CN220644459U - Water outlet device - Google Patents

Abstract

The utility model discloses a water outlet device, which comprises a body, a lamp and a control assembly, wherein the lamp is provided with a water inlet, a water outlet and a water passing cavity communicated with the water inlet and the water outlet; the lamp is arranged on the body; the control assembly includes a slider and a control member; the sliding piece is suitable for being slid to a first position under the action of water pressure when the water passing cavity passes water; the control is electrically connected to the lamp and is adapted to be triggered to control the lamp to start operating when the slider is slid to the first position. When water flows through the water cavity, water pressure is generated, the water pressure acts on the sliding piece, the sliding piece slides to the first position and triggers the control piece, the control piece controls the lamp to start working, the lamp and the water are automatically turned on only by opening the water passage, and the operation is simple and convenient.

Description

Water outlet device

Technical Field

The utility model relates to the field of water outlet products, in particular to a water outlet device.

Background

The existing water outlet device is usually provided with lamplight for enabling the water outlet device to be more attractive or have atmosphere, but under normal conditions, water outlet and lamplight are controlled separately, if water outlet is controlled to be opened through a valve, the lamplight is opened through a button, and a user needs to operate two positions to realize the opening of the water outlet and the lamplight, so that the water outlet device is complex and inconvenient to operate.

Disclosure of Invention

The present utility model is directed to overcoming the above-mentioned drawbacks or problems in the prior art, and providing a water outlet device.

To achieve the above object, the present utility model and its preferred embodiments adopt the following technical solutions but the embodiments are not limited to the following solutions:

in a first aspect, a water outlet device comprises

The body is provided with a water inlet, a water outlet and a water passing cavity communicated with the water inlet and the water outlet;

a lamp mounted to the body;

a control assembly including a slider and a control; the sliding piece is arranged in the water passing cavity and is suitable for sliding to a first position under the action of water pressure when the water passing cavity passes water; the control member is arranged on the body and is electrically connected with the lamp, and is suitable for being triggered to control the lamp to start working when the sliding member slides to the first position.

The second proposal is based on the first proposal, and the water passing device also comprises a reset piece, wherein the two ends of the reset piece respectively act on the sliding piece and the body to enable the sliding piece to reset and slide from a first position to a second position when the water passing cavity is not passing water, the control is triggered to control the lamp to turn off when the slider slides to a second position.

According to the third scheme, based on the first scheme, the sliding piece is provided with a sealing part, and the peripheral wall of the sealing part is in sealing fit with the water passing cavity. According to a fourth scheme, based on the second scheme, the water passing cavity is provided with a first cavity and a second cavity which are respectively communicated with the water inlet and the water outlet; the sliding piece is provided with a force receiving part, and the force receiving part is suitable for enabling the sliding piece to slide under the action of water pressure; when the force receiving part is at the second position, the force receiving part is positioned on a water passing path through which water enters the second cavity from the first cavity.

According to the fifth scheme, based on the second scheme, the sliding piece comprises a magnet, and the control piece is a Hall induction switch matched with the magnet. The sixth scheme is based on the first to fifth schemes, the number of the water passing cavities is N, N is larger than 1, the water outlet types of the water outlets communicated with the water passing cavities are different, and the number of the control assemblies is the same as the number of the water passing cavities and corresponds to the number of the water passing cavities one by one.

Seventh, based on the first to fifth aspects, the operation mode of controlling the lamp when each of the control members is triggered is different. The eighth scheme is based on scheme one to scheme five, the body includes first casing, single face mirror and double faced lens, first casing the single face mirror with double faced lens encloses and closes and form first installation cavity, the mirror surface of single face mirror orientation double faced lens and with double faced lens parallel arrangement, the lamp install with the single face mirror with double faced lens meets on the chamber wall of first installation cavity.

According to the ninth scheme, based on the first to fifth schemes, the body further comprises a second shell and a light-scattering lampshade, the light-scattering lampshade and the second shell enclose to form a second installation cavity, and the lamp is installed on the cavity wall of the second installation cavity, which faces the light-scattering lampshade. The tenth scheme is based on scheme one to scheme five, the body still includes third casing, transparent lighting fixture install in the third casing, the third casing is equipped with the delivery port, transparent lighting fixture is equipped with the notch and deviates from the mounting groove of delivery port, the lamp install in the mounting groove, just the light of lamp passes in proper order transparent lighting fixture with the delivery port. According to the eleventh scheme, based on the tenth scheme, the transparent lamp bracket and the third shell enclose to form a water outlet channel, and the water outlet channel is communicated with the water outlet and provided with a plurality of sections which are communicated in sequence and have different water flow directions.

The twelfth scheme is based on the eleventh scheme, and the third shell is further provided with a first water channel, a second water channel, a blocking wall, a lamp bracket groove and a middle water channel; the second water channel is perpendicular to the first water channel, the second water channel is communicated with the side edge of the middle water channel, the lamp bracket groove, the middle water channel and the water outlet are sequentially arranged along the water outlet direction of the water outlet, and the blocking wall protrudes out of the middle water channel along the direction opposite to the water outlet direction of the water outlet; the transparent lamp holder is provided with an inserting part, the transparent lamp holder is connected with the lamp holder groove in a sealing way, and the inserting part extends into the middle water channel, so that a third water channel is formed by a gap between the inserting part and the blocking wall; a fourth water channel is formed by a gap between the end surface of the insertion part, which is close to the water outlet, and the water outlet; the first water channel, the second water channel, the third water channel and the fourth water channel are sequentially communicated to form the water outlet channel.

