CN219515988U - Water outlet nozzle structure for drinking water equipment and drinking water equipment - Google Patents

Abstract

The utility model relates to the technical field of drinking water equipment, in particular to a water outlet nozzle structure for the drinking water equipment and the drinking water equipment, and aims to solve the problem that the use experience of a user is affected due to the fact that the water outlet shape of the existing drinking water equipment is intermittent or swings left and right when hot water is discharged. For this purpose, the water tap structure of the utility model comprises a water-vapor separation box, a water-vapor separation component and a water tap component, wherein the water-vapor separation box is provided with a water inlet and a water-vapor separation cavity, the water-vapor separation component comprises a first water-vapor separation component, the first water-vapor separation component is positioned in the water inlet, the water tap component comprises a first water tap and a second water tap, the water tap component is arranged to enable water in the water-vapor separation cavity to flow out of the first water tap, and the water tap component is also arranged to enable water in the water-vapor separation cavity to flow out of the first water tap and the second water tap. The water outlet nozzle structure can improve the water outlet shape of the water drinking equipment and improve the use experience of users.

Description

Water outlet nozzle structure for drinking water equipment and drinking water equipment

Technical Field

The utility model relates to the technical field of drinking equipment, and particularly provides a water outlet nozzle structure for the drinking equipment and the drinking equipment.

Background

The existing drinking water equipment generally has a quick heating function, and the quick heating body heats water to the required drinking temperature and then flows out of the water outlet nozzle so as to achieve the purpose of drinking.

However, in the existing drinking water equipment, a large amount of water vapor is generated in the process of heating water by the quick heating body, so that a large amount of bubbles are generated in the heated hot water, the water outlet shape of the hot water is intermittent or the water outlet shape of the hot water is left and right fluctuated, and especially the situation that the water outlet shape of the hot water is intermittent or left and right fluctuated when the water outlet is at a small flow rate is serious, so that the use experience of a user is influenced.

Disclosure of Invention

The utility model aims to solve the technical problems, namely the problem that the use experience of a user is affected due to the fact that the water outlet shape of the existing drinking water equipment is intermittent or flutters left and right when hot water is discharged.

In a first aspect, the present utility model provides a tap arrangement for a drinking water apparatus, the tap arrangement comprising a water-vapour separation cartridge having a water inlet and a water-vapour separation chamber, a water-vapour separation assembly comprising a first water-vapour separation member located within the water inlet for the water-vapour separation of hot water passing through the water inlet, the tap assembly comprising a first tap and a second tap, the tap assembly being arranged to enable water within the water-vapour separation chamber to flow from the first tap when in a first water outlet state, the tap assembly being further arranged to enable water within the water-vapour separation chamber to flow from the first tap and the second tap when in a second water outlet state.

In the preferred technical scheme of the water tap structure, the water tap structure further comprises a water baffle arranged in the water-vapor separation box, the water baffle divides the water-vapor separation cavity into a first water outlet flow passage and a second water outlet flow passage, the first water outlet flow passage is communicated with the first water tap, and the second water outlet flow passage is communicated with the second water tap, so that water in the first water outlet flow passage overflows into the second water outlet flow passage when the water quantity in the first water outlet flow passage is excessive, and water in the second water outlet flow passage flows out through the second water outlet flow passage.

In the preferable technical scheme of the water outlet nozzle structure, the first water outlet nozzle and the second water outlet nozzle are distributed in a ring shape.

In the preferred technical scheme of the water outlet nozzle structure, the second water outlet nozzle is positioned at the outer side of the first water outlet nozzle, a plurality of connecting ribs are arranged between the first water outlet nozzle and the second water outlet nozzle, and the connecting ribs are distributed along the circumferential direction of the first water outlet nozzle at intervals.

In the preferred technical scheme of the water tap structure, the water-vapor separation assembly further comprises a second water-vapor separation member arranged in the water-vapor separation box, the second water-vapor separation member is used for separating water from hot water entering the water-vapor separation cavity, and the water tap structure further comprises a steam discharge port, so that steam in the water-vapor separation cavity is discharged from the steam discharge port.

In the preferable technical scheme of the water outlet nozzle structure, the steam discharge port is communicated with a normal-temperature water tank of the drinking water device.

In the preferable technical scheme of the water outlet nozzle structure, the first water-vapor separation member is a rib plate arranged at the water inlet.

In the preferred technical scheme of the water tap structure, the water-vapor separation box comprises a box body and a cover body arranged above the box body, the box body and the cover body jointly enclose into the water-vapor separation cavity, and the water inlet is positioned on the cover body.

In the preferable technical scheme of the water outlet nozzle structure, the rib plates and the cover body are integrally formed.

In a second aspect, the present utility model provides a drinking device comprising the spout structure described above.

