CN220967109U - Drainage water outlet structure with stable water outlet - Google Patents

Abstract

The utility model discloses a drainage water outlet structure with stable water outlet, which comprises a slow flow cavity, wherein the bottom of the slow flow cavity or a position close to the bottom is communicated with at least one drainage barrel channel, and at least part of the inner barrel wall of the drainage barrel channel is provided with drainage threads along the axial direction; the first tube mouth of the drainage tube way is communicated with the slow flow cavity, the second tube mouth of the drainage tube way is communicated with the water outlet, or the second tube mouth of the drainage tube way is used as the water outlet; the slow flow cavity is also provided with at least one water inlet, the water area in the slow flow cavity is larger than the cross-sectional area of the water inlet, the water inlet and the water outlet are arranged on two opposite side walls or positions close to the two opposite side walls of the slow flow cavity, and the directions of the water inlet and the water outlet are not opposite; the hot water flows into the wide slow flow cavity from the narrow water inlet, the hot water flows are wrapped and clamped or/and propelled water vapor tends to be dispersed to the upper part of the slow flow cavity, the hot water flows enter the drainage barrel channel again, the hot water flows are rectified under the guidance of the drainage threads to form stable and gentle water flow, and finally regular water columns are formed during water outlet.

Description

Drainage water outlet structure with stable water outlet

Technical Field

The utility model belongs to the technical field of water dispensers, and particularly relates to a drainage water outlet structure with stable water outlet.

Background

Conventional water treatment household appliances such as water purifying and drinking machines and water drinking machines generally have a function module (preheating type or instant heating type) for heating water, so that hot water can be quickly conveyed to users, steam can be generated when the water is heated in the appliance, and when the hot water is conveyed, part of the steam can be wrapped and flow together, so that the problems of water deflection, intermittent water outlet, hot water splashing and the like of the hot water can occur under the influence of the steam when the hot water is discharged, and the user experience is reduced, and potential safety hazards for scalding the users exist.

Patent document 2023204172552 discloses a hot water outlet structure with a simplified structure, which is suitable for a water purifying machine or a water dispenser with a heating water cavity, and comprises a water flow channel and a spiral buffer piece, wherein the spiral buffer piece is made of metal; the water flow channel comprises a water inlet, a slow flow barrel channel and a water outlet, and the spiral buffer piece is arranged in the slow flow barrel channel; the inner diameter of the slow flow barrel channel is larger than that of the water inlet, so that the slow flow barrel channel is beneficial to smoothly discharging water; the spiral buffer has a certain resistance to the flow of hot water to achieve a buffer flow, while the spiral buffer has a relatively large surface area, cold spiral surface, which can be contacted with water vapor and condensed.

The prior art mentioned above is a prior application by the applicant, which patent technology indicates in the specification: the water vapor in the heating process of the water purifying and drinking machine or the water drinking machine can fill the pipeline in front of the control valve, namely, when hot water flows to the water outlet, a group of water vapor is pushed by the hot water to be pre-flushed to the water outlet, so that the metal spiral buffer piece which is arranged in the prior application has a cold spiral surface with larger surface area, can be contacted with the water vapor and can be condensed, and the water vapor is prevented from being sprayed or hot water is prevented from splashing during water outlet.

However, the inventors found in the course of product development improvement that: when the waterway of the water dispenser or the water purifying dispenser is long, more water vapor at the forefront end of hot water flow can be caused, and the faster water flow speed is combined, the spiral buffer piece of metal is used as a small micro part, only part of water vapor can be condensed, so that part of water vapor is not condensed to be flushed to the water outlet, adverse effects are caused on water outlet, and meanwhile, the shape of a water column is not regular enough when water is discharged due to the influence of the spiral buffer piece when the water is firstly applied, so the inventor considers that the prior application has room for improvement.

Disclosure of Invention

Aiming at the problems in the related art, the utility model provides a drainage water outlet structure with stable water outlet, so as to overcome the technical problems in the prior related art.

