KR102636833B1 - A humidifier using heater with rapid atomizing function - Google Patents

Abstract

A heated humidifier capable of rapid spraying is disclosed. The heated humidifier includes a main body; a water storage tank disposed inside the main housing to store water for humidification; a heating unit disposed in contact with the water storage tank and configured to generate humidifying particles by heating water stored in the water storage tank; and a cover disposed on the top of the main housing and having an outlet for discharging humidifying particles generated by the heating unit; It includes, inside the storage tank, a rapid heating partition wall configured to surround the heating unit and divide the internal space of the storage tank into a rapid heating area directly in contact with the heating unit and a water storage area other than the rapid heating area; This is placed.

Description

Heated humidifier capable of rapid spraying {A HUMIDIFIER USING HEATER WITH RAPID ATOMIZING FUNCTION}

The present invention relates to a humidifier, and more specifically, to a heated humidifier capable of rapid spraying.

Various types of humidifiers have been used to maintain dry indoor environments at desired humidity conditions. Conventionally, ultrasonic humidifiers that generate humidifying particles by vibrating water based on ultrasonic oscillators to change water into fine water droplets have been widely used, but problems with hygiene and cleaning have been raised. A convection type evaporative humidifier that evaporates moisture by continuously blowing air to an absorbent that absorbs moisture has been proposed, but such evaporative humidifiers are generally expensive and the difficulty of cleaning the absorber has been pointed out as a disadvantage. Heated humidifiers, which evaporate moisture by heating water using a heater, are attracting attention as a new alternative due to their easy-to-clean structure and sterilization effect. However, since such a heated humidifier needs to heat water to a temperature for evaporation, there are problems in that it takes a long time for spraying to start, energy consumption is relatively high, and the discharged steam is high temperature.

Korean Patent Publication No. 10-2012-0124354 (“Heated humidifier”, Jaegu Choi)

One object of the present invention to solve the above-mentioned problems is to provide a rapid spraying system that can significantly shorten the time from the start of power supply to the time of discharge of humidifying particles and increase energy efficiency by providing a rapid heating partition. The aim is to provide a heated humidifier capable of

However, the problem to be solved by the present invention is not limited to this, and may be expanded in various ways without departing from the spirit and scope of the present invention.

A heated humidifier capable of rapid spraying according to an embodiment of the present invention for achieving the above-described object includes a main body housing; a water storage tank disposed inside the main housing to store water for humidification; a heating unit disposed in contact with the water storage tank and configured to generate humidifying particles by heating water stored in the water storage tank; and a cover disposed on the top of the main housing and having an outlet for discharging humidifying particles generated by the heating unit; It includes, inside the storage tank, a rapid heating partition wall configured to surround the heating unit and divide the internal space of the storage tank into a rapid heating area directly in contact with the heating unit and a water storage area other than the rapid heating area; This can be placed.

According to one aspect, the rapid heating partition includes: an inner partition disposed in the direction of the rapid heating area; and an outer partition disposed in the direction of the water storage area. Includes, both ends of the inner partition and the outer partition are sealed with each other to form a hollow area inside the inner partition and the outer partition, and the heating unit heats the water supplied into the inner partition, and the heated Heat supplied to the water is transferred to the inner partition, and the hollow region may be configured to prevent heat from the inner partition from being transferred to water outside the outer partition.

According to one aspect, the hollow region may be formed to maintain a vacuum state.

According to one aspect, the heating part is disposed on the bottom of the water storage tank, and an impregnation around the heating part of the water tank is configured to guide the arrangement position of the rapid heating partition in response to the bottom shape of the rapid heating partition. A region can be formed.

According to one aspect, the heating unit has a height of less than or equal to a predetermined first height, is disposed inside the impregnation area, and includes a curved portion whose height decreases toward an outer area of the heating unit based on the center of the heating unit. By providing it, it can be configured to increase the contact area with water compared to the case where the bent portion is not provided.

According to one aspect, the cover includes an outer cover exposed to the outside of the heated humidifier; and an inner cover detachably coupled to the inner side of the outer cover; The inner cover includes: a central hole formed to have a shape corresponding to the upper end of the rapid heating partition and allowing humidifying particles generated in the rapid heating region to pass through; and a downwardly inclined portion formed to decrease in height toward the central hole. can be provided.

According to one aspect, the inner cover is disposed in an area other than the central hole, so that humidifying particles generated in the water storage area pass through when the pressure caused by the humidifying particles generated in the water storage area exceeds a predetermined critical pressure. A pressure sensitive valve configured to do so; Further comprising: an auxiliary outlet for discharging humidifying particles passing through the pressure-sensitive valve to the outside of the heated humidifier; It can be further provided.

According to one aspect, the inner cover, the rapid heating partition, and the water storage tank may be formed of a stainless steel material.