Under the condition of adopting the technical scheme, the water outlet nozzle structure can separate the water and the steam of the hot water entering the water and steam separation box through the water and steam separation assembly and then flow out through the water outlet nozzle assembly, so that on one hand, the situation that the hot water of the water outlet nozzle flows out and swings left and right due to incomplete water and steam separation can be improved, and the use experience of a user is improved; meanwhile, the water-vapor separation and the water outlet nozzle assembly are integrated into a whole, so that the cost of the drinking water equipment can be reduced; on the other hand, through setting up the water outlet nozzle subassembly to under the circumstances that the water yield is little, make the hot water in the water-steam separation chamber flow from first water outlet nozzle, under the circumstances that the water yield is big, make the hot water in the water-steam separation chamber flow from first water outlet nozzle and second water outlet nozzle, can avoid leading to the play water effect of little water yield not good because of the delivery port is too big, simultaneously, also can avoid leading to the unsmooth problem of rivers when big water yield because of the water outlet is too little, further promote user's user experience.

Further, by arranging the water baffle, the water-vapor separation cavity can be divided into a first water outlet flow channel and a second water outlet flow channel, when the water yield is smaller, water in the water-vapor separation cavity flows out through the first water outlet nozzle, and the phenomena of intermittent water outlet, left-right drift of water outlet and the like caused by overlarge water outlet are avoided; when the water yield is great, can make the partial water in the first water outlet runner overflow to the second water outlet runner in through the breakwater to make the water in the water-steam separation chamber flow from first water outlet nozzle and second water outlet nozzle simultaneously, thereby avoid leading to the water to be unsmooth because of the water yield is big, and then can improve the water-out water form, promote user's use experience.

Still further, through setting up first water outlet nozzle and second water outlet nozzle to be annular distribution, can make the water yield more concentrated, further improve the water yield effect to further improve user's use experience.

Still further, by arranging the second water outlet nozzle to be positioned outside the first water outlet nozzle, the water outlet of the first water outlet nozzle can be made as small as possible compared with the arrangement of the first water outlet nozzle outside the second water outlet nozzle, so that the water outlet shape when the water outlet amount is small can be improved, and the phenomena of intermittent water flow, left-right drift of the water outlet and the like can be further prevented; through set up a plurality of connecting bars between first water outlet nozzle and second water outlet nozzle, can guarantee that first water outlet nozzle and second water outlet nozzle set up with one heart to further promote the play water effect of water outlet nozzle subassembly.

Still further, through setting up the second steam-water separation component in the steam-water separation box, can carry out secondary steam-water separation to entering into the hot water in the steam-water separation box to make the vapor that separates out follow steam discharge outlet and discharge, thereby make steam-water separation more thoroughly, can avoid leading to appearing out water intermittent, the play water condition such as waggling about the play water because of the steam-water separation is incomplete, greatly improved the play water form and the play water effect of play water nozzle structure, further promoted user's use experience.

Furthermore, the steam discharge port is communicated with the normal-temperature water tank of the drinking water device, so that on one hand, the water vapor discharged from the steam discharge port can be prevented from directly entering the using space of the drinking water device, and the influence on the using experience of a user due to the increase of the humidity in the using space is avoided; on the other hand, set up the normal atmospheric temperature water tank intercommunication of steam discharge port into with drinking water equipment, can make from steam discharge port exhaust vapor directly enter into normal atmospheric temperature water tank in, follow waterway system flow again for the user to drink, avoid the waste of water resource, further promote user's use experience.

Still further, can puncture the bubble in the hot water and realize water vapor separation under the effect of gusset to inject the hot water into water vapor separation intracavity through the water inlet, thereby improve and appear out water condition such as water interruption, play water drift because of there is too much bubble in the hot water, and then improve the play water form of water nozzle structure.

Still further, compare with setting up steam-water separation box to the form of integral type structural style, set up steam-water separation box into box body and lid's form, be convenient for reduce steam-water separation box's the preparation degree of difficulty to reduce the processing cost of water outlet nozzle structure.

Still further, through setting up first steam-water separation component into with lid integrated into one piece, can improve the wholeness between first steam-water separation component and the steam-water separation box, reduce the spare part quantity of faucet structure, further improve user's use experience.

In addition, the drinking water equipment further provided on the basis of the technical scheme comprises the water outlet nozzle structure, so that the drinking water equipment has the beneficial effects of the water outlet nozzle structure.

Drawings

Preferred embodiments of the present utility model are described below with reference to the accompanying drawings, in which:

FIG. 1 is a schematic view of the connection structure of the water spout structure and the drinking device of the present utility model;

FIG. 2 is a schematic view of the nozzle structure of the present utility model after hiding the first and second brackets;

FIG. 3 is a schematic diagram showing a second structure of the faucet structure of the present utility model after hiding the first and second brackets;

FIG. 4 is a schematic view of a nozzle structure of the present utility model after concealing a first bracket and a second bracket;

FIG. 5 is a schematic cross-sectional view taken along line A-A of FIG. 4;

FIG. 6 is a schematic view of the structure of the cover of the present utility model;

FIG. 7 is a schematic view of the structure of the faucet of the present utility model after hiding the first and second brackets and the cover;

FIG. 8 is a schematic view of the nozzle structure of the present utility model after concealing the second nozzle;

fig. 9 is a schematic structural view of the water outlet nozzle structure of the present utility model.