The technical scheme of the utility model is realized as follows:

The drainage water outlet structure with stable water outlet is suitable for a water dispenser or a clean water dispenser with a hot water output function, and comprises a slow flow cavity, wherein the bottom of the slow flow cavity or a position close to the bottom is directly or indirectly communicated with at least one drainage barrel channel, and at least part of the inner barrel wall of the drainage barrel channel is provided with drainage threads along the axial direction;

The first cylinder mouth of the drainage cylinder channel is communicated with the slow flow cavity, and the second cylinder mouth of the drainage cylinder channel is communicated with the water outlet, or the second cylinder mouth of the drainage cylinder channel is used as the water outlet;

The slow flow cavity is also provided with at least one water inlet, the water area in the slow flow cavity is larger than the cross-sectional area of the water inlet, the water inlet and the water outlet are arranged on two opposite side walls or positions close to the two opposite side walls of the slow flow cavity, and the directions of the water inlet and the water outlet are not opposite;

The hot water flow flows into the wide slow flow cavity from the narrow water inlet, the hot water flow is wrapped or/and propelled water vapor tends to be dispersed to the upper part of the slow flow cavity, the hot water flow reenters the drainage barrel channel, the hot water flow is rectified under the guidance of the drainage threads to form stable and gentle water flow, and finally, a regular water column is formed during water outlet.

Preferably, the bottom end of the drainage channel protrudes downwards to form a concentric water receiving tube, the lower tube opening of the water receiving tube is used as the water outlet, and the inner diameter of the water receiving tube is smaller than the minimum inner diameter of the drainage channel.

Preferably, all inner cylinder walls of the drainage cylinder channel are axially provided with the drainage threads;

an upper connecting cylinder is arranged between the top end of the drainage cylinder channel and the slow flow cavity and is connected with the slow flow cavity, the upper connecting cylinder is of a horn-shaped structure, the wide end of the upper connecting cylinder faces upwards, and the upper end of the drainage thread extends and is terminated at the upper connecting cylinder;

the drainage tube is characterized in that a lower connecting tube is arranged between the bottom end of the drainage tube channel and the water collecting tube, the lower connecting tube is of a horn-shaped structure, the wide end of the lower connecting tube faces upwards, and the lower end of the drainage thread extends and ends at the lower connecting tube.

Preferably, the slow flow cavity is formed by wrapping a box shell, and one side of the bottom of the box shell protrudes downwards to form the drainage channel;

The other side of the bottom of the box shell is provided with an inclined surface to form a diversion slope area, the diversion slope area inclines downwards towards the direction of the diversion barrel channel, and the water inlet is formed in the side wall of the box shell which is connected with the inclined surface.

Preferably, the inner bottom surface of the box shell is inclined downwards around the direction of the first cylinder opening of the drainage cylinder channel to form an annular slope area, and the edge of the annular slope area, which is close to the diversion slope area, is flush with or lower than the bottom end of the diversion slope area.

Preferably, the diversion ramp region is not coincident with the annular ramp region.

Preferably, the water inlet is arranged on the side wall of the box shell connected with any inclined edge of the diversion slope area, the axis of the water inlet is different from the axis of the drainage barrel channel, and the water inlet is arranged above the upper slope surface of the diversion slope area.

Preferably, an overflow outlet is arranged at the top of the slow flow cavity.

Preferably, the box shell is divided into an upper cover piece and a lower cavity piece, the upper cover piece is provided with the overflow outlet, and the lower cavity piece is provided with the water inlet and the drainage barrel channel.

Preferably, the case is divided into the upper cover member and the lower cavity member in a horizontal direction, the lower cavity member forms a cavity structure with a completely opened top, and the upper cover member covers and seals the opened top of the lower cavity member.

The utility model has the beneficial effects that:

Firstly, heating water in a water purifying machine or a water dispenser, wherein the water vapor wrapped by the hot water flow is limited in practice, but in the heating process, the water vapor possibly fills a pipeline in front of a control valve, namely, when the hot water flows to the water inlet, a group of water vapor at the forefront end of the hot water flow is pushed by the hot water flow to be flushed towards the water inlet, the problem is solved by arranging the slow flow cavity, the hot water flow flows into the wide slow flow cavity from the narrow water inlet, the water vapor group pushed by the forefront end of the hot water flow tends to be dispersed to the upper part of the slow flow cavity, and compared with the prior art, the space of the slow flow cavity is larger, and the effective treatment can be carried out even if the water vapor at the forefront end of the hot water flow is more;

Secondly, the hot water flow is spread out and flows after entering the slow flow cavity, and the water vapor wrapped in the hot water flow also tends to be dispersed to the upper part of the slow flow cavity, so that the problems of water deflection, intermittent water discharge, hot water splashing and the like caused by the water vapor wrapped in the hot water flow are avoided, the safety coefficient in use is improved, and meanwhile, the flow speed is reduced after the water flow enters the slow flow cavity, so that the smooth water discharge is facilitated;

