CN115739419A

CN115739419A - Water outlet device

Info

Publication number: CN115739419A
Application number: CN202111029747.6A
Authority: CN
Inventors: 方奕敏; 彭金兴; 尧冬生; 熊居盛
Original assignee: Xiamen Sijiete Intelligent Sanitary Ware Co ltd
Current assignee: Xiamen Sijiete Intelligent Sanitary Ware Co ltd
Priority date: 2021-09-03
Filing date: 2021-09-03
Publication date: 2023-03-07

Abstract

The application discloses water outlet device, including the body, attach in the play water face lid of body and receive rivers impact can pivoted rotating member, this internal first water inlet channel, second water inlet channel, can switch on of being equipped with the second water inlet channel at least bipartition water channel and be used for adjusting first water inlet channel with the governing valve of second water inlet channel intake proportion, bipartition water channel communicates respectively the jet hole group in different regions in the play water face lid, rotating member has shielding part, rotating member passes through in the rotation process shielding part is periodic to be opened or to be closed bipartition water channel at least, the second water inlet channel with rotating member correspond the setting so that by the second water inlet channel rivers can drive rotating member rotates and passes through the governing valve is adjusted rotating member's slew velocity. The water outlet device can adjust the water spray pulsation frequency of the water outlet device, meets the individual requirements of users, and has adjustable visual effect.

Description

Water outlet device

Technical Field

The application relates to a water outlet device, which can be applied to a shower head, a faucet and the like, and belongs to the field of kitchen bathrooms.

Background

The water outlet patterns of the shower head are various, and one of the water outlet patterns is massage water. This kind of action principle of play massage water gondola water faucet utilizes rotating baffle to plug up the apopore intermittently usually, just also when the apopore is plugged up to the baffle, the apopore does not go out water, after the baffle has putd aside from the apopore, the apopore goes out water again to realize the effect that the apopore intermittent type goes out water, after the frequency that the intermittent type goes out water reaches certain speed, this kind of intermittent type nature splash is beaten and will be brought the massage impression on skin.

The patent document JPH05115520A1 discloses a shower head including shower water at an outer ring and pulsating massage water at an inner ring. Wherein the formation structure of the pulsating massage water is as follows: the assembly 70 has 3 water guide chambers 76 formed therein and distributed circumferentially, each of the water guide chambers is communicated with a group of 4 injection holes 74, an impeller 56 rotated by a water force is provided on the water guide chamber 76, the impeller 56 has a shielding portion 60 for opening and closing the water guide chamber 76, so that the impeller selectively shields the water guide chamber 76 by the water flow, so that water can be supplied to one or two of the three water guide chambers, and water is not supplied to the other water guide chamber. This strengthens the water jet discharged from the other water conducting chamber by temporarily interrupting the water supply to one water conducting chamber. The frequency of the pulsating massage water is constant due to the constant rotational speed of the impeller 56 of the shower head, which does not meet the individual user's needs to change the pulsation frequency.

Disclosure of Invention

The application provides a water outlet device, which overcomes the defects in the prior art. The technical scheme adopted by the application for solving the technical problem is as follows: the water outlet device comprises a body, a water outlet surface cover and a rotating component, wherein the water outlet surface cover is arranged on the body, the rotating component can rotate under the impact of water flow, a first water inlet channel, a second water inlet channel, at least two water inlet channels capable of being communicated with the second water inlet channel and a regulating valve used for regulating the water inlet proportion of the first water inlet channel and the second water inlet channel are arranged in the body, the at least two water inlet channels are respectively communicated with jet hole groups in different areas in the water outlet surface cover, the rotating component is provided with a shielding part, the at least two water inlet channels are periodically opened or closed by the shielding part in the rotating process of the rotating component, and the second water inlet channel and the rotating component are correspondingly arranged so that the water flow flowing out of the second water inlet channel can drive the rotating component to rotate and the rotating speed of the rotating component is regulated by the regulating valve.

In a preferred embodiment, the first water inlet path is also connected to the at least two water dividing channels, and the first water inlet path is configured such that the water flow from the first water inlet path cannot drive the rotating member to rotate, so that different water sprays can be sprayed by operating the regulating valve through the jet hole group.

In a preferred embodiment, the regulating valve comprises a valve body, a moving member capable of moving relative to the valve body, and an operating member for driving the moving member to move, a first inlet communicated with the first water inlet channel and a second inlet communicated with the second water inlet channel are arranged in the valve body, and the moving member controls the opening degree of the first inlet and the opening degree of the second inlet in the moving process.

In a preferred embodiment, the first inlet and the second inlet are axially spaced along the valve body, and the moving member moves axially along the valve body.