List of reference numerals:

1. a water-vapor separation box; 10. a water-vapor separation chamber; 11. a case body; 111. a water baffle; 1111. a first water outlet flow passage; 1112. a second water outlet flow passage; 12. a cover body; 121. a water inlet; 122. a steam discharge port; 123. reserving a water inlet; 124. a support plate; 21. a first water-vapor separation member; 22. a second water-vapor separation member; 3. a water outlet nozzle assembly; 31. a first water outlet nozzle; 32. a second water outlet nozzle; 33. a connecting rib; 4. a first bracket; 5. a second bracket; 61. a normal temperature water tank; 62. a rapid heating body; 63. a water pump; 64. a hot water valve.

Detailed Description

Preferred embodiments of the present utility model are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are merely for explaining the technical principles of the present utility model, and are not intended to limit the scope of the present utility model.

It should be noted that, in the description of the present utility model, terms such as "inner," "outer," "top," "bottom," "upper," and the like, which indicate a direction or a positional relationship, are based on the direction or the positional relationship shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the apparatus or element must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Furthermore, it should be noted that, in the description of the present utility model, unless explicitly stated and limited otherwise, the terms "mounted," "disposed," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected. The specific meaning of the above terms in the present utility model can be understood by those skilled in the art according to the specific circumstances.

Referring to fig. 1, fig. 1 is a schematic connection diagram of a water outlet structure and a drinking device according to the present utility model.

As shown in fig. 1, the drinking water apparatus of the present utility model includes a normal temperature water tank 61, a rapid heating body 62, a hot water valve 64 and a water pump 63 which are sequentially communicated through a water pipe, both ends of the rapid heating body 62 are respectively communicated with the normal temperature water tank 61 and the hot water valve 64, the water pump 63 is arranged to be capable of sequentially conveying water in the normal temperature water tank 61 into the rapid heating body 62 and the hot water valve 64, so that the rapid heating body 62 heats water in the normal temperature water tank 61 and then conveys the heated water into the hot water valve 64, the drinking water apparatus further includes a water outlet nozzle structure, and the hot water valve 64 is communicated with a water inlet 121 of the water outlet nozzle structure.

It should be noted that, in practical applications, those skilled in the art may set the drinking device as a water dispenser, or may set the drinking device as a pipeline machine, or may set the drinking device as a water purifying machine, etc., and such modifications and changes to the specific setting type of the drinking device do not deviate from the principle and scope of the present utility model, and are included in the protection scope of the present utility model.

Illustratively, the drinking device is provided as a drinking machine.

It should be noted that, in practical applications, those skilled in the art may set the water pump 63 between the normal temperature water tank 61 and the quick heating body 62, or may set the water pump 63 between the quick heating body 62 and the hot water valve 64, etc., and such adjustment and modification of the specific setting position of the water pump 63 do not deviate from the principle and scope of the present utility model, and are all included in the protection scope of the present utility model.

Preferably, as shown in fig. 1, the water pump 63 of the present utility model is disposed between the normal temperature water tank 61 and the rapid heating body 62.

It should be noted that, in practical applications, those skilled in the art may set the fast heating element 62 in a thick film heating structure, or may set the fast heating element 62 in an electromagnetic heating structure, or may set the fast heating element 62 in any other possible form, etc., and such modifications and changes to the specific setting type of the fast heating element 62 are included in the protection scope of the present utility model without departing from the principle and scope of the present utility model.

Preferably, the rapid thermal body 62 is configured as thick film heating.

With continued reference to fig. 1 and subsequent reference to fig. 2-5, fig. 2 is a schematic view of the nozzle structure of the present utility model after hiding the first and second brackets; FIG. 3 is a schematic diagram showing a second structure of the faucet structure of the present utility model after hiding the first and second brackets; FIG. 4 is a schematic view of a nozzle structure of the present utility model after concealing a first bracket and a second bracket; fig. 5 is a schematic cross-sectional view taken along line A-A in fig. 4.

As shown in fig. 1 to 5, the water tap structure of the present utility model comprises a water-vapor separation cartridge 1, a water-vapor separation assembly and a water tap assembly 3, wherein the water-vapor separation cartridge 1 is provided with a water inlet 121 and a water-vapor separation cavity 10, the water inlet 121 is communicated with a hot water valve 64 of a drinking water device, the water-vapor separation assembly comprises a first water-vapor separation member 21, the first water-vapor separation member 21 is positioned in the water inlet 121 so as to separate water from hot water entering the water inlet 121, the water tap assembly 3 comprises a first water tap 31 and a second water tap 32, the water tap assembly 3 is arranged to enable water in the water-vapor separation cavity 10 to flow out of the first water tap 31 when the water tap assembly 3 is in a first water outlet state, and the water tap assembly 3 is also arranged to enable water in the water-vapor separation cavity 10 to flow out of the first water tap 31 and the second water tap 32 when the water tap assembly is in a second water outlet state.