Thirdly, the water flow enters the drainage barrel channel, and is rectified under the guidance of the drainage thread to form stable and gentle water flow, and finally, a regular water column is formed when water is discharged;

Finally, the water inlet and the water outlet are arranged on the two opposite side walls of the slow flow cavity or near the two opposite side walls, the directions of the water inlet and the water outlet are not opposite, the travel of water in the slow flow cavity is prolonged, the vapor wrapped by the water flow is dispersed as much as possible, and meanwhile, the flow is formed in advance to form a gentle water flow, so that the rectifying effect of the follow-up drainage threads is facilitated.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a top view of the present utility model;

FIG. 3 is a cross-sectional view taken along A-A of FIG. 2;

FIG. 4 is a schematic view of the lower chamber element of the present utility model (with portions of the side walls broken away);

FIG. 5 is a schematic diagram of the flow direction of water according to the present utility model.

Marking:

A. a slow flow cavity;

1. an upper cover member;

101. an overflow outlet;

2. A lower chamber member;

201. A water inlet;

202. A diversion ramp region;

203. An annular ramp region;

204. A drainage channel; 204a, drainage threads;

205. A water receiving cylinder; 205a, a water outlet;

206. A lower connecting cylinder;

207. Reinforcing ribs;

208. and (5) a connecting cylinder is arranged.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

As shown in fig. 1 to 5, a drainage water outlet structure with stable water outlet is suitable for a water dispenser or a clean water dispenser with a function of outputting hot water, and comprises a slow flow cavity a, wherein the bottom or a position close to the bottom of the slow flow cavity a is directly or indirectly communicated with at least one drainage tube 204, and at least part of the inner tube wall of the drainage tube 204 is provided with drainage threads 204a along the axial direction;

the first nozzle of the drainage channel 204 is communicated with the slow flow cavity A, and the second nozzle of the drainage channel 204 is communicated with the water outlet 205a, or the second nozzle of the drainage channel 204 is used as the water outlet 205a;

The slow flow cavity A is also provided with at least one water inlet 201, and the water area in the slow flow cavity A is larger than the cross-sectional area of the water inlet 201.

Firstly, heating water in a water purifying machine or a water dispenser, wherein the water vapor wrapped by the hot water flow is limited in practice, but in the heating process, the water vapor possibly fills a pipeline in front of a control valve, namely, when the hot water flows to the water inlet 201, a group of water vapor at the forefront end of the hot water flow is pushed by the hot water flow to be flushed towards the embodiment, the embodiment solves the problem by arranging the slow flow cavity A, the hot water flow flows into the wide slow flow cavity A from the narrow water inlet 201, the water vapor group pushed by the forefront end of the hot water flow tends to be dispersed to the upper part of the slow flow cavity A, and compared with the prior art, the space of the slow flow cavity A is larger, and the effective treatment can be carried out even if the water vapor at the forefront end of the hot water flow is more;

secondly, the hot water flow is spread out and flows after entering the slow flow cavity A, and the water vapor wrapped in the hot water flow also tends to be dispersed to the upper part of the slow flow cavity A, so that the problems of water deflection, intermittent water discharge, hot water splashing and the like caused by the water vapor wrapped in the hot water flow are avoided, the safety coefficient in use is improved, and meanwhile, the flow speed is reduced after the water flow enters the slow flow cavity A, so that the slow water discharge is facilitated;

Thirdly, the water flow enters the drainage channel 204, is rectified under the guidance of the drainage thread 204a to form stable and gentle water flow, and finally forms regular water columns when water is discharged;

Finally, the water inlet 201 and the water outlet 205a are disposed at the opposite side walls or near the opposite side walls of the slow flow cavity a, and the directions of the water inlet 201 and the water outlet 205a are not opposite, so that the travel of the water in the slow flow cavity a is prolonged, the vapor wrapped by the water flow is dispersed as much as possible, and meanwhile, the flow is formed relatively slowly in order to facilitate the rectification effect of the subsequent drainage threads 204 a.

It should be noted that, in this embodiment, although the flow condition of the hot water flow in this embodiment is emphasized, it is not represented that the water inlet 201 can only be used for conveying hot water, but also can be used for conveying cold water at the same time, and any number of water inlets 201 can be additionally arranged according to specific product designs.