According to a thirteenth scheme, the novel water tap is characterized by further comprising a rotary water tap, wherein the body is provided with a rotational flow cavity and an inclined water hole which is communicated with the rotational flow cavity and is used for forming rotational flow in the rotational flow cavity, and the rotational flow cavity is communicated with the water outlet; the rotary water nozzle is arranged in the rotational flow cavity, one end of the rotary water nozzle is abutted to one end of the rotational flow cavity, which is close to the water outlet, the other end of the rotary water nozzle is rotated around the central axis of the rotational flow cavity under the rotational flow action, and the rotary water nozzle is provided with a rotary outlet communicated with the water outlet.

According to the fourteenth scheme, based on the thirteenth scheme, a weight increasing part is arranged at one end of the rotary water nozzle, which is away from the water outlet.

Fifteen, based on thirteenth, further comprising a gasket mounted on a peripheral wall of the rotary water nozzle, the gasket being adapted to abut against a cavity wall of the swirl cavity when the rotary water nozzle rotates.

As can be seen from the above description of the present utility model and the preferred embodiments thereof, compared with the prior art, the technical solution of the present utility model and the preferred embodiments thereof have the following beneficial effects due to the following technical means:

1. in the first scheme and the preferred embodiment thereof, water flows through the water passing cavity to generate water pressure, the water pressure acts on the sliding piece to enable the sliding piece to slide to the first position and trigger the control piece, the control piece controls the lamp to start working, and the lamp and the water are automatically turned on when the water passing cavity is opened, so that the operation is simple and convenient.

2. In the scheme II and the preferred embodiment thereof, the two ends of the reset piece respectively act on the sliding piece and the body to enable the sliding piece to reset and slide to the second position when the water passing cavity is not passing water, the control piece is triggered to control the lamp to be closed when the sliding piece slides to the second position, the complex part is not required to be arranged for manual reset, and the water and the lamp are automatically turned off when the water passing cavity is closed, so that the water passing cavity is simple and convenient.

3. In the scheme III and the preferred embodiment, the peripheral wall of the sealing part is in sealing fit with the water passing cavity, so that one end of the sliding part is passed through water, the other end of the sliding part is not passed through water, and the water pressure is prevented from influencing the pushing action of the water pressure on the sliding part after the water is communicated with the two ends of the sliding part to cause hydraulic balance.

4. In the fourth scheme and the preferred embodiment thereof, the water passing cavity is provided with a first cavity and a second cavity which are respectively communicated with the water inlet and the water outlet; when the force bearing part is at the second position, the force bearing part is on the necessary path for water to enter the second cavity from the first cavity, so that even if the water pressure is small, the water can act on the force bearing part to enable the sliding part to slide.

5. In scheme five and its preferred embodiment, the slider includes magnet, and the control is hall inductive switch, realizes non-contact control, and is simple and convenient, and hall inductive switch can set up outside the body, and the electric wire also does not set up in the water route, prevents the electric leakage risk.

6. In the sixth scheme and the preferred embodiment thereof, the number of the water passing cavities is N, N is more than 1, and the number of the control components is the same as that of the water passing cavities, so that each water outlet mode can be used for turning on the lamp.

7. In the seventh scheme and the preferred embodiment thereof, the working modes of the control lamps are different when the control members are triggered, so that users can trigger different control members by opening different water passing cavities (selecting different water outlet modes), thereby realizing the working modes of different lamps and increasing the functional diversity.

8. In the eighth aspect and the preferred embodiment thereof, the body comprises a first shell, a single-sided mirror and a double-sided lens, the first shell, the single-sided mirror and the double-sided lens are enclosed to form a first installation cavity, the mirror surface of the single-sided mirror faces the double-sided lens and is arranged in parallel with the double-sided lens, and the lamp is arranged on the cavity wall of the first installation cavity connected with the single-sided mirror; the light is reflected and refracted by the mirrors with two parallel surfaces to form a plurality of parallel mirrors, each mirror can reflect a picture, and the pictures are overlapped layer by layer to form the effect of a multi-layer mirror. When light rays are incident into the multi-layered mirror, they are reflected and refracted multiple times, forming many repeated images. Because the visual effect of the multi-layer mirror is a progressive and gradually deep pattern, the infinitely extended visual effect is given to people, the extremely deep dazzling effect can be presented, the tunnel caused by the lamp beams gradually disappears until the light is gradually weakened, and the infinite fanciful effect is formed. The outside uses the double-sided lens, when the light is bright, can see the light tunnel (multi-layer mirror effect) inside from outside; when the light is turned off, it is a mirror surface from the outside.

9. In the ninth aspect and the preferred embodiments thereof, the body further includes a second housing and a light-diffusing lampshade, the light-diffusing lampshade and the second housing enclose to form a second installation cavity, and the lamp is installed on a cavity wall of the second installation cavity facing the light-diffusing lampshade; the astigmatic lampshade is made of astigmatic materials, so that the lamplight looks uniform and soft, and the visual effect is improved.