Through the arrangement, on one hand, hot water entering the water-vapor separation box 1 can be separated by the water-vapor separation component and then flows out through the water outlet nozzle component 3, so that the situation that the hot water of the water outlet nozzle flows out and swings left and right due to incomplete water-vapor separation can be improved, the use experience of a user is improved, and meanwhile, the water-vapor separation and the water outlet nozzle component are integrated into a whole, and the cost of drinking water equipment can be reduced; on the other hand, through setting the water outlet nozzle assembly 3 to be under the circumstances that the water yield is little, make the hot water in the water-steam separation chamber 10 flow out from first water outlet nozzle 31, under the circumstances that the water yield is big, make the hot water in the water-steam separation chamber 10 flow out from first water outlet nozzle 31 and second water outlet nozzle 32, can avoid leading to the play water effect of little water yield not good because of the delivery port is too big, simultaneously, also can avoid leading to the unsmooth problem of rivers when big water yield because of the delivery port is too little, further promote user's user experience.

It should be noted that, in practical applications, those skilled in the art may set the water-vapor separation box 1 into an integral structure, or may set the water-vapor separation box 1 into a structure of the box body 11 and the cover body 12, etc., and such modifications and changes to the specific setting of the water-vapor separation box 1 do not deviate from the principle and scope of the present utility model, and should be included in the protection scope of the present utility model.

Preferably, as shown in fig. 1 to 5, the water-vapor separation box 1 of the present utility model comprises a box body 11 and a cover body 12 arranged above the box body 11, wherein the box body 11 and the cover body 12 jointly enclose a water-vapor separation cavity 10, and a water inlet 121 is positioned on the cover body 12.

Through such setting, compare with the structural style that sets up water vapor separation box 1 into the integral type, set up water vapor separation box 1 into the form of box body 11 and lid 12, be convenient for reduce the preparation degree of difficulty of water vapor separation box 1 to reduce the processing cost of water outlet structure.

It should be noted that, in practical applications, those skilled in the art may set the case 11 and the cover 12 to be connected by fasteners to implement the installation of the case 11 and the cover 12, or may set the case 11 and the cover 12 to be welded by ultrasonic waves to implement the installation of the case 11 and the cover 12, etc., and such modifications and changes to the specific connection manner of the case 11 and the cover 12 do not deviate from the principle and the scope of the present utility model, and are included in the protection scope of the present utility model.

Preferably, the case 11 and the cover 12 are provided so as to be mounted by ultrasonic welding.

By such arrangement, the sealability between the case 11 and the cover 12 can be improved, and thus the sealability of the water-vapor separation case 1 can be improved, as compared with the case 11 and the cover 12 which are provided in a form to be mounted by fasteners, and the case 11 and the cover 12 are provided in a form to be mounted by ultrasonic welding.

Referring next to fig. 6, fig. 6 is a schematic structural diagram of the cover of the present utility model.

Preferably, as shown in fig. 6, the cover 12 of the present utility model is provided with a support plate 124, and the support plate 124 is disposed inside the cover 12 and extends in the width direction of the cover 12.

By such arrangement, the cover 12 can be prevented from being deformed by the support plate 124 when the cover and the case 11 are ultrasonically welded.

It should be noted that, in practical applications, the water inlet 121 is not limited to be disposed on the cover 12, for example, the water inlet 121 may be disposed on the box 11, etc., and such adjustment and modification of the specific disposition position of the water inlet 121 do not deviate from the principle and scope of the present utility model, and are included in the protection scope of the present utility model. It is of course preferable to provide the water inlet 121 on the cover 12.

It should be further noted that, in practical applications, a person skilled in the art may set a water baffle 111 in the water-vapor separation box 1, where the water baffle 111 separates the water-vapor separation chamber 10 into the first water outlet channel 1111 and the second water outlet channel 1112, so as to adjust the water outlet path according to the water yield, or may set a first water outlet channel 1111 and a second water outlet channel 1112 respectively communicating with the first water outlet nozzle 31 and the second water outlet nozzle 32 in the water-vapor separation box 1, and simultaneously set an electromagnetic valve between the second water outlet channel 1112 and the second water outlet nozzle 32, where the water level in the first water outlet channel 1111 is lower than the set level, the electromagnetic valve is closed, the water in the water-vapor separation chamber 10 flows out from the first water outlet nozzle 31 only, and the electromagnetic valve is opened, and the water in the water-vapor separation chamber 10 flows out from the first water outlet nozzle 31 and the second water outlet nozzle 32 when the water level in the first water outlet channel 1111 exceeds the set level, so as to flexibly adjust and change, and not deviate from the principle and scope of the present utility model, which is covered in the scope of the present utility model.

Preferably, as shown in fig. 1 and 5, the water tap structure of the present utility model further includes a water baffle 111 disposed in the water-vapor separation cartridge 1, the water baffle 111 dividing the water-vapor separation chamber 10 into a first water outlet flow passage 1111 and a second water outlet flow passage 1112, the water inlet 121 communicating with the first water outlet flow passage 1111, the first water outlet flow passage 1111 communicating with the first water tap 31 so that water in the first water outlet flow passage 1111 flows out from the first water tap 31 in the first water outlet state, and the second water outlet flow passage 1112 communicating with the second water tap 32 so that water overflowed from the first water outlet flow passage 1111 into the second water outlet flow passage 1112 flows out through the second water tap 32 in the second water outlet state.