According to one aspect, it is provided with a discharge path that guides humidifying particles discharged from the upper end of the rapid heating partition to the discharge port; sealing the space between the upper end of the rapid heating partition and the central hole of the inner cover; And it may further include a sealing assembly that assists in coupling the inner cover and the outer cover by penetrating the central hole of the inner cover and detachably coupling with the outer cover.

According to one aspect, the sealing assembly includes: a first sealing member that is in contact with the outer cover and has a hole corresponding to the outlet; and a second sealing member disposed below the first sealing member and in contact with an upper end of the rapid heating partition. It includes: a main hole formed in a central area of the second sealing member; an upwardly slanted portion disposed to surround the main hole and raised to face the main hole; and a plurality of outer holes disposed outside the upwardly inclined portion.

The disclosed technology can have the following effects. However, since it does not mean that a specific embodiment must include all of the following effects or only the following effects, the scope of rights of the disclosed technology should not be understood as being limited thereby.

According to the heating humidifier capable of rapid spraying according to an embodiment of the present invention described above, by providing a rapid heating partition, the time from the start of power supply to the time of discharge of humidifying particles is significantly shortened and energy efficiency is improved. It can be increased.

Figure 1 is an exemplary perspective view of a heated humidifier capable of rapid spraying according to an embodiment of the present invention.
Figure 2 is a cross-sectional view taken along plane A-A' of the heated humidifier capable of rapid spraying of Figure 1.
Figure 3 is an exploded view of the heated humidifier capable of rapid spraying of Figure 1.
FIG. 4 is an enlarged cross-sectional view of the storage tank space of FIG. 2.
Figure 5 is a perspective and cross-sectional view of an exemplary rapid heating partition according to one aspect of the present invention.
Figure 6 is a perspective and cross-sectional view of an exemplary inner lid according to one aspect of the present invention.
7 is a perspective view and cross-sectional view of an exemplary second sealing member according to one aspect of the present invention.
Figure 8 is a perspective view of a heating unit according to one aspect of the present invention.

Since the present invention can make various changes and have various embodiments, specific embodiments will be illustrated in the drawings and described in detail.

However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all changes, equivalents, and substitutes included in the spirit and technical scope of the present invention.

Terms such as first, second, etc. may be used to describe various components, but the components should not be limited by the terms. The above terms are used only for the purpose of distinguishing one component from another. For example, a first component may be referred to as a second component, and similarly, the second component may be referred to as a first component without departing from the scope of the present invention. The term and/or includes any of a plurality of related stated items or a combination of a plurality of related stated items.

When a component is said to be "connected" or "connected" to another component, it is understood that it may be directly connected to or connected to the other component, but that other components may exist in between. It should be. On the other hand, when it is mentioned that a component is “directly connected” or “directly connected” to another component, it should be understood that there are no other components in between.

The terms used in this application are only used to describe specific embodiments and are not intended to limit the invention. Singular expressions include plural expressions unless the context clearly dictates otherwise. In this application, terms such as “comprise” or “have” are intended to designate the presence of features, numbers, steps, operations, components, parts, or combinations thereof described in the specification, but are not intended to indicate the presence of one or more other features. It should be understood that this does not exclude in advance the possibility of the existence or addition of elements, numbers, steps, operations, components, parts, or combinations thereof.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by a person of ordinary skill in the technical field to which the present invention pertains. Terms defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related technology, and should not be interpreted in an ideal or excessively formal sense unless explicitly defined in the present application. No.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the attached drawings. In order to facilitate overall understanding when describing the present invention, the same reference numerals are used for the same components in the drawings, and duplicate descriptions for the same components are omitted.

As described above, various types of humidifiers, including ultrasonic humidifiers, evaporative humidifiers, and heated humidifiers, have been used to maintain dry rooms at desired humidity conditions. Among these various types of humidifiers, heated humidifiers, which evaporate moisture by heating water using a heater, are attracting attention as a new alternative due to their easy-to-clean structure and sterilization effect. However, since such a heated humidifier needs to heat water to a temperature for evaporation, there are problems in that it takes a long time for spraying to start, energy consumption is relatively high, and the discharged steam is high temperature.

A heated humidifier capable of rapid spraying according to an embodiment of the present disclosure is intended to solve this problem, and is provided with a rapid heating partition, thereby significantly shortening the time from the start of power supply to the time of discharge of humidifying particles. Energy efficiency can be increased by doing this.