10. In scheme ten and its preferred embodiment, the body still includes third casing, transparent lighting fixture, and the third casing is equipped with the delivery port, and transparent lighting fixture is equipped with the mounting groove that the notch deviates from the delivery port, and the lamp is installed in the mounting groove, and the light of lamp passes transparent lighting fixture and delivery port in proper order. The light is transmitted along with the water flow to form a flowing light effect, so that the experience is improved.

11. In an eleventh scheme and a preferred embodiment thereof, the water outlet channel is provided with a plurality of sections which are communicated in sequence and have different water flow directions, the water flow distribution is more uniform through the diversion of a plurality of waterways, and the buffering effect slows down the water flow impact, so that the water formation shape is better in appearance and crystal clear.

12. In the twelfth scheme and the preferred embodiment thereof, the water channel is composed of a plurality of sections, has good buffering effect, can be formed by assembling the third shell and the transparent lamp bracket, and is simple and convenient.

13. In the thirteenth scheme and the preferred embodiment thereof, the body is provided with a rotational flow cavity and an inclined water hole communicated with the rotational flow cavity and used for forming rotational flow in the rotational flow cavity, and the rotational flow cavity is communicated with the water outlet; the rotary water nozzle is arranged in the rotational flow cavity, the rotary water nozzle is provided with a rotary outlet communicated with the water outlet, water in the rotational flow cavity sequentially flows through the rotary water nozzle and the water outlet to be sprayed and flows out, centrifugal scattering water spray is formed, and the centrifugal scattering water spray has strong granular sense and pulse massage sense.

14. In the scheme fourteen and the preferred embodiment thereof, the weight increasing part is arranged at one end of the rotary water nozzle, which is away from the water outlet, so that the centrifugal force effect is enhanced, and the rotary water nozzle can better fit with the cavity wall of the cyclone cavity to enlarge the water spray area when rotating.

15. In the fifteenth aspect and the preferred embodiment, the gasket is mounted on the peripheral wall of the rotary water nozzle, so that the collision between the rotary water nozzle and the cyclone cavity can be buffered during rotation, and noise is reduced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings required to be used in the description of the embodiments below are briefly introduced, and it is obvious that the drawings in the following description are some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is an exploded view of a water outlet device according to an embodiment;

FIG. 2 is a perspective view of a water outlet device according to an embodiment;

FIG. 3 is a cross-sectional view of a water outlet device according to an embodiment taken along a middle portion thereof;

FIG. 4 is an exploded view of a control assembly and a body according to an embodiment;

FIG. 5 is a schematic view illustrating a structure of a sliding member in a first position according to an embodiment;

FIG. 6 is a schematic diagram illustrating a structure of a sliding member in a second position according to an embodiment;

FIG. 7 is an exploded view of an outer race, multi-layer mirror lamp assembly according to an embodiment;

FIG. 8 is a cross-sectional view of an embodiment of an outer race, multi-layer mirror lamp light assembly taken along a central portion thereof;

FIG. 9 is an enlarged view of the area indicated in FIG. 8;

FIG. 10 is a perspective view of a middle circle light assembly according to an embodiment;

FIG. 11 is a cross-sectional view of a middle turn light assembly of an embodiment taken along a middle portion thereof;

FIG. 12 is an enlarged view of the area indicated in FIG. 11;

FIG. 13 is a perspective view of a sprinkler outlet assembly according to an embodiment;

FIG. 14 is a cross-sectional view of a sprinkler outlet assembly of the embodiment taken along a central portion thereof;

FIG. 15 is an enlarged view of the area indicated in FIG. 14;

FIG. 16 is a cross-sectional view of a storm water outlet assembly of an embodiment taken along a central portion thereof;

FIG. 17 is an enlarged view of the location indicated in FIG. 16;

FIG. 18 is an exploded view of a rotary water nozzle;

FIG. 19 is a cross-sectional view of a light icicle water outlet assembly of an embodiment taken along a central portion thereof;

FIG. 20 is a cross-sectional view of a third housing of the embodiment taken along the middle thereof;

fig. 21 is a diagram showing a connection structure of a control member and a lamp according to an embodiment.

The main reference numerals illustrate:

a body 10;

a water passing cavity 1; a first chamber 11; a second chamber 12;

an outer ring multi-layer mirror lamp light assembly 2; a first housing 21; a middle hole 211; step surface 2111; a frame 212; a through hole 2121; a mounting surface 21211; a cover plate 213; a single-sided mirror 22; a double-sided lens 23; a first mounting cavity 24; a strip-shaped ring groove 241;

a middle-circle light assembly 3; a astigmatic shade 31; an inclined surface 311; seating surface 312; a second housing 32; a second mounting cavity 33;

a shower water outlet assembly 4; a shower cavity 41; a first water outlet 42; a first mounting hole 43; a second mounting hole 44;

storm water outlet assembly 5; a second water outlet 51; a beveled water chamber 52; a swirl chamber 53; a beveled water hole 54;

a lamplight icicle water outlet assembly 6; a third housing 61; a blocking wall 611; a third water outlet 612; a lamp holder groove 613; an intermediate waterway 614; a transparent lamp holder 62; a mounting groove 621; an insertion portion 622; a water outlet channel 63; first waterway 631; a second waterway 632; a third waterway 633; a fourth waterway 634;

a mounting frame 7;

a control assembly 20; a slider 201; a force receiving portion 2011; a connection 2012; a sealing part 2013; a magnet 2014; a control 202; a reset member 30;

a rotary water nozzle 40; a rotary outlet 401; a weighting unit 402;

a gasket 50;

a first lamp 601; a second lamp 602; a third lamp 603;

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. It is to be understood that the described embodiments are preferred embodiments of the utility model and should not be taken as excluding other embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present utility model without creative efforts, are within the protection scope of the present utility model.