By the arrangement, namely, by arranging the water baffle 111, the water-vapor separation cavity 10 can be divided into the first water outlet flow channel 1111 and the second water outlet flow channel 1112, when the water yield is small, water in the water-vapor separation cavity 10 flows out through the first water outlet nozzle 31, and the phenomena of intermittent water outlet, left-right drift of water outlet and the like caused by oversized water outlet 121 are avoided; when the water yield is great, can make in the first water outlet runner 1111 part water overflows to the second water outlet runner 1112 through the breakwater 111 to make the water in the water-steam separation chamber 10 flow from first water outlet 31 and second water outlet 32 simultaneously, thereby avoid leading to the water to be unsmooth because of the water yield is big, and then can improve the water-out water form, promote user's use experience.

It should be noted that, in practical applications, those skilled in the art may set the water baffle 111 as a straight plate, or may set the water baffle 111 as an arc plate, etc., and such modifications and changes to the specific setting shape of the water baffle 111 do not deviate from the principle and scope of the present utility model, and are included in the protection scope of the present utility model.

Referring to fig. 7, fig. 7 is a schematic view of the structure of the faucet of the present utility model after hiding the first bracket, the second bracket and the cover.

Preferably, as shown in fig. 7, the water deflector 111 of the present utility model is an arc-shaped plate.

It should be noted that, in practical applications, a person skilled in the art may set the water baffle 111 to have a gap between the top and the cover 12, when the amount of water in the first water outlet channel 1111 is too large, the water in the first water outlet channel 1111 overflows from the gap between the top of the water baffle 111 and the cover 12 into the second water outlet channel 1112, or may set a water passing port at a set height of the water baffle 111, when the amount of water in the first water outlet channel 1111 is too large, the water in the first water outlet channel 1111 overflows into the second water outlet channel 1112 through the water passing port on the water baffle 111, and so on, which is flexibly adjusted and changed, and is not departing from the principle and scope of the present utility model.

Preferably, as shown in fig. 5 and 6, the water baffle 111 is provided with a gap between the top thereof and the cover 12, and when the amount of water in the first water outlet flow passage 1111 is excessive, the water in the first water outlet flow passage 1111 overflows from the gap between the top of the water baffle 111 and the cover 12 into the second water outlet flow passage 1112.

By such arrangement, compared with the form in which the water passing port is to be provided on the water baffle 111, when the water level in the first water outlet flow passage 1111 is too high, the water passing port overflows into the second water outlet flow passage 1112, the water baffle 111 is provided in a form having a gap between the top of the water baffle 111 and the cover 12, so that the overflow speed of the water in the first water outlet flow passage 1111 to the second water outlet flow passage 1112 can be increased, and the hot water is prevented from being blocked in the first water outlet flow passage 1111, thereby improving the water outlet efficiency and the water outlet effect.

It should be noted that, in practical applications, the person skilled in the art may set the first water outlet nozzle 31 and the second water outlet nozzle 32 to be fixedly connected to the water vapor separation box 1, or may set the first water outlet nozzle 31 and the second water outlet nozzle 32 to be integrally formed with the water vapor separation box 1, or may set one of the first water outlet nozzle 31 and the second water outlet nozzle 32 to be fixedly connected to the water vapor separation box 1, set the other of the first water outlet nozzle 31 and the second water outlet nozzle 32 to be integrally formed with the water vapor separation box 1, etc., and such adjustment and change of the specific connection manner between the first water outlet nozzle 31 and the second water outlet nozzle 32 and the water vapor separation box 1 do not deviate from the principle and scope of the present utility model, and are all included in the protection scope of the present utility model.

Preferably, the first water outlet nozzle 31 is integrally formed with the water-vapor separation box 1, and the second water outlet nozzle 32 is fixedly connected with the water-vapor separation box 1.

It should be noted that, in practical applications, the person skilled in the art may set the second water outlet 32 to be fixed to the water-vapor separation box 1 by using a fastener, or may set the second water outlet 32 to be screwed to the water-vapor separation box 1, so as to fix the second water outlet 32 to the water-vapor separation box 1, or may set the second water outlet 32 to be welded to the water-vapor separation box 1 by using an ultrasonic welding method, etc., and such adjustment and change of the specific fixing manner between the second water outlet 32 and the water-vapor separation box 1 do not deviate from the principle and scope of the present utility model, and are included in the protection scope of the present utility model.

Preferably, the second water spout 32 is welded to the water vapor separator cartridge 1 by means of ultrasonic welding.

It should be noted that, in practical applications, those skilled in the art may arrange the first water outlet nozzle 31 and the second water outlet nozzle 32 in a ring shape, or may arrange the first water outlet nozzle 31 and the second water outlet nozzle 32 in a side-by-side shape, etc., and such adjustment and modification of the specific distribution manner of the first water outlet nozzle 31 and the second water outlet nozzle 32 do not deviate from the principle and the scope of the present utility model, and are included in the protection scope of the present utility model.

Preferably, as shown in fig. 1 and 5, the first water outlet nozzle 31 and the second water outlet nozzle 32 of the present utility model are annularly distributed.

Through such setting, through setting up first water outlet 31 and second water outlet 32 to be annular distribution, can make the water yield more concentrated, further improve the water yield to further improve user's use experience.