In this embodiment, the bottom end of the drainage channel 204 protrudes downward to form a concentric water receiving tube 205, the lower tube opening of the water receiving tube 205 is used as the water outlet 205a, the inner diameter of the water receiving tube 205 is smaller than the minimum inner diameter of the drainage channel 204, and when the user selects to stop adding water, the water receiving tube 205 can realize clean and clean water receiving without residual water drop or water throwing phenomenon, thereby improving the use experience of the user.

Specifically, the outer side walls of the drainage channel 204 and the water receiving tube 205 are provided with a plurality of (four) reinforcing ribs 206 along the axial direction.

In the actual use process, if only a part of the inner wall of the drainage channel 204 is provided with the drainage thread 204a along the axial direction, the flow rectifying effect on the water flow is slightly poor, so in this embodiment, all of the inner walls of the drainage channel 204 are provided with the drainage thread 204a along the axial direction.

The top of drainage tube way 204 and slow flow chamber A are equipped with and link up a section of thick bamboo 207 and meet, go up a section of thick bamboo 207 and be loudspeaker form structure, go up a section of thick bamboo 207's wide end up, the upper end of drainage screw thread 204a extend and terminate in go up a section of thick bamboo 207, can more "smoothly" guide rivers to drainage screw thread 204a promotes the rectification effect.

The bottom of drainage barrel way 204 and receipts water section of thick bamboo 205 are equipped with down and link up a section of thick bamboo 208 and meet, link up a section of thick bamboo 208 down for loudspeaker form structure, down link up a 208's wide end up, the lower extreme of drainage screw thread 204a extend and terminate in link up a section of thick bamboo 208 down, link up a section of thick bamboo 208 down the effect of making the broad drainage section of thick bamboo smooth transition to narrower receipts water section of thick bamboo 205, guarantee the smoothness of play water. In addition, the drain thread 204a may not extend too close to the water outlet 205a, which may result in water skew.

In this embodiment, the slow flow cavity a is formed by wrapping a box shell, and one side of the bottom of the box shell protrudes downwards to form the drainage channel 204;

The other side of the bottom of the box shell is provided with an inclined surface to form a diversion slope area 202, the diversion slope area 202 inclines downwards towards the direction of the diversion barrel channel 204, the water inlet 201 is arranged on the side wall of the box shell connected with the inclined surface to guide water flow to the diversion barrel channel 204, and meanwhile residual water is reduced.

In this embodiment, the inner bottom surface of the box casing is inclined downward around the direction of the first nozzle of the drainage channel 204 to form an annular slope area 203, and the design of the annular slope area 203 makes the water flow form a vortex or form a flow similar to a vortex when flowing in, which is favorable for linking the next step of rectifying the water by the drainage thread 204a, so as to improve the rectifying effect.

Specifically, the annular ramp region 203 is flush near the edge of the diversion ramp region 202 or below the bottom end of the diversion ramp region 202.

Further, the diversion ramp area 202 is not coincident with the annular ramp area 203, and the annular ramp area 203 is shaped like a regular or substantially regular funnel to facilitate the diversion of the water flow to form a vortex or to form a vortex-like flow.

In this embodiment, referring to fig. 5, the water inlet 201 is disposed on a side wall of the case shell connected to any oblique side of the diversion slope area 202, that is, an axis of the water inlet 201 is different from an axis of the diversion channel 204, the water inlet 201 is disposed above an upper slope surface of the diversion slope area 202, so as to increase a stroke of water entering the slow flow cavity a as much as possible, so that the water is prevented from flowing to the diversion channel 204 too directly, and water vapor trapped in the water may not reach the diversion channel 204 or the water is prevented from flowing into the diversion channel 204 without being guided by the annular slope area 203.

In this embodiment, the top of the slow flow cavity a is provided with an overflow outlet 101, and when the slow flow cavity a is filled due to excessive water flow, the water can be discharged through the overflow outlet 101.

In this embodiment, the cartridge housing is divided into an upper cover member 1 and a lower chamber member 2, the upper cover member 1 is provided with the overflow outlet 101, and the lower chamber member 2 is provided with the water inlet 201 and the drain channel 204.

Specifically, the box shell is divided into the upper cover member 1 and the lower cavity member 2 in the horizontal direction, the lower cavity member 2 forms a cavity structure with a completely open top for cleaning, and the upper cover member 1 covers and seals the open top of the lower cavity member 2.