In the claims, specification and drawings hereof, unless explicitly defined otherwise, the terms "first," "second," or "third," etc. are used for distinguishing between different objects and not for describing a particular sequential order.

In the claims, specification and drawings of the present utility model, unless explicitly defined otherwise, references to orientation or positional relationship such as the terms "center", "lateral", "longitudinal", "horizontal", "vertical", "top", "bottom", "inner", "outer", "upper", "lower", "front", "rear", "left", "right", "clockwise", "counterclockwise", etc. are based on the orientation and positional relationship shown in the drawings and are merely for convenience of description and to simplify the description, and do not indicate or imply that the apparatus or element referred to must have a particular orientation or be constructed and operated in a particular orientation, nor should it be construed as limiting the particular scope of the utility model.

In the claims, specification and drawings of the present utility model, unless explicitly defined otherwise, the term "fixedly connected" or "fixedly connected" should be construed broadly, i.e. any connection between them without a displacement relationship or a relative rotation relationship, that is to say includes non-detachably fixedly connected, integrally connected and fixedly connected by other means or elements.

In the claims, specification and drawings of the present utility model, the terms "comprising," having, "and variations thereof as used herein, are intended to be" including but not limited to.

Embodiment one: referring to fig. 1 to 21, a water outlet device includes a body 10, a lamp, a control assembly 20, a reset member 30, a rotary tap 40, and a gasket 50.

The body 10 is provided with a water inlet, a water outlet and a water passing cavity 1 communicated with the water inlet and the water outlet; referring to fig. 4-6, the water passing chamber 1 is provided with a first chamber 11 and a second chamber 12 which are respectively communicated with the water inlet and the water outlet, and the first chamber 11 and the second chamber 12 form a vertical included angle with each other. The lamp is mounted to the body 10. Referring to fig. 4-6, the control assembly 20 includes an opening and closing member (not shown), a sliding member 201, and a control member 202; the opening and closing piece is arranged on the body 10 and is suitable for opening and closing the water passing cavity 1, and the opening and closing piece can be an electromagnetic valve or a mechanical valve; the sliding member 201 is adapted to slide in a first position close to the control member 202 and a second position far from the control member 202, the sliding direction of the sliding member 201 is the same as the extending direction of the first cavity 11, and the sliding member 201 is provided with a force receiving portion 2011, a connecting portion 2012, a sealing portion 2013 and a magnet 2014 sequentially arranged along the sliding direction of the sliding member 201 and along a direction far from the water inlet of the first cavity 11.

Referring to fig. 6, when the force receiving portion 2011 is at the second position, the force receiving portion 2011 is located on the water path through which water enters the second cavity 12 from the first cavity 11, so that even when the water pressure is small, the water will act on the force receiving portion 2011 to slide the slider 201, and in this embodiment, preferably, the force receiving portion 2011 is located at the corner of the first cavity 11 and the second cavity 12, the water amount gradually increases as the force receiving portion 2011 slides toward the first position, so that the influence of the arrangement of the force receiving portion 2011 on the water amount is reduced as much as possible (if the force receiving portion 2011 is located at the first cavity 11, the water is only passed through the gap between the force receiving portion 2011 and the first cavity 11 in the sliding process toward the first position, and the water amount is small). The connecting portion 2012 is used for connecting the stress portion 2011 and the sealing portion 2013, and the size of the connecting portion 2012 is smaller than that of the sealing portion 2013 and the stress portion 2011, so that the mass is reduced, and the sliding is easier. The periphery of the sealing part 2013 is provided with a sealing groove, the v-shaped ring is arranged on the sealing groove and props against the side wall of the water passing cavity 1, specifically, the v-shaped ring props against the cavity wall of the first cavity 11, and the hydraulic pressure is prevented from affecting the pushing action of the water pressure on the sliding part 201 after the hydraulic balance caused by the sealing of the two ends of the water communication sliding part 201. The magnet 2014 is located on a side of the slider 201 near the control member 202.

Referring to fig. 4 to 6, both ends of the restoring member 30 respectively act on the sliding member 201 and the body 10 to restore the sliding member 201 from the first position to the second position when the water passing chamber 1 is not passing water, and in this embodiment, the restoring member 30 is a spring.

Referring to fig. 5 and 6, the sliding member 201 is adapted to slide to the first position against the elastic force of the reset member 30 under the action of the water pressure when the water passing chamber 1 passes through the water, at this time, the magnet 2014 is close to the control member 202, the control member 202 is a hall sensor switch and is electrically connected to the lamp, at this time, the magnetic induction intensity of the magnet 2014 is enough to turn over the trigger in the hall sensor switch, and the circuit is opened, so as to control the lamp to start working. When the water cavity 1 is not filled with water, the water pressure is lost, the elastic force of the reset piece 30 enables the sliding piece 201 to slide to the second position, the reset piece enables the magnet 2014 to be far away from the Hall sensor switch, the circuit is closed, and the lamp is closed. The slider 201 includes magnet 2014, and control 202 is with magnet 2014 complex hall inductive switch, realizes non-contact control, and simple and convenient hall inductive switch can set up outside body 10, and the electric wire also does not set up in the water route, prevents the electric leakage risk. The water and the lamp can be automatically turned on and off when the water passing cavity 1 is opened and closed, so that the device is simple and convenient.