It should be noted that, in practical applications, those skilled in the art may dispose the first water outlet nozzle 31 outside the second water outlet nozzle 32, or may dispose the second water outlet nozzle 32 outside the first water outlet nozzle 31, etc., and such flexible adjustment and modification are included in the protection scope of the present utility model without departing from the principle and scope of the present utility model.

Referring next to fig. 1 and 5, and next to fig. 8, fig. 8 is a schematic view of the structure of the faucet of the present utility model after hiding the second faucet.

Preferably, as shown in fig. 1, 5 and 8, the second water outlet 32 of the present utility model is located at the outer side of the first water outlet 31, a plurality of connection ribs 33 are provided between the first water outlet 31 and the second water outlet 32, and the plurality of connection ribs 33 are distributed at intervals along the circumferential direction of the first water outlet 31.

By such arrangement, on the one hand, by arranging the second water outlet nozzle 32 so as to be located outside the first water outlet nozzle 31, the water outlet of the first water outlet nozzle 31 can be made as small as possible as compared with the case where the first water outlet nozzle 31 is arranged outside the second water outlet nozzle 32, so that the water outlet shape of the first water outlet nozzle 31 can be improved, and the occurrence of water flow interruption, water drift, and the like can be further prevented; on the other hand, by providing a plurality of connection ribs 33 between the first water outlet nozzle 31 and the second water outlet nozzle 32, the first water outlet nozzle 31 and the second water outlet nozzle 32 can be ensured to be concentrically arranged, thereby further improving the water outlet effect of the water outlet nozzle assembly 3.

It should be noted that, in practical applications, those skilled in the art may set the connecting rib 33 outside the first water outlet nozzle 31 and make the other end of the connecting rib 33 abut against the inner wall of the second water outlet nozzle 32, or may set the connecting rib 33 inside the second water outlet nozzle 32 and make the other end of the connecting rib 33 abut against the outer wall of the first water outlet nozzle 31, etc., which are flexibly adjusted and changed without departing from the principle and scope of the present utility model, and all are included in the principle and scope of the present utility model.

Preferably, as shown in fig. 8, the connection rib 33 is provided outside the first water outlet nozzle 31.

It should be noted that, in practical applications, those skilled in the art may set the connecting rib 33 to be fixed to the outside of the first water outlet nozzle 31 by using a fastener, or may set the connecting rib 33 to be fixed to the outside of the first water outlet nozzle 31 by using ultrasonic welding, or may set the connecting rib 33 to be integrally formed with the first water outlet nozzle 31, etc., and such adjustment and modification of the specific connection manner between the connecting rib 33 and the first water outlet nozzle 31 do not deviate from the principle and scope of the present utility model, and are included in the scope of protection of the present utility model.

Preferably, the connection rib 33 is provided to be integrally formed with the first water outlet nozzle 31.

It should be noted that, in practical applications, those skilled in the art may set the first water-vapor separation member 21 as a rib plate located in the water inlet 121, or may set the first water-vapor separation member 21 as a needle-shaped protrusion located in the water inlet 121, or may set the first water-vapor separation member 21 as any other possible form, etc., and such modifications and changes on the specific setting type of the first water-vapor separation member 21 are included in the scope and spirit of the present utility model.

Preferably, as shown in fig. 3 and 6, the first water-vapor separating member 21 of the present utility model is a rib plate provided at the water inlet 121.

Through such setting, can puncture the bubble in the hot water and realize water vapor separation under the effect of gusset to in injecting the water vapor separation chamber 10 with hot water through water inlet 121, thereby improve and appear out water condition such as water interruption, play water drift because of there is too much bubble in the hot water, and then improve the play water shape of water injection mouth structure.

It should be noted that, in practical applications, those skilled in the art may set the shape of the first water-vapor separation member 21 to be cross-shaped, or may set the shape of the first water-vapor separation member 21 to be rice-shaped, or may set the shape of the first water-vapor separation member 21 to be any other possible form, etc., and such modifications and changes to the specific setting shape of the first water-vapor separation member 21 do not deviate from the principle and scope of the present utility model, and are included in the protection scope of the present utility model.

Preferably, as shown in fig. 3 and 6, the first moisture separating member 21 of the present utility model has a cross shape.

By the arrangement, the influence on the water-vapor separation effect caused by the too small area of the first water-vapor separation member 21 can be avoided, so that bubbles in hot water can be better punctured, and the water-vapor separation effect is improved; at the same time, the influence of the excessive area of the first water-vapor separation member 21 on the water flow speed can be avoided, thereby avoiding the influence on the water outlet speed.

It should be noted that, in practical applications, those skilled in the art may set the first water-vapor separation member 21 to be integrally formed with the cover 12, or may set the first water-vapor separation member 21 to be suspended at the water inlet 121, or may set the first water-vapor separation member 21 to be engaged with the cover 12, etc., and such modifications and changes to the specific connection manner between the first water-vapor separation member 21 and the cover 12 do not deviate from the principle and scope of the present utility model, and are included in the protection scope of the present utility model.

Preferably, the first water-vapor separation member 21 of the present utility model is integrally formed with the cover 12.

Through such setting, can improve the wholeness between first steam-water separation component 21 and the steam-water separation box 1, reduce the spare part quantity of faucet structure, further improve user's use experience.