In a preferred embodiment, the operation element has a first position and a second position, when the operation element is in the first position, the inflow of water at the first inlet is maximum, the inflow of water at the second inlet is minimum, and the rotating part does not rotate; when the operating piece is located at the second position, the water inlet flow of the second inlet is maximum, the water inlet flow of the first inlet is minimum, and the rotating speed of the rotating component is fastest.

In a preferred embodiment, the rotating component includes an impeller, the impeller is provided with blades at intervals along the circumferential direction, and the shielding part is a baffle connected between the blades or is in transmission connection with the impeller.

In a preferred embodiment, the body is internally provided with a chamber for accommodating the impeller, the first water inlet channel and the second water inlet channel are communicated with the at least two water dividing channels through the chamber, the outlet of the second water inlet channel is an inclined water gap, and the outlet water of the second water inlet channel impacts the impeller blade.

In a preferred embodiment, the body has a water outlet portion corresponding to the water outlet cover, the chamber is disposed at an eccentric position of the water outlet portion, and the water inlets of the at least two water channels are circumferentially distributed in the chamber.

In a preferred embodiment, the water outlet surface cover is provided with surface cover water inlets corresponding to the at least two water distribution channels one to one, the surface cover water inlets are correspondingly communicated with jet hole groups in different areas of the water outlet surface cover, and the jet hole groups are distributed along the radial direction of the water outlet surface cover.

In a preferred embodiment, the water outlet cover further comprises a water guide path which can be communicated with the first water inlet path, the water guide path is communicated with the jet hole groups in different areas in the water outlet surface cover, and the water guide path and the at least two water dividing channels are independently arranged.

Compared with the prior art, the technical scheme of the application has the following beneficial effects:

1. the rotating speed of the rotating part is adjusted by adjusting the water inlet proportion of the first water inlet channel and the second water inlet channel through the adjusting valve, so that the water spray pulsation frequency of the water outlet device is adjusted, the individual requirements of users can be met, and the visual effect is adjustable.

2. The first water inlet channel is also communicated with at least two water dividing channels, and the water flow flowing out of the first water inlet channel cannot drive the rotating part to rotate, so that different water sprays can be sprayed out of the same jet hole group by operating the regulating valve, and the water spray is more abundant.

3. The aperture of first entry and second entry is controlled through the cooperation of moving member and valve body to adjust the water intake proportion in first water inlet way and second water inlet way, simple structure is easy.

4. The chamber for accommodating the impeller is used for communicating the first water inlet channel and the second water inlet channel with the water diversion channel, so that the structure is more compact and reasonable.

5. The cavity is eccentrically arranged at the water outlet part of the body, and water inlets of the water diversion channels are circumferentially distributed in the cavity, so that the jet hole groups of the water outlet surface cover can be conveniently divided in the radial direction to correspond to the corresponding water diversion channels.

6. The independent water guide path which can be communicated with the first water inlet path is arranged, and the water outlet stability of each jet hole group of the water outlet surface cover can be ensured when the first water inlet path independently enters water.

Drawings

The present application is further described below with reference to the accompanying drawings and examples.

FIG. 1 depicts a schematic front view of an exemplary water outlet device of the present application;

FIG. 2 depicts a schematic side view of an exemplary water outlet device of the present application;

FIG. 3 illustrates a schematic perspective exploded view of an exemplary water outlet device of the present application;

FIG. 4 depicts a schematic cross-sectional AA view of FIG. 2 of an exemplary disclosed watering apparatus (with the operating member in a first position);

FIG. 5 depicts a schematic cross-sectional view AA in FIG. 2 of an exemplary disclosed water outlet apparatus (with the operating member in a second position);

fig. 6 is a schematic view of the back of a water outlet cover of an exemplary water outlet device of the present application.

Detailed Description

Referring to fig. 1 to 6, the water outlet device of the present application includes a body 10, a rotating member 30 and a water outlet cover 20 attached to the body 10, in this embodiment, the body 10 includes a handheld portion 11 and a water outlet portion 12, the handheld portion 11 is mainly used for connecting a water inlet hose and being held by a human body, the water outlet portion 12 corresponds to the water outlet cover 20, and the water outlet cover 20 is attached to the water outlet portion 12 for spraying the human body. The main body 10 is provided therein with a first water inlet channel 13, a second water inlet channel 14, at least two water dividing channels capable of connecting the second water inlet channel 14, and an adjusting valve 40 for adjusting the water inlet ratio of the first water inlet channel 13 to the second water inlet channel 14. The at least two water inlet channels are respectively communicated with the jet hole groups of different areas in the water outlet cover 20, the rotating member 30 has a shielding part 32, the rotating member 30 periodically opens or closes the at least two water inlet channels through the shielding part 32 during rotation, the second water inlet channel 14 is arranged corresponding to the rotating member 30 so that the water flowing out of the second water inlet channel 14 can drive the rotating member 30 to rotate and the rotating speed of the rotating member 30 is adjusted through the adjusting valve 40.