In this embodiment, the number of water passing cavities 1 is preferably N, N > 1, in a specific embodiment, n=3, and the three water passing cavities 1 have the same structure and are named as a first water passing cavity, a second water passing cavity and a third water passing cavity, respectively. The water outlet types of the water outlets communicated with each water passing cavity 1 are different, in this embodiment, three water outlet types are named as a first water outlet 42, a second water outlet 51 and a third water outlet 612 respectively, and in other embodiments, the number of water outlets can be more, or only one or two. The number of the water inlets is not limited, and the water inlets can be only one or the number of the water inlets is matched with that of the water passing cavities 1. The number of the control components 20 is the same as that of the water passing cavities 1, and when the control components are triggered, the control components 202 control the working modes of the lamps to be different, so that a user can start different water passing cavities 1 through different opening and closing parts, different control components 202 are triggered, the working modes of different lamps are realized, and the functional diversity is increased. In the present embodiment, the first lamp 601, the second lamp 602, and the third lamp 603 are named respectively according to the mounting positions of the lamps.

Referring to fig. 1 to 3, the body 10 includes an outer ring multi-layer mirror lamp light assembly 2, a middle ring lamp light assembly 3, a shower water outlet assembly 4, a storm water outlet assembly 5, a lamp water ice column water outlet assembly 6 and a mounting frame 7.

Referring to fig. 7 to 9, the outer-ring multi-lens lamp light assembly 2 includes a first housing 21, a single-sided mirror 22, and a double-sided lens 23. The first housing 21 is provided with a middle hole 211, the middle hole 211 penetrates through the middle of the first housing 21, the middle hole 211 is provided with a step surface 2111, the step surface 2111 faces away from the front surface of the first housing 21, and the front surface of the first housing 21 faces away from the mounting frame 7. The single-sided mirror 22 and the double-sided lens 23 are mounted to the first housing 21. The mirror surface of the single-sided mirror 22 faces the double-sided lens 23 and is arranged in parallel with the double-sided lens 23, and the first housing 21, the single-sided mirror 22 and the double-sided lens 23 enclose to form a first mounting cavity 24, specifically, referring to fig. 7 and 9, the first housing 21 includes a frame 212 and a cover plate 213 fixedly connected with each other, and the frame 212 and the cover plate 213 are locked by screws; the frame 212 has a through hole 2121, the through hole 2121 has a mounting surface 21211, a mirror surface of the single-sided mirror 22 is seated on the mounting surface 21211, and the cover 213 abuts against the back surface of the single-sided mirror 22 to close an opening at one end of the through hole 2121; the double-sided lens 23 is fixedly connected to the frame 212 and seals the opening at the other end of the through hole 2121, at this time, the openings at both ends of the through hole are sealed, the wall of the through hole, the single-sided mirror 22 and the double-sided lens 23 form a full-surrounding structure, that is, a space formed by surrounding forms a first mounting cavity 24, and the cavity wall of the first mounting cavity 24 is formed by the wall of the through hole, the single-sided mirror 22 and the double-sided lens 23 respectively; the first mounting cavity 24 surrounds the middle hole 211, a strip-shaped annular groove 241 is arranged on the cavity wall of the first mounting cavity 24, which is connected with the single-sided mirror 22 and the double-sided lens 23, in this embodiment, the first lamp 601 is mounted on the strip-shaped annular groove 241, and the first lamp 601 is in the form of a lamp strip, which can be a plurality of bulbs, but the lamp strip is more convenient to mount than the bulbs.

When the light emitted by the first lamp 601 irradiates on the single-sided mirror 22 and the double-sided lens 23, the light is reflected on the single-sided mirror 22, the light is refracted and reflected on the double-sided lens 23, a plurality of parallel mirrors are formed through the processes, each mirror reflects a picture, and the pictures are overlapped layer by layer, so that the effect of a multi-layer mirror is formed. When light rays are incident into the multi-layered mirror, they are reflected and refracted multiple times, forming many repeated images. Because the visual effect of the multi-layer mirror is a progressive and gradually deep pattern, the infinitely extended visual effect is given to people, the extremely deep dazzling effect can be presented, the tunnel caused by the lamp beams gradually disappears until the light is gradually weakened, and the infinite fanciful effect is formed. The double-sided lens 23 is used on the outside, when the lamp is lighted, the lamp light tunnel inside can be seen from the outside (multi-layer mirror effect); when the light is turned off, it is a mirror surface from the outside.

Referring to fig. 10-12, the middle-circle light assembly 3 comprises a second shell 32 and a light diffusing lampshade 31, wherein the middle part of the second shell 32 is communicated; the astigmatic lampshade 31 and the second casing 32 are enclosed to form a second installation cavity 33, specifically, the second casing 32 is provided with a first annular groove, the notch of the first annular groove is forward, the astigmatic lampshade 31 is provided with a second annular groove opposite to the first annular groove, when the astigmatic lampshade 31 is arranged on the second casing 32, the second annular groove and the first annular groove are communicated to form a full-surrounding structure, the space formed by the second annular groove and the first annular groove forms a second installation cavity 33, and the second installation cavity 33 is annular in the embodiment; the astigmatic shade 31 and the second housing 32 may be mounted by clamping or bonding. The second lamp 602 is mounted on the wall of the second mounting chamber 33 facing the light-diffusing lamp housing 31, in this embodiment the second lamp 602 is in the form of a lamp strip. The astigmatic lampshade 31 is made of astigmatic material, so that the lamplight looks uniform and soft, and the visual effect is improved; the light diffusing lamp housing 31 is provided with inclined surfaces 311 to change the light diffusing angle, and in this embodiment, four inclined surfaces 311 are provided in total, and the distance between the two opposite inclined surfaces 311 is widened from back to front. Astigmatic chimney 31 is further provided with a seating surface 312 adapted to step surface 2111.