Figure 1 is an exemplary perspective view of a heated humidifier capable of rapid spraying according to an embodiment of the present invention. As shown in Figure 1, a heated humidifier 1000 capable of rapid spraying according to an embodiment of the present invention may include a main body 100 and a cover 200 covering the upper part of the main housing 100. there is. The humidifying particles generated in the main housing 100 can be discharged mainly through the outlet 210 of the cover 200, and optionally, an auxiliary outlet 215 is provided so that at least some of the humidifying particles are discharged through the auxiliary outlet 215. can be discharged as

According to one aspect, the main housing 100 may include a stage portion 110 and a body portion 120, but is not limited thereto.

According to one aspect, the stage unit 110 may be provided with a driving circuit for operating the heated humidifier according to one aspect of the present invention. The driving circuit may include, but is not limited to, at least one of, for example, a power supply unit, a power conversion unit, a status display unit, a control circuit, and a power switch.

The body portion 120 may include, for example, a water storage tank for storing water for humidification and a heater for heating it, but is not limited thereto. According to one aspect, the body portion 120 may be configured to be seated on the stage portion 110, and while the body portion 120 is seated on the stage portion 110, the body portion may be separated based on the detachment lever 125. The coupling between (120) and the stage unit (110) can be released. The detachment lever 125 may protrude again in a pressed state, for example based on a built-in spring, but is not limited thereto, and may be any type of structure for separating the body portion 120 and the stage portion 110. It should be understood that can be adopted.

Figure 2 is a cross-sectional view of the A-A' plane of the heated humidifier capable of rapid spraying of Figure 1, and Figure 3 is an exploded view of the heated humidifier capable of rapid spraying of Figure 1. Hereinafter, a heated humidifier 1000 capable of rapid spraying according to an aspect of the present invention will be described in more detail with reference to FIGS. 2 and 3.

As shown in Figures 2 and 3, a heated humidifier (1000) capable of rapid spraying according to one aspect of the present invention includes a main housing (100), a cover (200), a water storage tank (300), and a rapid heating partition (400). ), a heating unit 500, or a sealing assembly 600.

As shown in Figures 2 and 3, the heated humidifier 1000 capable of rapid spraying according to one aspect of the present invention may be divided into a main housing 100 and a cover 200. The water storage tank 300 and the heating unit 500 may be disposed inside the main housing 100.

More specifically, but not exclusively, the water storage tank 300 may be disposed inside the main body housing 100 and configured to store water for humidification. However, in this description, forming humidifying particles based on water is described as an example, but the liquid for forming humidifying particles is not limited to water, and the use of various liquids for forming humidifying particles is also within the technical scope of the present invention. It should be understood as included in thought. The water storage tank 300 may be made of stainless steel, for example, but is not limited thereto.

The heating unit 500 may be arranged to be in contact with the storage tank 300 and may be configured to heat water stored in the storage tank 300 to generate humidifying particles. As exemplarily shown in FIGS. 2 and 3, the heating unit 500 may be disposed, for example, at the center of the bottom of the water storage tank 300, but is not limited thereto. According to one aspect, the heating unit 500 may be a positive temperature coefficient (PTC) heater, but it should be understood that it is not limited thereto and any type of heater capable of heating liquid may be adopted.

The cover 200 is disposed on the top of the main housing 100 and may be provided with an outlet 210 for discharging humidifying particles generated by the heating unit 500. As previously described with reference to FIG. 1, an auxiliary outlet 215 may be further provided, and will be described in detail later in this description. Additionally, as shown in FIG. 2, the cover 200 may include an outer cover 220 and an inner cover 230. In more detail, without limitation, the cover 200 may include an outer cover 220 exposed to the outside of the heated humidifier 1000 and an inner cover 230 detachably coupled to the inside of the outer cover.

According to one aspect, the outer cover 220 may be manufactured in a form in which a first part and a second part are formed separately and then combined, but the present invention is not limited thereto. The inner cover 230 may be disposed inside the outer cover 220 to enclose a storage area for liquid for the production of humidifying particles together with the water storage tank 300 .

As shown in FIGS. 2 and 3, a rapid heating partition 400 may be disposed inside the water storage tank 300. A sealing assembly 600 is disposed on the upper part of the rapid heating partition 400, so that the space between the rapid heating partition 400 and the inner cover 230 can be sealed, and the humidifying particles generated in the rapid heating partition 400 can be sealed. It can be discharged through the outlet (210).

Referring to Figure 3, from the bottom, the main body housing 100, heating unit 500, water storage tank 300, rapid heating partition 400, second sealing member 610, first sealing member 620, inner side The cover 230 and the outer cover 220 are shown sequentially. Hereinafter, each configuration is described in detail in this description.

FIG. 4 is an enlarged cross-sectional view of the storage tank space of FIG. 2. Hereinafter, the water storage tank 300 space of the heated humidifier 1000 capable of rapid spraying according to one aspect of the present invention will be described in more detail with reference to FIG. 4.