In this embodiment, three

water diversion channels

15, 16, 17 are formed in the water outlet portion 12 of the main body 10, the water outlet cover 20 is provided with three

cover water inlets

25, 26, 27, and when the water outlet cover 20 is assembled in the main body 10, the three

cover water inlets

25, 26, 27 are respectively communicated with the channel outlets of the three

water diversion channels

15, 16, 17. In the embodiment, the three water diversion channels are directly and integrally formed in the body, and in other embodiments, the water diversion channels can also be formed in a separate component (such as a water diversion body) and then matched with the body.

In this embodiment, the rotating member 30 includes an impeller 31, the impeller 31 is provided with blades 33 at intervals along the circumferential direction, the shielding portion 32 is a baffle connected between the blades 33, but in other embodiments, the shielding portion may be provided to be in transmission connection with the impeller. For this purpose, the outlet portion 12 of the body 10 has a chamber 18 therein for accommodating the impeller 31, the chamber 18 can be connected to the first water inlet channel 13 and the second water inlet channel 14, and the first water inlet channel 13 and the second water inlet channel 14 are communicated with the three

water diversion channels

15, 16 and 17 through the chamber 18. The chamber 18 is arranged at an eccentric position of the outlet part 12, and the inlets of the three

water diversion channels

15, 16, 17 are distributed circumferentially in the chamber 18. In this embodiment, the first water inlet channel and the second water inlet channel can both be communicated with three water distribution channels, and certainly, the water guide channel capable of being communicated with the first water inlet channel can also be further included, the water guide channel is directly communicated with the jet hole groups in different areas in the water outlet cover, and the water guide channel and the three water distribution channels are independently arranged, so that when water flows out from the first water inlet channel, the problem that water is not consistent due to the fact that the shielding part shields part of the water distribution channels, and the water outlet stability of each jet hole group is ensured.

The outlet of the second water inlet channel 14 is an inclined water gap, the outlet water impacts the impeller blade, and the first water inlet channel 14 is set such that the water flow flowing out from the outlet of the first water inlet channel cannot drive the impeller blade to rotate, so that different spray can be jetted out by operating the regulating valve 40 through the jet hole group.

In this embodiment, as shown in fig. 1, the jet hole groups of the outlet cover 20 are divided into three groups: the inner two rings of jet holes are a jet hole group 21, the secondary outer ring of jet holes are a jet hole group 22, the outermost ring of jet holes is a jet hole group 23, and the

jet hole groups

21, 22 and 23 respectively correspond to the surface

cover water inlets

25, 26 and 27. In this way, the water ejected from the

jet hole groups

21, 22, 23 generates a pulsating effect to massage the human body due to the periodic movement of the shielding portion 32.

Preferably, the adjusting valve 40 includes a valve body 41, a moving member 42 capable of moving relative to the valve body 41, and an operating member 43 for driving the moving member 42 to move, the valve body 41 is provided with a first inlet 44 communicated with the first water inlet channel 13 and a second inlet 45 communicated with the second water inlet channel 14, and the moving member 42 controls the opening degree of the first inlet 44 and the second inlet 45 during the moving process. The moving member 42 can move in a translational manner or in a rotational manner, in this embodiment, the moving member 42 moves up and down in an axial direction, correspondingly, the first inlet 44 and the second inlet 45 are axially spaced along the valve body 41, the moving member 42 moves along the valve body 41 in the axial direction, and the operating member 43 can move up and down relative to the valve body 41. The operation element 43 has a first position and a second position, when the operation element is in the first position (bottom in this embodiment), the inflow at the first inlet 44 is the largest, the inflow at the second inlet 45 is the smallest, and the rotating part 30 does not rotate; when the operating member is in the second position (top in this embodiment), the inflow at the second inlet 45 is the largest, the inflow at the first inlet 44 is the smallest, and the rotating member 30 rotates at the fastest speed.

The working process of the water outlet device of the embodiment is further described as follows:

when the operating member 43 is at the second position (i.e. the top), the second inlet 45 is fully opened, the first inlet 44 is substantially closed, the inflow water flows from the second inlet 45 into the second water inlet channel 14, because the outlet of the second water inlet channel 14 is an inclined water gap, the outflow water impacts the impeller blades 33, the impeller 31 rotates, the shielding part 32 also rotates, the shielding part 32 periodically opens or closes the three

diversion channels

15, 16, 17, and the

surface cover inlets

25, 26, 27 communicated with the three

diversion channels

15, 16, 17 are also periodically opened or closed, so that the water sprayed from the

jet hole groups

21, 22, 23 corresponding to the

surface cover inlets

25, 26, 27 generates a pulsating effect to massage the human body. Since the inflow water flows into the second water inflow channel 14 from the second inlet 45 substantially entirely, the flow of water striking the impeller blades is the largest at this time, and the impeller blades rotate at the fastest speed, so that the frequency of water pulsation is the highest.