Variations and modifications of the above-described embodiments may be made by those skilled in the art in light of the foregoing disclosure and are accordingly intended to be within the scope of the appended claims. In addition, although specific terms are used in the present specification, these terms are for convenience of description only and do not limit the present utility model in any way.

Claims (10)

1. The drainage water outlet structure is suitable for a water dispenser or a clean water dispenser with a function of outputting hot water, and is characterized by comprising a slow flow cavity, wherein the bottom or a position close to the bottom of the slow flow cavity is directly or indirectly communicated with at least one drainage barrel channel, and at least part of the inner barrel wall of the drainage barrel channel is provided with drainage threads along the axial direction;

The first cylinder mouth of the drainage cylinder channel is communicated with the slow flow cavity, and the second cylinder mouth of the drainage cylinder channel is communicated with the water outlet, or the second cylinder mouth of the drainage cylinder channel is used as the water outlet;

The slow flow cavity is also provided with at least one water inlet, the water area in the slow flow cavity is larger than the cross-sectional area of the water inlet, the water inlet and the water outlet are arranged on two opposite side walls or positions close to the two opposite side walls of the slow flow cavity, and the directions of the water inlet and the water outlet are not opposite;

The hot water flow flows into the wide slow flow cavity from the narrow water inlet, the hot water flow is wrapped or/and propelled water vapor tends to be dispersed to the upper part of the slow flow cavity, the hot water flow reenters the drainage barrel channel, the hot water flow is rectified under the guidance of the drainage threads to form stable and gentle water flow, and finally, a regular water column is formed during water outlet.

2. The water outlet structure of claim 1, wherein the bottom end of the water outlet channel protrudes downwards to form a concentric water receiving tube, the lower tube opening of the water receiving tube is used as the water outlet, and the inner diameter of the water receiving tube is smaller than the minimum inner diameter of the water outlet channel.

3. The water outlet structure for water outlet stabilization according to claim 2, wherein the drainage threads are axially provided on all inner walls of the drainage channel;

an upper connecting cylinder is arranged between the top end of the drainage cylinder channel and the slow flow cavity and is connected with the slow flow cavity, the upper connecting cylinder is of a horn-shaped structure, the wide end of the upper connecting cylinder faces upwards, and the upper end of the drainage thread extends and is terminated at the upper connecting cylinder;

the drainage tube is characterized in that a lower connecting tube is arranged between the bottom end of the drainage tube channel and the water collecting tube, the lower connecting tube is of a horn-shaped structure, the wide end of the lower connecting tube faces upwards, and the lower end of the drainage thread extends and ends at the lower connecting tube.

4. A water outlet stable drainage water outlet structure according to any one of claims 1 to 3, wherein the slow flow cavity is formed by wrapping a box shell, and one side of the bottom of the box shell protrudes downwards to form the drainage channel;

The other side of the bottom of the box shell is provided with an inclined surface to form a diversion slope area, the diversion slope area inclines downwards towards the direction of the diversion barrel channel, and the water inlet is formed in the side wall of the box shell which is connected with the inclined surface.

5. The water outlet structure of claim 4, wherein the inner bottom surface of the box casing is inclined downward around the first nozzle of the drainage channel to form an annular slope area, and the edge of the annular slope area near the diversion slope area is flush with or lower than the bottom end of the diversion slope area.

6. The water outlet stable drainage water outlet structure according to claim 5, wherein the diversion ramp area is not coincident with the annular ramp area.

7. The water outlet structure of claim 6, wherein the water inlet is formed in a side wall of the box shell connected with any oblique side of the diversion slope area, an axis of the water inlet is different from an axis of the diversion barrel channel, and the water inlet is formed above an upper slope of the diversion slope area.

8. The water outlet stable drainage water outlet structure according to claim 4, wherein an overflow outlet is arranged at the top of the slow flow cavity.

9. The water outlet stable drainage water outlet structure according to claim 8, wherein the box shell is divided into an upper cover piece and a lower cavity piece, the upper cover piece is provided with the overflow outlet, and the lower cavity piece is provided with the water inlet and the drainage barrel channel.

10. The water outlet stable drainage water outlet structure according to claim 9, wherein the box shell is divided into the upper cover member and the lower cavity member in the horizontal direction, the lower cavity member forms a cavity structure with a completely opened top, and the upper cover member covers and seals the opened top of the lower cavity member.