As shown in FIG. 4, inside the water storage tank 300, a rapid heating partition 400 may be disposed. The rapid heating partition 400 surrounds the heating unit 500 and divides the internal space of the storage tank into a rapid heating area 400h directly in contact with the heating unit 500 and a storage area 400r outside the rapid heating area. It can be configured to do so. According to one aspect, the liquid to be heated located in the storage area 400r moves from the storage area 400r to the rapid heating area 400h through the space between the rapid heating partition wall 400 and the bottom of the storage tank 300. However, it is not limited to this, and may be configured to form a path for movement of the liquid to be heated at least in part of the lower part of the rapid heating partition 400 or the inner bottom of the storage tank 300.

As described above, despite the various advantages of the heated humidifier, there is a problem that a certain waiting time is required from the time of power supply until the humidifying particles are generated. In a typical heating humidifier, humidifying particles are generated and begin to be discharged only after a heating period of at least 20 minutes from the time of power supply.

The heated humidifier 1000 capable of rapid spraying according to one aspect of the present invention can shorten the heating time for discharge of humidifying particles to 15 minutes or less by, for example, providing a rapid heating partition 400, and the heating time can be reduced to 15 minutes or less. The amount of power consumed can also be dramatically reduced.

As shown in FIG. 4, the rapid heating partition 400 surrounds the heating unit 500, thereby dividing the internal space of the storage tank into areas other than the rapid heating area 400h and the rapid heating area directly in contact with the heating unit 500. It can be divided into a water storage area (400r). The heating unit 500 first performs rapid heating on the liquid to be heated located in the rapid heating area 400h, thereby generating humidifying particles in a faster time. The rapid heating partition 400 has, for example, an insulating function, so that the heat generated by the heating unit 500 is not transmitted to the outside of the rapid heating partition 400 and is heated to the target located in the rapid heating area 400h. It can be delivered to liquid more efficiently.

Figure 5 is a perspective and cross-sectional view of an exemplary rapid heating partition according to one aspect of the present invention. Figure 5(a) is a perspective view of the rapid heating partition 400 according to one side, and Figure 5(b) is a cross-sectional view of the rapid heating partition 400 according to one side.

As shown in FIG. 5, the rapid heating partition 400 according to one aspect of the present substrate includes an inner partition 420 disposed in the direction of the rapid heating region 400h and an outer partition disposed in the direction of the water storage region 400r. It may include (410). Here, both ends of the inner partition 420 and the outer partition 410 may be configured to be sealed with each other to form a hollow region 430 inside the inner partition wall and the outer partition wall. According to one aspect, the heating unit 500 heats water supplied into the inner partition 420, and the heat supplied to the heated water is transferred to the inner partition 420, and is heated to the inner partition 430 by the hollow region 430. The heat of the partition wall 420 can be prevented from being transferred to the water outside the outer partition wall 410. Therefore, the heat generated from the heating unit is heated inside the internal partition to heat a small amount of water, thereby shortening the heating time.

Meanwhile, according to one aspect, such a hollow region 430 may be formed to maintain a vacuum state. Accordingly, the rapid heating partition 400 has improved thermal insulation performance, and the heat from the heating unit 500 does not pass through the rapid heating partition 400 but is directed to the liquid to be heated located inside the rapid heating region 400h. It can be delivered efficiently. Meanwhile, according to one aspect, the rapid heating partition 400 may be formed of stainless steel. Stainless steel may be suitable for maintaining hygiene while in contact with liquids. As an example, by providing the hollow region 430 as described above, the rapid heating partition 400 can be formed of a stainless material and still have thermal insulation performance. In addition, the heat generated by the heating unit 500 is efficiently transferred to the inner partition 420, thereby further increasing the heating efficiency of the rapid heating area 400h.

Referring again to FIG. 4, the heating unit 500 according to one aspect of the present invention is disposed on the bottom of the storage tank 300, and a rapid heating partition 400 is formed around the heating unit on the bottom of the storage tank 300. ) An impregnated region 300r configured to guide the arrangement position of the rapid heating partition 400 may be formed in response to the bottom shape of the . For example, when the cup-shaped rapid heating partition 400 as shown in FIG. 5 is adopted, for example, the impregnation area 300r may have a donut shape formed around the heating unit 500.

Such an impregnated area 300r can guide the installation position of the rapid heating partition 400 with respect to the water storage tank 300, making installation of the rapid heating partition 400 easier. In addition, by ensuring that the lowest surface of the rapid heating area (400h) is formed lower than the lowest surface of the water storage area (400r), no residual liquid to be heated is present in the water storage area (400r) and is supplied to the rapid heating area (400h). You can. To this end, according to one aspect, the outermost portion of the impregnation region 300r may be provided with an inclined surface having a low height toward the central portion. In addition, the impregnation area 300r lowers the height of the heating unit 500, thereby preventing overheating of the heating unit 500 by exposing at least a portion of the heating unit 500 to the air without contacting the liquid to be heated. By preventing this, the possibility of malfunction can be minimized.

