherein the diversion header pipe is arranged in the middle of the water inlet tray, and the diversion branch pipes are arranged on the side of the diversion header pipe and symmetrically distributed on the water inlet tray.

3. The water discharging device according to claim 2, wherein a first division bar and a second division bar which are perpendicular to each other are arranged in the water distribution tank, the first division bar and the second division bar both protrude upwards from the water distribution tray, the first division bar spans over the plurality of transversely arranged distribution grids, and the second division bar spans over the plurality of longitudinally arranged distribution grids.

4. The water outlet device of claim 3, wherein the light emitting assembly comprises a plurality of strobe lights, the plurality of strobe lights being fixed to a side of the outer edge of the panel remote from the water bar, the light emitting surfaces of the strobe lights facing downward of the panel.

5. The underdrain apparatus of claim 4, wherein the number and location of the flow control members correspond to the number and location of the collection openings, the flow control members being disposed on and in communication with the collection openings.

6. The water outlet device as claimed in claim 5, wherein the outer edge of the water diversion disc is provided with a plurality of mounting grooves, the positions of the strobe lamps correspond to the positions of the mounting grooves, and the strobe lamps can be fixed in the mounting grooves.

7. The water output device of claim 5 wherein the water flow control member is a water pump.

8. The water outlet device according to any one of claims 1 to 4, wherein the water flow control members are provided on the panel, the number and the positions of the water flow control members correspond to those of the outlets of the diversion trench, the water flow control members comprise a water inlet, a water outlet and a control block, the water inlet is communicated with the diversion trench, the control block is provided at the side of the water flow control members, the control block is electrically connected with the control assembly, and the control block can control the communication or the closing between the water outlet and the water inlet.

9. The water output device of claim 8 wherein the number of water inlets is 1 and the number of water outlets is 1 in the same water flow control member.

10. The water outlet device according to claim 9, wherein the number of the water inlets is 1, the number of the water outlets is plural, and the plural water outlets can be communicated with the water inlets.

11. The water output device of claim 10 wherein the water flow control member is a water control valve.