KR20240012946A - Water out chamber for water purifier to prevent bubble activation - Google Patents

Abstract

The present invention relates to a water outlet chamber for a water purifier to prevent bubble activation, in which purified water is supplied into the vertical heating chamber of a heater module installed in the water purifier and instantaneously heated through a ceramic heater inside the heating chamber, thereby heating the upper side of the heating chamber. In order to discharge hot water through the water outlet on the water outlet side connected to the water outlet chamber provided in the water outlet, the inner bottom of the water outlet chamber connected to the water outlet unit is configured to discharge bubbles generated when heating purified water in the heating chamber to the outlet of the water outlet chamber. It is characterized in that a plurality of guide pieces are formed to protrude at intervals toward the outlet side connected to the water outlet. By minimizing the generation of bubbles when discharging high-temperature water, the flow rate and shape of the discharged water can be adjusted in the instantaneous sewage provided by the heater module. It has the advantage of achieving stabilization by keeping it constant, and fundamentally, it suppresses the generation of large bubbles or reduces the size of bubbles as much as possible, thereby preventing water splashing during the final discharging of high-temperature water, making the water purifier safer. This has the effect of preventing the risk of burns to users due to the use of hot water.

Description

Water out chamber for water purifier to prevent bubble activation}

The present invention relates to a heating chamber for a water purifier, and more specifically, to improve the interior of the water outlet chamber on the side of the heating chamber provided inside the water purifier, where purified water is heated with instantaneous hot water and discharged, so that bubbles generated when heating purified water are discharged from the outlet chamber. This relates to a water outlet chamber for a water purifier to prevent the activation of air bubbles, which prevents burns by preventing water splashing caused by air bubbles when discharging hot water by preventing the activation phenomenon as much as possible.

Generally, a water purifier used at home or in an office is a device that purifies raw water such as tap water and supplies purified water and cold/hot water to the user.

The water purifier is equipped with a filter unit that purifies raw water, a purified water tank that stores purified water, a hot water tank that heats and stores purified water, and a cold water tank that cools and stores purified water.

In addition, the hot water tank is equipped with an instantaneous heating device (heater) to instantly heat purified water, and the cold water tank is equipped with a cooling member to cool the purified water, allowing the use of cold water or hot water depending on selection.

Normally, hot water from a water purifier is used by receiving purified water from a purified water tank, then passing the built-in purified water through an instantaneous heating window and discharging it at a temperature of approximately 87-93°C.

In other words, in order to innovatively reduce power consumption, recent water purifiers do not have a separate hot water tank mounted on the water purifier, but can be used by instantly heating and discharging hot water through a discharge valve. This is Korean Patent Publication No. 10-2017. It is proposed as disclosed in No. -0028822 (name: hot water supply device).

This method of instantaneously heating and discharging purified water has the advantage of significantly reducing power consumption because it does not use an existing hot water tank. However, when discharging hot water, a very high amount of heat is added to the water, causing water vapor and bubbles to form inside the heating chamber. In the process of discharging high-temperature water through the discharge valve side cock due to the activation of air bubbles, external water splashing occurs, which often causes users to suffer burns while receiving hot water.

Korean Patent Publication No. 10-2019-0007699 (name: Instantaneous hot water device with improved bubble discharge) is disclosed to solve the above problems.

This is an instantaneous hot water device, connected to the water inlet on one end side, connected to the water outlet on the other end side, and by a heating member inserted and mounted inward at one end connected to the water inlet. It includes a heating chamber that forms an internal heating flow path and an external heating flow path, and the heating chamber is configured by combining a water discharge member including a cup-shaped air bubble storage portion at an end opposite to where the heating member is inserted. The storage unit is provided with a space dividing barrier membrane and an annular cylindrical body connected to and installed in plurality from the inner top and inner wall of the water outlet member.