In relation to this, Figure 8 is a perspective view of a heating unit according to one aspect of the present invention. Non-limitingly, but more specifically, the heating unit 500 has a height of less than or equal to a predetermined first height, is disposed inside the impregnation area 300r, and has a height directed to the outer area of the heating unit based on the center of the heating unit. By providing the curved portion 500r, which decreases, it can be configured to increase the contact area with respect to the liquid to be heated compared to the case where the curved portion is not provided.

As shown in FIG. 4, the heating unit 500 may have a height less than or equal to a predetermined first height and may be disposed inside the impregnation area 300r. For example, the first height of the heating unit 500 may be a height such that the top of the heating unit 500 is not higher than the lowest surface of the water storage area 400r. According to one aspect of the present invention, even when the residual liquid to be heated in the water storage tank 300 is reduced by maintaining the height of the heating unit 500 below the first height, the heating unit 500 maintains the liquid to be heated. Exposure to the air can be minimized. At the same time, by arranging the heating unit 500 in the impregnation area 300r, the length of the heating unit toward the bottom can be increased, thereby increasing the contact area with the liquid to be heated.

Furthermore, as shown in FIGS. 4 and 8, the heating unit 500 according to one aspect of the present invention has a bent portion 500r whose height decreases toward the outer area of the heating unit based on the center of the heating unit. By providing the curved portion, the contact area with respect to the liquid to be heated can be further increased compared to the case where the bent portion is not provided. That is, according to one aspect of the present invention, in the trade-off relationship between the increase in the contact area with the liquid to be heated and the risk of exposure of the heating part to air when the liquid to be heated is reduced, reasonable results can be expected for both. there is.

Figure 6 is a perspective and cross-sectional view of an exemplary inner lid according to one aspect of the present invention. Figure 6 (a) is a perspective view of the inner cover, and Figure 6 (b) is a cross-sectional view of the inner cover. As shown in FIGS. 4 and 6, the inner cover 230 according to one aspect of the present invention may include a central hole 230c and a downwardly inclined portion 230s.

According to one side, the central hole 230c may be formed to have a shape corresponding to the upper end of the rapid heating partition 400 and may be configured to pass humidifying particles generated in the rapid heating region 400h. As shown in FIG. 6, according to one side, the central hole 230c has a shape corresponding to the upper end of the rapid heating partition 400 (circular in the example of the drawing), and is a part for installing the sealing assembly 600. It may further include shapes (square and circular notches in the examples in the drawings).

Referring again to FIGS. 4 and 6 , a downwardly inclined portion 230s may be formed so that the height decreases as it approaches the central hole. According to one aspect of the present invention, by providing the rapid heating partition 400, humidifying particles are first generated in the rapid heating area (400h), but humidification is also generated in the water storage area (400r) by the operation of the continuous heating unit 500. Particles may be generated. In this way, the humidifying particles generated in the water storage area (400r) may meet the downward slope portion (230s) of the inner cover 230 and become droplets again, and the generated water droplets may flow to the water storage tank (300) along the downward slope portion (230s). ) may flow toward the central area of the , and then may be configured to flow along the outer surface of the rapid heating partition 400 again toward the lower portion of the storage tank 300. According to one aspect, water droplets flowing along the outer surface of the rapid heating partition 400 may act to increase the thermal insulation performance of the rapid heating partition 400. In addition, according to one aspect, the downward slope portion (230s) allows water droplets to flow toward the center of the storage tank (300), thereby reducing the possibility of liquid leaking through the space between the cover (200) and the main housing (100). It can be further reduced. Furthermore, when the operation of the humidifier according to one aspect of the present invention is stopped and the cover 200 is opened, the amount of water droplets condensed on the inner cover 230 can be reduced, making it possible to more easily remove the cover 200. there is.

Referring again to FIGS. 4 and 6, an outer flat portion 230f may be formed in an area surrounding the downwardly inclined portion 230s of the inner cover 230 according to one aspect of the present invention. The outer flat portion 230f is configured not to have an inclination and can be used for placement of additional components, such as, for example, a pressure sensitive valve 230h. Additionally, an inner cover sealing member 230a may be provided at the outermost part of the inner cover 230, for example, the outer flat portion 230f. The inner cover sealing member 230a may be formed of, for example, an elastic material. For example, the outermost part of the inner cover 230 is inserted into the 'ㄷ' shaped inner cover sealing member 230a. can be formed. The inner cover sealing member 230a may be configured to seal at least one of the spaces between the inner cover 230 and the outer cover 220 or between the inner cover 230 and the main body housing 100. According to one aspect, the inner cover sealing member 230a may act to assist coupling between the inner cover 230 and the outer cover 220.