Preferably, as shown in fig. 1, 5 and 7, the water-vapor separation assembly of the present utility model further comprises a second water-vapor separation member 22 disposed in the water-vapor separation cartridge 1, the second water-vapor separation member 22 being used for water-vapor separation of the hot water in the water-vapor separation chamber 10, and the water nozzle structure further comprises a steam discharge opening 122 so that the steam in the water-vapor separation chamber 10 is discharged from the steam discharge opening 122.

Through such setting, through set up second water vapor separation component 22 in water vapor separation box 1, can carry out secondary water vapor separation to entering into the hot water in the water vapor separation box 1 to make the vapor that separates out follow steam discharge port 122 discharge, thereby make water vapor separation more thoroughly, can avoid leading to appearing out water discontinuous, play water and waft etc. play water condition because of the vapor separation is not thorough, greatly improved the play water form and the play water effect of water nozzle structure, further promoted user's use experience.

It should be noted that, in practical applications, those skilled in the art may set the second water-vapor separation member 22 at the bottom of the water-vapor separation box 1, or may set the second water-vapor separation member 22 at the top of the water-vapor separation box 1, etc., and such adjustments and changes to the specific setting position of the second water-vapor separation member 22 do not deviate from the principle and scope of the present utility model, and are included in the protection scope of the present utility model.

Preferably, as shown in fig. 1, 5 and 7, the second water and steam separation member 22 is arranged at the bottom of the water and steam separation cartridge 1.

It should be noted that, in practical applications, those skilled in the art may set the second water vapor separation member 22 as an arc-shaped water blocking plate, or may set the second water vapor separation member 22 as a water blocking strip, or may set the second water vapor separation member 22 as any other possible form, etc., and such modifications and changes to the specific setting type of the second water vapor separation member 22 are included in the scope and spirit of the present utility model without departing from the scope of the present utility model.

Preferably, as shown in fig. 7, the second water vapor separation member 22 is provided as an arcuate water blocking plate.

By the arrangement, the second water-vapor separation component 22 is arranged as the arc-shaped water-blocking plate, so that on one hand, hot water entering the water-vapor separation box 1 can collide with the arc-shaped water-blocking plate, and bubbles in the hot water are broken, thereby realizing water-vapor separation and improving the water-vapor separation effect; on the other hand, the dead weight of the second water-vapor separation member 22 can be reduced as compared with the case where the second water-vapor separation member 22 is provided as a water blocking strip, thereby contributing to the light weight design of the spout structure.

It should be noted that, in practical applications, those skilled in the art may set the number of the second water vapor separation members 22 to one, or may set the number of the second water vapor separation members 22 to two, or may set the number of the second water vapor separation members 22 to a plurality, or the like, and such adjustments and changes to the specific number of the second water vapor separation members 22 are included in the protection scope of the present utility model without departing from the principle and scope of the present utility model.

Preferably, as shown in fig. 7, the number of the second water vapor separating members 22 is set to one.

It should be noted that, in practical applications, those skilled in the art may set the steam discharge port 122 at the top of the water-vapor separation box 1, or may set the steam discharge port 122 at a side portion of the water-vapor separation box 1, or may directly discharge the steam in the water-vapor separation box 1 from the second water nozzle 32, etc., and such adjustment and change of the specific setting position of the steam discharge port 122 are not departing from the principle and scope of the present utility model and are included in the protection scope of the present utility model.

Preferably, as shown in fig. 1 to 6, the steam discharge port 122 of the present utility model is provided at the top of the water vapor separation cartridge 1.

Through such setting, compare with the condition that sets up steam vent 122 in the bottom and the lateral part of water vapor separation box 1, set up steam vent 122 at the top of water vapor separation box 1, can be convenient for vapor more from the top discharge of water vapor separation box 1 to improve vapor from the interior exhaust discharge efficiency of water vapor separation box 1, further improve water vapor separation effect.

It should be noted that, in practical applications, those skilled in the art may directly communicate the steam discharge port 122 with the external space of the drinking device, that is, the steam in the water vapor separation box 1 may be discharged into the usage space of the drinking device, or the steam discharge port 122 may be disposed to communicate with the normal temperature water tank 61 of the drinking device, etc., which are flexibly adjusted and changed without departing from the principle and scope of the present utility model, and all such modifications are included in the protection scope of the present utility model.

Preferably, as shown in fig. 1, the steam discharge port 122 of the present utility model communicates with the normal temperature water tank 61 of the drinking apparatus.

By the arrangement, on one hand, the water vapor discharged from the steam discharge port 122 can be prevented from directly entering the using space of the drinking water equipment, so that the influence on the using experience of a user due to the increase of the humidity in the using space is avoided; on the other hand, the steam discharge port 122 is arranged to be communicated with the normal-temperature water tank 61 of the drinking water device, so that the water vapor discharged from the steam discharge port 122 can directly enter the normal-temperature water tank 61 and then flow along with the waterway system to be drunk by a user, the waste of water resources is avoided, and the use experience of the user is further improved.