When the operating element 43 is moved downward, the first inlet 44 is opened, a part of the inflow water flows from the first inlet 44 into the first water inlet channel 13, and the other part of the inflow water flows from the second inlet 45 into the second water inlet channel 14, the impeller 31 is not driven to rotate by the water flowing from the first water inlet channel 13, but the impeller 31 is driven to rotate by the water flowing from the second water inlet channel 14, and at this time, the inflow water is branched, the rotation speed of the impeller 31 is reduced, and the frequency of water pulsation is also reduced.

The operation member 43 is further moved downwards until the first inlet 44 is fully opened and the second inlet 45 is substantially closed when the operation member 43 is in the first position (i.e. at the bottom), and the inflow of water from the first inlet 44 into the first water inlet channel 13, because the water from the first water inlet channel 13 does not drive the impeller 31 to rotate, the impeller 31 is kept in the original position, and the water ejected from the

jet hole groups

21, 22 and 23 does not produce a pulsating effect. Thus by operating the regulating valve 40, the set of jet orifices can emit different sprays, namely pulsating sprays and non-pulsating sprays.

The above description is only a preferred embodiment of the present application, and therefore should not be taken as limiting the scope of the application, and all equivalent variations and modifications made in the claims and the specification should be included within the scope of the present application.

Claims

1. Go out water installation, its characterized in that: the rotating component is provided with a shielding part, the rotating component periodically opens or closes the at least two water inlet channels through the shielding part in the rotating process, and the second water inlet channel and the rotating component are correspondingly arranged so that the water flow flowing out from the second water inlet channel can drive the rotating component to rotate and adjust the rotating speed of the rotating component through the adjusting valve.

2. The water outlet device of claim 1, wherein: the first water inlet path is also communicated with the at least two water diversion channels, and the first water inlet path is arranged so that the water flow flowing out of the first water inlet path cannot drive the rotating component to rotate, so that different water sprays can be sprayed out through the jet hole groups by operating the regulating valve.

3. The water outlet device of claim 1, wherein: the regulating valve comprises a valve body, a moving part and an operating part, the moving part can move relative to the valve body, the operating part drives the moving part to act, a first inlet communicated with the first water inlet channel and a second inlet communicated with the second water inlet channel are arranged in the valve body, and the moving part controls the opening degree of the first inlet and the opening degree of the second inlet in the moving process.

4. A water outlet device according to claim 3, wherein: the first inlet and the second inlet are arranged at intervals along the axial direction of the valve body, and the moving member moves along the axial direction of the valve body.

5. A water outlet device according to claim 3, wherein: the operating element is provided with a first position and a second position, when the operating element is positioned at the first position, the inflow of water at the first inlet is maximum, the inflow of water at the second inlet is minimum, and the rotating part does not rotate; when the operating piece is located at the second position, the water inlet flow of the second inlet is maximum, the water inlet flow of the first inlet is minimum, and the rotating speed of the rotating component is fastest.

6. The water outlet device according to any one of claims 1 to 5, wherein: the rotating component comprises an impeller, blades are arranged on the impeller at intervals along the circumferential direction, and the shielding part is a baffle connected between the blades or is in transmission connection with the impeller.

7. The water outlet device of claim 6, wherein: the body is internally provided with a cavity for accommodating the impeller, the first water inlet channel and the second water inlet channel are communicated with the at least two water dividing channels through the cavity, the outlet of the second water inlet channel is an inclined water gap, and the outlet water of the second water inlet channel impacts the impeller blade.

8. The water outlet device of claim 7, wherein: the body is provided with a water outlet part corresponding to the water outlet surface cover, the cavity is arranged at the eccentric position of the water outlet part, and the water inlets of the at least two water dividing channels are distributed in the cavity along the circumferential direction.

9. The water output device of claim 8, wherein: the water outlet surface cover is provided with surface cover water inlets which are in one-to-one correspondence with the at least two water distribution channels, the surface cover water inlets are correspondingly communicated with jet hole groups in different areas in the water outlet surface cover, and the jet hole groups are distributed in the water outlet surface cover along the radial direction.

10. The water outlet device of claim 1, wherein: the water outlet cover is characterized by further comprising a water guide path which can be communicated with the first water inlet path, the water guide path is communicated with jet hole groups in different areas in the water outlet surface cover, and the water guide path and the at least two water dividing channels are independently arranged.