Referring again to FIGS. 4 and 6, the inner cover 230 according to one aspect of the present invention may further include a pressure sensitive valve 230h. The pressure sensitive valve 230h is disposed in an area other than the central hole 230c of the inner cover 230, and is disposed in the water storage area 400r when the pressure due to the humidifying particles generated in the water storage area 400r exceeds a predetermined critical pressure. It may be configured to pass the humidifying particles generated at (400r). As previously observed, according to one aspect of the present invention, humidifying particles are first generated in the rapid heating area (400h) by providing the rapid heating partition 400, but the water storage area ( Humidifying particles can be generated even at 400r). In this way, if the amount of humidifying particles generated in the water storage area 400r exceeds a predetermined critical amount, the pressure pushing the inner cover 230 may increase. The pressure pushing the inner cover 230 may act on the joint between the cover 200 and the main housing 100, causing negative effects such as wear, bending, or damage. Additionally, excessively high pressure may cause separation of the cover 200 due to explosion and cause a safety accident. Therefore, according to one aspect of the present invention, the pressure sensitive valve 230h provided in the inner cover 230 is configured to operate in the water storage area (400r) when the pressure caused by the humidifying particles generated in the water storage area (400r) exceeds a predetermined critical pressure. It may be configured to reduce the pressure at the bottom of the inner cover 230 by passing the humidifying particles generated at 400r). It should be understood that the pressure-sensitive valve 230h may be any type of known or developed valve configured to pass gas in a predetermined direction only when the pressure is above a predetermined pressure.

According to one aspect, the pressure sensitive valve 230h may be disposed in an area other than the central hole 230c of the inner cover 230, for example, but may be disposed in the outer flat portion 230f, but is not limited thereto. No.

Meanwhile, in response to the provision of the pressure-sensitive valve (230h), the outer cover 210 according to one aspect of the present invention assists in discharging humidifying particles that have passed through the pressure-sensitive valve (230h) to the outside of the heated humidifier (1000). An outlet 215 may be further provided. As shown in FIG. 1, the auxiliary outlet 215 may be formed to have a smaller size than the outlet 210, which is the main discharge path, but is not limited to this. According to one aspect, the auxiliary outlet 215 may be arranged so that the auxiliary outlet 215 and the pressure sensitive valve 230h are in contact when the outer cover 220 and the inner cover 230 are combined.

According to one aspect, the inner cover 230 may be formed of a stainless material. As described above, the inner cover 230 can also be formed of humidifying particles and water droplets, so it can be made of stainless steel in consideration of hygiene. As seen in this description, according to one aspect, the inner cover 230, the rapid heating partition 400, and the storage tank 300 are all made of stainless steel, and the entire structure that comes into contact with the liquid to be heated is made of stainless steel. It can be done as much as possible.

7 is a perspective view and cross-sectional view of an exemplary second sealing member according to one aspect of the present invention. With reference to FIGS. 3, 4, and 7, the sealing assembly 600 according to one aspect of the present invention will be described in more detail.

As shown in FIGS. 3, 4, and 7, the heated humidifier 1000 capable of rapid spraying according to one aspect of the present invention may include a sealing assembly 600 disposed in the central area of the cover 200. there is. According to one aspect, the sealing assembly 600 may be disposed between the cover 200 and the rapid heating partition 400.

According to one embodiment of the present invention, the sealing assembly 600 may be provided with a discharge path that guides humidifying particles discharged from the upper end of the rapid heating partition 400 to the discharge port 210. Additionally, the sealing assembly 600 may be configured to seal the space between the upper end of the rapid heating partition 400 and the central hole 230c of the inner cover 230. In addition, the sealing assembly 600 penetrates the central hole 230c of the inner cover 230 and is detachably coupled to the outer cover 220, thereby coupling the inner cover 230 and the outer cover 220. Can assist.

First, Figure 7 is a perspective view and a cross-sectional view of an exemplary second sealing member according to one aspect of the present invention. Figure 7 (a) is a perspective view of the second sealing member, and Figure 7 (b) is a cross-sectional view of the second sealing member.

As shown in FIGS. 3, 4, and 7, the sealing assembly 600 according to one aspect of the present invention may include a first sealing member 620 and a second sealing member 610. It is not limited. The first sealing member 620 and the second sealing member 610 may be provided as one body, depending on the embodiment.

According to one aspect, the first sealing member 620 may be configured to be in contact with the outer cover 220 and have a hole corresponding to the outlet 210. The second sealing member 610 may be disposed below the first sealing member 620 and be configured to contact the upper end of the rapid heating partition 400.