It should be noted that, in practical application, the steam discharge port 122 is not limited to be disposed in communication with the normal temperature water tank 61 of the drinking device, for example, the steam discharge port 122 may also be disposed in communication with the quick heating body 62 of the drinking device, etc., and such flexible adjustment and modification are not departing from the principle and scope of the present utility model and shall be included in the protection scope of the present utility model. It is of course preferable that the steam discharge port 122 is provided in communication with the normal temperature water tank 61 of the drinking apparatus.

Preferably, as shown in fig. 1 to 6, a reserved water inlet 123 is further arranged at the top of the water-vapor separation box 1, the reserved water inlet 123 can be communicated with the normal-temperature water tank 61 of the drinking water device, and when a user selects normal-temperature water outlet, water in the normal-temperature water tank 61 can enter the water-vapor separation box 1 through the reserved water inlet 123, so that the water flows out from the first water outlet nozzle 31/the first water outlet nozzle 31 and the second water outlet nozzle 32.

It should be noted that, in practical applications, those skilled in the art may directly mount the water outlet structure on the drinking device, or may mount the water outlet structure on the bracket, then mount the water outlet structure on the drinking device through the bracket, etc., and such modifications and changes to the specific mounting manner of the water outlet structure on the drinking device do not deviate from the principle and scope of the present utility model, and are included in the protection scope of the present utility model.

Referring next to fig. 9, fig. 9 is a schematic diagram of a water outlet structure according to the present utility model.

Preferably, as shown in fig. 9, the water outlet nozzle structure of the present utility model further comprises a first bracket 4, and the water outlet nozzle structure is mounted on the water drinking device through the first bracket 4, wherein the first bracket 4 is U-shaped.

By means of the arrangement, on one hand, the first bracket 4 is arranged into the U shape, so that the water outlet nozzle structure can be abducted, and the installation space of the water outlet nozzle structure is saved; on the other hand, through setting up first support 4, can be convenient for the installation and the fixed of water faucet structure, improve the installation effectiveness and the installation stability of water faucet structure.

Preferably, as shown in fig. 9, the water outlet nozzle structure of the present utility model further comprises a second bracket 5, wherein the second bracket 5 is positioned above the first bracket 4 and fixedly connected with the first bracket 4, and a hot water valve 64 of the drinking water apparatus is fixed on the second bracket 5.

By such an arrangement, i.e. by arranging the second bracket 5, the connection of the spout structure with the hot water valve 64 of the drinking device is facilitated, and the connection stability between the spout structure and the drinking device is improved.

Thus far, the technical solution of the present utility model has been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of protection of the present utility model is not limited to these specific embodiments. Equivalent modifications and substitutions for related technical features may be made by those skilled in the art without departing from the principles of the present utility model, and such modifications and substitutions will fall within the scope of the present utility model.

Claims (10)

1. A play water injection well choke structure for drinking water equipment, its characterized in that, play water injection well choke structure includes water vapor separation box, water vapor separation subassembly and water injection well choke subassembly, water vapor separation box has water inlet and water vapor separation chamber, water vapor separation subassembly includes first water vapor separation component, first water vapor separation component is located in the water inlet to carry out water vapor separation to the hot water that passes through the water inlet, water injection well choke subassembly includes first water injection well choke and second water injection well choke, water injection well choke subassembly sets up to enable when it is in first water injection state water injection well choke in the water vapor separation chamber flows from first water injection well choke, water injection well choke subassembly still sets up to enable when it is in second water injection well choke in water injection well choke follow first water injection well choke with second water injection well choke flows.

2. The spout structure of claim 1 further comprising a water baffle disposed in the water-vapor separation cartridge, the water baffle separating the water-vapor separation chamber into a first water outlet flow passage and a second water outlet flow passage, the first water outlet flow passage being in communication with the first spout and the second water outlet flow passage being in communication with the second spout such that water in the first water outlet flow passage overflows into the second water outlet flow passage and water in the second water outlet flow passage flows out through the second spout when the amount of water in the first water outlet flow passage is excessive.

3. The spout structure of claim 1 wherein the first and second spouts are annularly distributed.

4. The water outlet nozzle structure according to claim 3, wherein the second water outlet nozzle is located at the outer side of the first water outlet nozzle, a plurality of connecting ribs are arranged between the first water outlet nozzle and the second water outlet nozzle, and the plurality of connecting ribs are distributed at intervals along the circumferential direction of the first water outlet nozzle.

5. The spout structure of claim 1, wherein the water-vapor separation assembly further comprises a second water-vapor separation member provided in the water-vapor separation cartridge for water-vapor separating the hot water entered into the water-vapor separation chamber, the spout structure further comprising a steam discharge port so that the steam in the water-vapor separation chamber is discharged from the steam discharge port.

6. The spout structure of claim 5, wherein the steam discharge port communicates with a normal temperature water tank of the drinking device.

7. The spout structure of claim 1 wherein the first water-vapor separation member is a web provided at the water inlet.

8. The spout assembly of claim 7 wherein the water vapor separator comprises a case and a cover disposed over the case, the case and the cover together defining the water vapor separator cavity, the water inlet being disposed on the cover.

9. The spout structure of claim 8 wherein the rib is integrally formed with the cap.

10. A drinking device comprising a spout structure according to any one of claims 1 to 9.