In the above configuration, the blocking film of the bubble storage unit serves to block the air bubbles stored in the air storage unit from heading to the water outlet, and when a large amount of air bubbles accumulate in the air storage unit, they condense into water droplets and form a plurality of blocking films. It is a structure that flows down the wall of the annular cylinder and then merges with the high temperature water discharged to the water outlet and discharges it. Instead of discharging the high temperature air bubbles immediately, the water is discharged with the bubbles reduced as much as possible when the hot water is discharged.

However, when the bubbles generated during heating are gradually captured in the bubble storage area and collected between the barrier membrane and the cylinder, the bubbles gradually condense into a larger form, and after a certain period of time, they are converted into water droplets and are used when hot water is discharged. Minimization of air bubbles has the disadvantage of not being realistically feasible.

As described above, the formation of a barrier film and a cylinder to collect air bubbles is provided in the so-called 'buffer space' remaining at the top of the inside of the bubble storage unit. In the process of frequent use of instantaneous hot water, small bubbles generated during heating gradually form larger bubbles. This phenomenon increases the internal pressure of the heating chamber, and is set to discharge high pressure to the overpressure outlet. However, at this time, when hot water is discharged, large activated bubbles remain in the bubble storage part of the water outlet member as described above and are discharged into the hot water. Splashing water often occurs during the discharge process, causing burns when using hot water.

Korean Patent Publication No. 10-2017-0028822 (published March 14, 2017) Korean Patent Publication No. 10-2019-0007699 (published on January 23, 2019)

The present invention was invented to solve the conventional problems as described above, and improves the interior of the water discharge chamber on the side of the heating chamber provided inside the water purifier, where purified water is heated with instantaneous hot water and discharged, thereby generating bubbles generated when the purified water is heated. The purpose is to provide a water outlet chamber for a water purifier to prevent the activation of air bubbles, which prevents burns by preventing water splashing caused by bubbles when discharging hot water by preventing activation in the water outlet chamber as much as possible.

According to the present invention for achieving the above object, purified water is supplied into the vertical heating chamber of the heater module installed in the water purifier, and is instantaneously heated through a ceramic heater inside the heating chamber. In discharging hot water through the connected water outlet side,

On the inner bottom of the water extraction chamber connected to the water outlet, a plurality of guide pieces are formed to protrude at intervals toward the outlet side connected to the water outlet, which guides bubbles generated during heating of purified water in the heating chamber to the outlet of the water extraction chamber. It is characterized by

The inner bottom of the water extraction chamber where the guide piece according to the present invention is formed is characterized by being inclined to face the outlet side.

The guide piece according to the present invention is arranged and protruded in a fan shape, and the protruding lower end is inclined toward the outlet.

According to the present invention, a plurality of interference pieces for removing air bubbles and minimizing the size of air bubbles are formed protruding around the outlet side formed inside the water extraction chamber.

The water outlet chamber for a water purifier to prevent bubble activation according to the present invention minimizes the generation of bubbles when dispensing high-temperature water, thereby achieving stabilization by maintaining a constant flow rate and shape of the outlet water in the instantaneous waste water provided by the heater module. Basically, by suppressing the generation of large bubbles or reducing the size of bubbles as much as possible, water splashing is prevented during the process of discharging the final high-temperature water, thereby reducing the risk of burns to users when using hot water through the water purifier. The effect of preventing this is provided.

1 and 2 are perspective views showing a heater module for a water purifier according to the present invention;
Figure 3 is a perspective view showing an excerpt of the water extraction chamber according to the present invention;
Figure 4 is a cross-sectional view showing the inside of the heating chamber and water extraction chamber of the heater module according to the present invention,
Figure 5 is a cross-sectional view showing the combined portion of the water extraction chamber and the water extraction unit according to the present invention.
Figure 6 is an enlarged cross-sectional view illustrating a state in which bubbles generated in the heating chamber in Figure 4 are drawn out toward the water outlet side along the guide piece of the water outlet chamber;
Figure 7 is a bottom perspective view showing a state in which an interference piece for preventing bubble activation is further formed along with a guide piece inside the water extraction chamber according to the present invention.