Referring to fig. 13-15, the shower water outlet assembly 4 is provided with a shower cavity 41 and a plurality of first water outlets 42 communicated with the shower cavity 41, the shower cavity 41 is also communicated with the first water outlet cavity, and the first water outlets 42 are used for discharging shower water. The shower water outlet assembly 4 is further provided with a plurality of first mounting holes 43 and a second mounting hole 44.

Referring to fig. 16 and 17, the storm water outlet assembly 5 is provided with a second water outlet 51, a sloping water cavity 52 and a plurality of cyclone cavities 53 communicated with the sloping water cavity 52, and the sloping water cavity 52 is communicated with the second water passing cavity; the cyclone cavities 53 are communicated with the second water outlets 51 in a one-to-one correspondence manner, and the second water outlets 51 emit scattered water. The swirling cavity 53 is generally in the shape of a frustum, and the diameter of the frustum is reduced along the direction approaching the water outlet; the cyclone cavity 53 and the inclined water cavity 52 are communicated through the inclined water hole 54, the inclined water hole 54 is used for enabling water in the inclined water cavity 52 to pass through the inclined water hole 54 and then form cyclone in the cyclone cavity 53, and a plurality of inclined water holes 54 can be arranged to increase the cyclone effect.

Referring to fig. 17 and 18, the rotary water nozzle 40 is provided with a rotary outlet 401, the rotary water nozzle 40 is disposed in the cyclone cavity 53 and communicates the rotary outlet 401 with the second water outlet 51, one end of the rotary water nozzle 40 is abutted against one end of the cyclone cavity 53 close to the second water outlet 51 (abutted against by hydraulic action or abutted against by assembly size), the other end of the rotary water nozzle 40 is rotated around the central axis of the cyclone cavity 53 under the cyclone action, when water is introduced, water ejected from the rotary water nozzle 40 by the inclined water holes 54 is rotatably driven by the central axis of the cyclone cavity 53 to move along the inner surface of the cyclone cavity 53 (the movement track is a conical surface), and water in the cyclone cavity 53 flows through the rotary water nozzle 40 and the second water outlet 51 in sequence to be ejected and flows out, so that centrifugal scattering water bloom is formed, and the centrifugal particle feeling and the pulse massaging feeling are very strong.

Referring to fig. 17 and 18, in this embodiment, preferably, a weight increasing portion 402 is disposed at an end of the rotary water nozzle 40 facing away from the second water outlet 51, in this embodiment, the weight increasing portion 402 is a steel ball, so as to enhance centrifugal force, and facilitate better adhesion between the rotary water nozzle 40 and the wall of the cyclone cavity 53 during rotation. The gasket 50 is mounted on the peripheral wall of the rotary tap 40, and the gasket 50 is adapted to abut against the wall of the swirling chamber 53 when the rotary tap 40 is rotated, and to help to cushion the collision of the rotary tap 40 with the swirling chamber 53 and reduce noise when rotated, and in this embodiment, the gasket 50 is an O-ring.

Referring to fig. 19, the lamplight icicle water outlet assembly 6 includes a third housing 61 and a transparent lamp holder 62, the transparent lamp holder 62 is hermetically mounted on the third housing 61 and encloses with the third housing 61 to form a water outlet channel 63, and the three components can be fixed by adhesion and screwing. The water outlet channel 63 is communicated with the third water passing cavity, and the water outlet channel 63 is provided with a plurality of sections which are communicated and have different water flow directions. Specifically, the water outlet channel 63 includes a first water channel 631, a second water channel 632, a third water channel 633 and a fourth water channel 634, wherein, referring to fig. 20, the third housing 61 is provided with the first water channel 631, the second water channel 632, the blocking wall 611, the lamp holder groove 613, the intermediate water channel 614 and the third water outlet 612; the second water channel 632 is perpendicular to the first water channel 631, the second water channel 632 is communicated with the side edge of the middle water channel 614, the lamp holder groove 613, the middle water channel 614 and the third water outlet 612 are sequentially arranged along the water outlet direction of the third water outlet 612, the blocking wall 611 protrudes out of the middle water channel 614 along the direction opposite to the water outlet direction of the third water outlet 612, the blocking wall 611 is used for blocking the water flow of the second water channel 632, and the blocking wall 611 is annular; the transparent lamp holder 62 is provided with an inserting part 622, the inserting part 622 is in a frustum shape, the transparent lamp holder 62 is in sealing connection with the lamp holder groove 613, and the inserting part 622 extends into the middle water channel 614, so that a third water channel 633 is formed in a gap between the inserting part 622 and the blocking wall 611; the gap between the end surface of the insertion portion, which is close to the third water outlet 612, and the third water outlet 612 forms a fourth water channel 634. The water outlet channel 63 has a plurality of diversion channels, so that the water flow is distributed more uniformly through the diversion of a plurality of waterways, and the buffer function slows down the impact of the water flow, so that the water is formed into a better-looking, crystal clear and transparent shape.