As shown in FIG. 7, the second sealing member 610 according to one side includes a main hole 610c formed in the center area of the second sealing member 610, an upwardly inclined portion 610s, and a plurality of outer edges. A hole 610a may be provided. The upwardly inclined portion 610s is arranged to surround the main hole 610c and may be formed to become higher as it moves toward the main hole 610c. A plurality of outer holes 610a may be provided outside the upwardly inclined portion 610s. Therefore, as shown in FIG. 4, the humidifying particles generated inside the rapid heating partition 400 branch into a path through the main hole 610c and a path through a plurality of outer holes 610a and are discharged to the outlet 210. It can be. By providing the upwardly inclined portion 610s as described above, the humidifying particles rising at the position corresponding to the upwardly inclined portion 610s rise obliquely along the bottom of the upwardly inclined portion 610s and undergo a predetermined temperature decrease. It can be discharged through the main hole (610c). In addition, the humidifying particles that have passed through the plurality of outer holes 610a rise obliquely along the upper surface of the upwardly inclined portion 610s and the lower surface of the first sealing member 620, experience a predetermined temperature decrease, and then exit the outlet 210. It can be released through Furthermore, at least some of the humidifying particles that rise at a position corresponding to the upwardly inclined portion 610s may be turned into droplets without being discharged, and the resulting water droplets flow down the upwardly inclined portion 610s to form a plurality of It can flow in the direction of the outer hall (610a). Humidifying particles passing through the plurality of outer holes 610a may experience an additional temperature reduction effect due to such water droplets. Therefore, the problem of high temperature of emitted humidifying particles, which is a disadvantage of heated humidifiers, can be alleviated.

According to one aspect, the sealing assembly 600 may be formed of an elastic member. Therefore, the sealing assembly 600 seals the space between the upper end of the rapid heating partition 400 and the central hole 230c of the inner cover 230, thereby increasing the thermal insulation effect of the rapid heating partition 400. Meanwhile, by preventing water droplets flowing along the downwardly inclined portion 230s of the inner cover 230 from flowing into the rapid heating partition 400, the heating efficiency of the rapid heating region 400h can be increased.

Meanwhile, according to one side, the sealing assembly 600 penetrates the central hole 230c of the inner cover 230 and is detachably coupled to the outer cover 220, thereby connecting the inner cover 230 and the outer cover. (220) It can assist in the combination of . For example, as shown in FIG. 4, the second sealing member 610 is formed with an insertion groove into which a portion adjacent to the central hole 230c of the inner cover 230 can be inserted, or is formed in the second sealing member 610 in the center of the inner cover 230. A stepped portion may be formed to support the portion adjacent to the hole 230c from the bottom. At the same time, the sealing assembly 600 penetrates the central hole 230c of the inner cover 230 and is detachably coupled to the outer cover 220, so that the inner cover 230 is in close contact with the outer cover 220. can be maintained. According to one side, the lower surface of the outer cover 220 is provided with a plurality of protrusions formed toward the bottom, and the first sealing member 620 or the second sealing member 610 is formed with an insertion groove corresponding to the protrusions. Thus, the outer cover 220 and the sealing assembly 600 can be detachably coupled to each other by inserting the protrusion into the insertion groove, but the present invention is not limited to this.

As shown in FIG. 7, the second sealing member 610 may be provided with at least one separation handle 610h. The separation handle 610h extends, for example, from the second sealing member 610 toward the bottom, and includes the outer cover 220, the inner cover 230, the first sealing member 620, which constitute the cover 200, Alternatively, the ease of separation and cleaning of at least one of the second sealing members 610 can be increased.

Although it has been described above with reference to the drawings and examples, it does not mean that the scope of protection of the present invention is limited by the drawings or examples, and those skilled in the art will recognize the present invention as set forth in the claims below. It will be understood that various modifications and changes can be made to the present invention without departing from its spirit and scope.

The present invention described above is explained based on a series of functional blocks, but is not limited to the above-described embodiments and the attached drawings, and various substitutions, modifications and changes are made without departing from the technical spirit of the present invention. It will be clear to those skilled in the art that this is possible.

The combination of the above-described embodiments is not limited to the above-described embodiments, and various types of combinations in addition to the above-described embodiments may be provided depending on implementation and/or need.

In the above-described embodiments, the methods are described based on flowcharts as a series of steps or blocks, but the present invention is not limited to the order of steps, and some steps may occur in a different order or simultaneously with other steps as described above. there is. Additionally, a person of ordinary skill in the art will recognize that the steps shown in the flowchart are not exclusive and that other steps may be included or one or more steps in the flowchart may be deleted without affecting the scope of the present invention. You will understand.

The above-described embodiments include examples of various aspects. Although it is not possible to describe all possible combinations for representing the various aspects, those skilled in the art will recognize that other combinations are possible. Accordingly, the present invention is intended to include all other substitutions, modifications and changes falling within the scope of the following claims.