Hereinafter, the present invention will be described in more detail with reference to the attached drawings.

Prior to this, the terms or words used in this specification and claims should not be construed as limited to their usual or dictionary meanings, and the inventor should appropriately define the concept of terms in order to explain his or her invention in the best way. It must be interpreted as meaning and concept consistent with the technical idea of the present invention based on the principle of definability.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are only one of the most preferred embodiments of the present invention and do not represent the entire technical idea of the present invention, so at the time of filing this application, they can be replaced. It should be understood that various equivalents and variations may exist.

The present invention will be described with reference to the attached FIGS. 1 to 7 as follows.

Purified water is supplied into the vertical heating chamber (10) of the heater module (100) installed in the water purifier, and is instantaneously heated through the ceramic heater (H) inside the heating chamber. The water outlet chamber (20) is provided on the upper side of the heating chamber. In discharging hot water through the water outlet 31 on the water outlet 30 side connected to,

At the inner bottom of the water outlet chamber 20 connected to the water outlet unit 30, there are a plurality of guide pieces 22 that guide bubbles generated when heating purified water in the heating chamber 10 to the outlet of the water outlet chamber 20. ) is formed to protrude toward the outlet 21 connected to the water outlet 31 at intervals.

The inner bottom of the water outlet chamber 20 where the guide piece 22 is formed is inclined toward the outlet 21. This is to ensure that the bubbles that gather in the buffer space when purified water is heated can be naturally guided to the outlet by sloping the area that becomes the inner buffer space of the water outlet chamber.

In addition, the guide pieces 22 are formed in a fan-shaped arrangement with protruding guide pieces as shown in FIG. 3.

Here, the lower end of the protruding guide piece 22 is inclined toward the outlet 21 and faces the outlet side of the water extraction chamber.

That is, the lower end of the guide piece 22 is gradually narrowed from one side so that it can be concentrated toward the outlet 21.

Meanwhile, the attached Figure 7 shows a water extraction chamber according to the present invention, and there are a number of interference pieces 23 around the outlet 21 formed inside the water extraction chamber 20 to remove air bubbles and minimize the size of air bubbles. Dog protrusions are formed. In the process of discharging hot water, air bubbles are divided and collected by a plurality of guide pieces as described above and concentrated on the outlet side, and the hot water is discharged while hitting a plurality of interference pieces provided on the outlet side, thereby minimizing or partially eliminating the size of the bubbles. This is to do so.

The interference pieces 23 may be formed as thin as possible, or may be formed in various shapes such as conical shapes, as shown, and may be arranged equally or staggered on the outlet 21 side of the water extraction chamber 20.

For reference, the heater module 100 to which the water extraction chamber of the present invention is applied is a module that is usually provided in a water purifier and can convert purified water into instantaneous hot water when the user uses hot water. The heating chamber 10 and the water extraction chamber 20 described above are used. , Looking at the other components, including the water outlet 30 and the ceramic heaters (H), as shown in the attached FIGS. 1 and 2, the water intake pipe (1) through which purified water is received, the flow control valve (2), and the solenoid It is equipped with a valve (3), heating unit (4), overpressure outlet (5), outlet water temperature sensor (6), and flow sensor (7) to provide instantaneous hot water.

The overall configuration and function of the heater module 100 as described above is different from the heater module of an existing water purifier only in shape, but it produces instantaneous hot water with the same function to enable the use of hot water. Hereinafter, a description of the overall function of the heater module. will be omitted.

The operation to ultimately reduce the generation of bubbles generated in the heating chamber when using hot water by the heater module for a water purifier configured as described above is described as follows.