In this embodiment, the third water outlet 612 is provided by a water nozzle, which is an icicle water nozzle and is also made of a transparent material. The transparent lamp holder 62 is provided with a mounting groove 621 having a notch facing away from the third water outlet 612. The third lamp 603 is installed in the installation groove 621, and the third lamp 603 is a light circuit board. The lamplight icicle water outlet assembly 6 is arranged on the shower water outlet assembly 4 and corresponds to the second mounting hole 44 in a screw mode. By using the transparent lamp holder 62, the lamplight is gathered and transmitted from the luminous source to the upper part of the water outlet nozzle of the ice column with minimum loss, and is transmitted along with water flow, so that a flowing lamplight effect is formed.

Referring to fig. 21, in particular, three control members 202 are electrically connected to a control box, which is electrically connected to a first light 601, a second light 602, and a third light 603. When the night-time luminous lamp is used, such as when the morning wakes up, the water bloom of the ice column of the single water is used, the vigor is waken up, the instant spirit is realized, the water bloom strength is mild, the first lamp 601, the second lamp 602 and the third lamp 603 are lightened and are matched with the morning-light blue light effect, and a good day is started; after the sports, using storm water spray to wash sweat stain after sports, meanwhile, strong water spray massage muscle, similar to fascia gun effect, make people have crisp and numb and relaxed feeling, the first lamp 601, the second lamp 602 and the third lamp 603 are lightened and matched with the light effect of rhythmic breathing aurora, so that fatigue after sports is eliminated; before sleeping at night, the shower head is used for spraying water, so that the body and mind are relaxed, the shower head is used for washing the whole body, the fatigue of one day is also washed away, and the first lamp 601, the second lamp 602 and the third lamp 603 are turned on and matched with the relaxed streamer lamp light to enable the user to fall asleep. The control member 202 corresponding to the waterway previously sets the operation mode of the lamp, and the above effect can be achieved when the waterway is opened.

The mounting frame 7 is used for supporting the outer ring multi-layer mirror lamp light assembly 2, the middle ring light assembly 3, the shower water outlet assembly 4, the storm water outlet assembly 5 and the light icicle water outlet assembly 6.

Specifically, referring to fig. 1 to 3, first, the storm water outlet assembly 5 is fixedly connected to the shower water outlet assembly 4, and each second water outlet 51 corresponds to each first mounting hole 43, and the mounting manner is through screws. The lamplight icicle water outlet assembly 6 penetrates through the storm water outlet assembly 5, is locked on the shower water outlet assembly 4 through screws and is arranged corresponding to the second mounting hole 44; the three are fixed in an organic whole, and mounting bracket 7 is fixed through the spiro union with gondola water faucet water outlet subassembly 4.

Then, the mirror middle ring light assembly 3 is installed in the middle hole 211, the seating surface 312 is abutted against the step surface 2111, and two end surfaces of the mirror middle ring light assembly 3 are flush with two end surfaces of the outer ring multi-layer mirror light assembly 2. The mounting frame 7 is fixed with the outer ring multi-layer mirror lamp light assembly 2 through screw connection. The middle ring light assembly 3 is fixed because two ends are respectively abutted by the outer ring multi-layer mirror light assembly 2 and the mounting frame 7. And the size of the shower water outlet assembly 4 is matched with the size of the middle hole of the middle ring light assembly 3. The assembly mode is convenient to install and maintain, and the lamp is correspondingly detached when the water outlet part is damaged or the lamp part is damaged. The mounting frame 7 may be fixed to the ceiling to complete the suspended mounting of the water outlet device, which may be by nuts, bolts or the like.

The foregoing description of the embodiments and description is presented to illustrate the scope of the utility model, but is not to be construed as limiting the scope of the utility model. Modifications, equivalents, and other improvements to the embodiments of the utility model or portions of the features disclosed herein, as may occur to persons skilled in the art upon use of the utility model or the teachings of the embodiments, are intended to be included within the scope of the utility model, as may be desired by persons skilled in the art from a logical analysis, reasoning, or limited testing, in combination with the common general knowledge and/or knowledge of the prior art.

Claims (15)

1. A water outlet device, characterized in that: comprising

The body (10) is provided with a water inlet, a water outlet and a water passing cavity (1) communicated with the water inlet and the water outlet;

a lamp mounted to the body (10);

a control assembly (20) comprising a slider (201) and a control member (202); the sliding piece (201) is arranged in the water passing cavity (1) and is suitable for being slid to a first position under the action of water pressure when the water passing cavity (1) is used for water passing; the control member (202) is mounted to the body (10) and is electrically connected to the lamp, and is adapted to be triggered to control the lamp to start operating when the slider (201) is slid to the first position.

2. A water outlet device as claimed in claim 1, wherein: the water passing chamber (1) is not used for passing water, the water passing chamber further comprises a reset piece (30), two ends of the reset piece (30) respectively act on the sliding piece (201) and the body (10) to enable the sliding piece (201) to reset and slide from a first position to a second position when the water passing chamber is not used for passing water, and the control piece (202) is triggered to control the lamp to be turned off when the sliding piece (201) slides to the second position.