1000: Heated humidifier capable of rapid spraying
100: main body housing
110: Stage part
120: body part
125: Detachment lever
200: cover
210: outlet
215: Auxiliary outlet
220: outer cover
230: inner cover
230c: Central hall
230s: downward slope
230f: Outer flat part
230a: Inner cover sealing member
230h: pressure sensitive valve
300: water storage tank
400: Rapid heating bulkhead
400h: rapid heating zone
400r: reservoir area
410: outer bulkhead
420: inner bulkhead
430: hollow area
500: heating unit
600: Sealing assembly
620: first sealing member
610: Second sealing member
610c: Main Hall
610s: upward slope
610a: Outer hall
610h: Separation handle

Claims (10)

A heated humidifier capable of rapid spraying,
body housing;
a water storage tank disposed inside the main housing to store water for humidification;
a heating unit disposed in contact with the water storage tank and configured to generate humidifying particles by heating water stored in the water storage tank; and
a cover disposed on the top of the main housing and having an outlet for discharging humidifying particles generated by the heating unit; Including,
Inside the water storage tank,
a rapid heating partition configured to surround the heating unit and divide the internal space of the storage tank into a rapid heating area directly in contact with the heating unit and a water storage area other than the rapid heating area; This is placed,
It further includes a sealing assembly having a discharge path that guides humidifying particles discharged from the upper end of the rapid heating partition to the discharge port,
The sealing assembly,
a first sealing member having a hole corresponding to the outlet; and
a second sealing member disposed below the first sealing member and in contact with an upper end of the rapid heating partition; Including,
The second sealing member,
a main hole formed in the center area of the second sealing member;
an upwardly inclined portion arranged to surround the main hole and formed to become higher as it moves toward the main hole, providing a movement path for humidifying particles along with the lower surface of the first sealing member to reduce the temperature of the humidifying particles; and
Provided with a plurality of outer holes disposed on the outer edge of the upwardly inclined portion,
Heated humidifier capable of rapid spraying.
According to claim 1,
The rapid heating partition wall,
an inner partition disposed in the direction of the rapid heating area; and an outer partition disposed in the direction of the water storage area. Including,
Both ends of the inner partition wall and the outer partition wall are sealed to each other to form a hollow region inside the inner partition wall and the outer partition wall,
The heating unit heats the water supplied inside the inner partition, and the heat supplied to the heated water is transferred to the inner partition, and the hollow region prevents the heat of the inner partition from being transferred to the water outside the outer partition. composed,
Heated humidifier capable of rapid spraying.
According to claim 2,
The hollow area is,
Formed to maintain a vacuum state,
Heated humidifier capable of rapid spraying.
According to claim 1,
The heating unit,
disposed on the bottom of the water storage tank,
Around the heating part of the water storage tank,
An impregnation area configured to guide the arrangement position of the rapid heating partition is formed in response to the bottom shape of the rapid heating partition,
Heated humidifier capable of rapid spraying.
According to claim 4,
The heating unit,
Having a height less than or equal to a predetermined first height, and disposed within the impregnation area,
By providing a curved portion whose height decreases toward the outer area of the heating portion based on the center of the heating portion, the contact area for water is increased compared to the case where the curved portion is not provided.
Heated humidifier capable of rapid spraying.
According to claim 1,
The cover is,
An outer cover exposed to the outside of the heated humidifier; and
an inner cover detachably coupled to the inner side of the outer cover; Including,
The inner cover is,
a central hole formed to have a shape corresponding to the upper end of the rapid heating partition and allowing humidifying particles generated in the rapid heating area to pass through; and
a downwardly inclined portion formed to decrease in height toward the central hole; Equipped with,
Heated humidifier capable of rapid spraying.
According to claim 6,
The inner cover is,
a pressure-sensitive valve disposed in an area other than the central hole and configured to pass humidifying particles generated in the water storage area when the pressure caused by the humidifying particles generated in the water storage area exceeds a predetermined critical pressure; It is further provided with,
The outer cover is,
an auxiliary outlet for discharging humidifying particles that have passed through the pressure-sensitive valve to the outside of the heated humidifier; Further comprising,
Heated humidifier capable of rapid spraying.
According to claim 6,
The inner cover, the rapid heating partition, and the water storage tank are,
Formed from stainless steel material,
Heated humidifier capable of rapid spraying.
According to claim 6,
The sealing assembly,
sealing the space between the upper end of the rapid heating partition and the central hole of the inner cover; and
Further configured to assist in coupling the inner cover and the outer cover by penetrating a central hole of the inner cover and detachably engaging the outer cover,
Heated humidifier capable of rapid spraying.
According to clause 9,
The first sealing member,
Configured to contact the outer cover,
Heated humidifier capable of rapid spraying.