When hot water is used through a water purifier, it flows into the heating chamber (10) through the water intake pipe (1), and flows into the ceramic heater (H) perpendicular to the inside of the heating chamber (10) through the heating unit (4). Purified water is instantly heated to a high temperature, and is discharged through the upper water outlet chamber 20 and the water outlet 30 through an outlet (omitted in the drawing) provided on the outside of the water purifier.

The bubbles generated when heating purified water by the ceramic heater (H) as described above naturally rise as shown in FIG. 6, and they are arranged in a fan shape along the sloping bottom of the water extraction chamber 20. As much as possible, the bubbles move through the piece 22 to the upper side, which becomes the buffer space of the water extraction chamber 20.

Most of the small bubbles moved as described above are divided and collected between the guide pieces 22 protruding from the inclined bottom of the water extraction chamber 20, and at the same time move toward the outlet 21 of the water extraction chamber along the inclined bottom. It is exhausted at the outlet side or flows downward before the outlet and is guided inside the heating chamber (10).

The guide piece 22 as described above divides the bubbles or prevents small bubbles from gradually gathering together to form large bubbles, thereby preventing the internal pressure of the heating chamber from increasing by being activated in the form of a large bubble as before. do.

On the other hand, when hot water is discharged in an instantaneous heated state as described above, bubbles are collected in the water outlet chamber 20 and cannot be activated to a large size, and are discharged together with the hot water through the water outlet 30 and the water outlet 31 on the water outlet side. . At this time, when hot water is discharged by pressing the cock (lever) on the hot water outlet side of the water purifier, air bubbles are minimized, so final water splashing is prevented, preventing burns to users receiving hot water.

The attached Figure 7 is an example in which interference pieces 23 are further formed in front of the outlet 21 side of the water outlet chamber 20 according to the present invention, in which the bubbles are divided into small sizes as described above and are released along with hot water to the outlet side. Safe use can be achieved by preventing water splashing during the final discharge of hot water by removing air bubbles while escaping or bursting relatively large bubbles so that water can be discharged in small sizes.

As described above, the present invention has been described with specific details such as specific components and limited embodiments and drawings, but this is only provided to facilitate a more general understanding of the present invention, and the present invention is not limited to the above embodiments. , those skilled in the art can make various modifications and variations from this description.

Therefore, the spirit of the present invention should not be limited to the described embodiments, and the scope of the patent claims described below as well as all things that are equivalent or equivalent to the scope of the claims will be said to fall within the scope of the spirit of the present invention. .

10: heating chamber 20: water extraction chamber
21: Exit 22: Taxi
23: Interference 30: Outlet section
H: Ceramic heater 100: Heater module

Claims (4)

Purified water is supplied into the heating chamber (10), which is vertical to the heater module (100) installed in the water purifier, and is instantaneously heated through the ceramic heater (H) inside the heating chamber. The water outlet chamber (20) is provided on the upper side of the heating chamber. In discharging hot water through the water outlet (31) on the water outlet (30) side connected to,
At the inner bottom of the water outlet chamber 20 connected to the water outlet unit 30, there are a plurality of guide pieces 22 that guide bubbles generated when heating purified water in the heating chamber 10 to the outlet of the water outlet chamber 20. ) A water outlet chamber for a water purifier to prevent bubble activation, characterized in that it protrudes toward the outlet (21) connected to the water outlet (31) at intervals.
According to paragraph 1,
A water extraction chamber for a water purifier to prevent bubble activation, wherein the inner bottom of the water extraction chamber (20) where the guide piece (22) is formed is inclined toward the outlet (21).
According to claim 1 or 2,
A water outlet chamber for a water purifier to prevent bubble activation, wherein the guide pieces (22) are arranged and protruded in a fan shape, and the protruding lower end is inclined toward the outlet (21).
According to paragraph 1,
A water extraction chamber for a water purifier to prevent bubble activation, characterized in that a plurality of interference pieces (23) are protruded around the outlet (21) formed inside the water extraction chamber (20) to remove bubbles and minimize the size of bubbles.

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