3. A water outlet device as claimed in claim 1, wherein: the sliding piece (201) is provided with a sealing part (2013), and the peripheral wall of the sealing part (2013) is in sealing fit with the water passing cavity (1).

4. A water outlet device as claimed in claim 2, wherein: the water passing cavity (1) is provided with a first cavity (11) and a second cavity (12) which are respectively communicated with the water inlet and the water outlet; the sliding piece (201) is provided with a stress part (2011), and the stress part (2011) is suitable for enabling the sliding piece (201) to slide under the action of water pressure; when the force receiving part (2011) is at the second position, the force receiving part (2011) is positioned on a water passing path through which water enters the second cavity (12) from the first cavity (11).

5. A water outlet device as claimed in claim 2, wherein: the slider (201) comprises a magnet (2014), and the control member (202) is a Hall sensor switch matched with the magnet (2014).

6. A water outlet device as claimed in any one of claims 1 to 5, wherein: the number of the water passing cavities (1) is N, N is more than 1, the water outlet types of the water outlets communicated with each water passing cavity (1) are different, and the number of the control assemblies (20) is the same as the number of the water passing cavities (1) and corresponds to one.

7. A water outlet device as claimed in any one of claims 1 to 5, wherein: and each control member (202) controls the lamp in a different mode of operation when activated.

8. A water outlet device as claimed in any one of claims 1 to 5, wherein: the body (10) comprises a first shell (21), a single-sided mirror (22) and a double-sided lens (23), wherein the first shell (21), the single-sided mirror (22) and the double-sided lens (23) enclose to form a first installation cavity (24), the mirror surface of the single-sided mirror (22) faces the double-sided lens (23) and is arranged in parallel with the double-sided lens (23), and the lamp is arranged on the cavity wall of the first installation cavity (24) connected with the single-sided mirror (22) and the double-sided lens (23).

9. A water outlet device as claimed in any one of claims 1 to 5, wherein: the body (10) further comprises a second shell (32) and a light-diffusing lampshade (31), the light-diffusing lampshade (31) and the second shell (32) are enclosed to form a second mounting cavity (33), and the lamp is mounted on the cavity wall of the second mounting cavity (33) facing the light-diffusing lampshade (31).

10. A water outlet device as claimed in any one of claims 1 to 5, wherein: the body (10) further comprises a third shell (61) and a transparent lamp holder (62), wherein the transparent lamp holder (62) is arranged on the third shell (61), the third shell (61) is provided with a water outlet, the transparent lamp holder (62) is provided with a mounting groove (621) with a notch deviating from the water outlet, the lamp is arranged in the mounting groove (621), and light rays of the lamp sequentially penetrate through the transparent lamp holder (62) and the water outlet.

11. A water outlet apparatus as claimed in claim 10, wherein: the transparent lamp holder (62) and the third shell (61) are enclosed to form a water outlet channel (63), and the water outlet channel (63) is communicated with the water outlet and provided with a plurality of sections which are communicated in sequence and have different water flow directions.

12. A water outlet apparatus as claimed in claim 11, wherein: the third shell (61) is also provided with a first water channel (631), a second water channel (632), a blocking wall (611), a lamp bracket groove (613) and a middle water channel (614); the second water channel (632) is perpendicular to the first water channel (631), the second water channel (632) is communicated with the side edge of the middle water channel (614), the lamp bracket groove (613), the middle water channel (614) and the water outlet are sequentially arranged along the water outlet direction of the water outlet, and the blocking wall (611) protrudes out of the middle water channel (614) along the direction opposite to the water outlet direction of the water outlet; the transparent lamp holder (62) is provided with an insertion part (622), the transparent lamp holder (62) is in sealing connection with the lamp holder groove (613), and the insertion part (622) extends into the intermediate water channel (614) so that a third water channel (633) is formed by a gap between the insertion part (622) and the blocking wall (611); a fourth water channel (634) is formed by a gap between the end surface of the insertion part (622) close to the water outlet and the water outlet; the first water channel (631), the second water channel (632), the third water channel (633) and the fourth water channel (634) are sequentially communicated to form the water outlet channel (63).

13. A water outlet device as claimed in claim 1, wherein: the rotary water tap is characterized by further comprising a rotary water tap (40), wherein the body (10) is provided with a rotational flow cavity (53) and an inclined water hole (54) communicated with the rotational flow cavity (53) and used for forming rotational flow in the rotational flow cavity (53), and the rotational flow cavity (53) is communicated with the water outlet; the rotary water nozzle (40) is arranged in the cyclone cavity (53), one end of the rotary water nozzle (40) is abutted to one end, close to the water outlet, of the cyclone cavity (53), the other end of the rotary water nozzle is rotated around the central axis of the cyclone cavity (53) under the cyclone action, and the rotary water nozzle (40) is provided with a rotary outlet (401) communicated with the water outlet.

14. A water outlet apparatus as claimed in claim 13, wherein: and a weight increasing part (402) is arranged at one end of the rotary water nozzle (40) away from the water outlet.

15. A water outlet apparatus as claimed in claim 13, wherein: the rotary water nozzle further comprises a gasket (50), wherein the gasket (50) is arranged on the peripheral wall of the rotary water nozzle (40), and the gasket (50) is suitable for being abutted against the cavity wall of the cyclone cavity (53) when the rotary water nozzle (40) rotates.