CN218972821U - Humidifying device - Google Patents

Abstract

The humidifying device of the present utility model comprises: a frame which is arranged in the water storage part and is provided with a fan mounting groove and a heating unit mounting hole; a heating unit inserted into the heating unit mounting hole to heat the water in the water storage part; and a fan assembly vertically installed in the fan installation groove to transfer the water vapor into the space to be humidified. The heating unit includes: a heating part, the lower part of which is soaked in water to heat the water; a heater part which is pressed and disposed at an upper portion of the heating part and is spaced apart from the water to generate heat to be transferred to the heating part; a heating unit frame covering an upper portion of the heating member, exposing outer surfaces of both sides of a lower portion of the heating member, and filling an inside of the heating member; a waterproof member injection hole exposing a portion of both ends of the upper portion of the heating unit frame; the connecting wire is connected with the heater component and protrudes to the upper part of the heating unit frame through the waterproof component injection hole; and a waterproof member filling at least a part of the inside of the waterproof member injection hole and the heating unit frame.

Description

Humidifying device

Technical Field

The present utility model relates to a humidifying device, and more particularly, to a humidifying device having a structure capable of improving various problems occurring in a heating unit caused by water, thereby improving durability and quality and stably humidifying equipment.

Background

In general, a humidifying device is a device that adjusts indoor humidity by water vapor generated from water.

Such humidifying devices are generally provided in dry or high humidity requiring places to regulate the humidity in the room or in the equipment.

For example, with an incubator that artificially incubates eggs, the hatchability can be increased only when the eggs contained in the incubator maintain the same incubation conditions as in nature.

In this case, the incubator needs to maintain a proper temperature and humidity, and a humidifying device is built in the incubator in order to adjust these conditions.

In this way, the humidifying device is built not only in an apparatus requiring humidification such as an incubator, but also in a humidifying apparatus used in a room for use in a dry season or for preventing diseases, etc., thereby maintaining proper humidity.

The prior art for a humidifying device as described is disclosed in, for example, korean utility model No. 20-0460879.

In the case of the above prior art, it is installed inside a device requiring humidification, and the humidification is performed by delivering water vapor generated from water heated by a heater (heater) to the inside by a fan (fan).

However, in this case, since the fan is set in a state of being always exposed on the water surface, even in the case where the humidifying device is not used, water drops may condense on the fan as the water under the fan evaporates, thereby reducing the durability of the fan and increasing the failure rate due to corrosion.

Further, the humidifying device in the prior art has the following problems: since the heater and the temperature sensor (sensor) for heating water are simply wrapped by a shrink tube (tube), the heater cannot be protected from the outside, and thus, durability is poor and foreign materials are easily adhered.

Further, since the heater and the temperature sensor are wrapped inside a heater cover (cover), when a large amount of contaminants such as foreign substances are caught in the heater cover, the cover and the shrink tube are separated and removed, not only is the removal process complicated, but also, when such contaminants are caught, the efficiency of the heater is lowered, and the water cannot be heated to a temperature required by a user.

Prior art literature

Patent literature

Patent document 1: korean authorized utility model No. 20-0460879

Disclosure of Invention

Technical problem to be solved by the utility model

The present utility model has been made to solve the problems, and an object of the present utility model is to provide a humidifying device having a structure capable of improving various problems occurring in a heating unit caused by water, thereby improving durability and quality, and stably humidifying equipment.

Another problem to be solved by the present utility model is to provide a humidifying device having a function capable of detecting and notifying the absence of water in a water storage portion, thereby efficiently humidifying the inside of the apparatus.

The problems to be solved by the present utility model are not limited to the above-described problems, and the non-mentioned problems or other problems will be clearly understood by those skilled in the art from the following description.

Technical scheme for solving problems

In order to solve the problems, the present utility model provides a humidifying device. The humidifying device may include: a frame provided inside the water storage part for storing water and formed with a recessed fan mounting groove and a through heating unit mounting hole so as to mount a part for supplying moisture; a heating unit inserted into the heating unit mounting hole mounted to the frame and heating water stored in the water storage part; and a fan assembly vertically installed in the fan installation groove of the frame and transmitting or discharging water vapor generated by the water heated by the heating unit into a space to be humidified. The heating unit may include: a heating member whose lower portion is soaked in the water stored in the water storage portion to heat the water; a heater part disposed in an upper portion of the heating part in a pressed state and spaced apart from the water to generate heat to be transferred to the heating part; a heating unit frame covering an upper portion of the heating member provided with the heater member, exposing both side outer surfaces of a lower portion of the heating member, and filling an inside of the heating member; a waterproof member injection hole formed to expose a portion of both ends of the upper portion of the heating unit frame; a connecting wire connected with the heater component and protruding to the upper part of the heating unit frame through any one waterproof component injection hole; and a waterproof member filling at least a part of the waterproof member injection hole and the inside of the heating unit frame.

The heating element may have an inverted U-shaped side cross-section with at least one flange connecting the two sides and the heater element is pressed against the uppermost flange of the heating element.

The heater element may be a positive temperature coefficient heater, a resistive heater or a ceramic heater.

The heating unit may further include a sealing member provided at an uppermost flange of the heating member to seal the exposed both side portions of the heating member, respectively, so as to waterproof the heating member provided in a pressed state at the uppermost flange of the heating member.

The humidifying device may include: and a temperature and humidity sensor which is arranged at a position separated from the fan assembly towards the space requiring humidification, detects the temperature and humidity between the fan assembly and the space requiring humidification, and sends a signal for informing that the water storage part is free of water when the set temperature is reached and the set humidity can not be reached after a period of time.

The humidifying device may include: a safety cover having at least one hole exposing a portion while wrapping both side outer surfaces of the lower portion of the exposed heating member.

An air inflow hole for inflow or transfer of water vapor generated by the water heated by the heating unit to the fan assembly may be penetratingly formed at the frame at one side of the fan installation groove.

At least one air circulation hole may be formed on the frame adjacent to the heating unit mounting hole for mounting the heating unit to circulate air.

ADVANTAGEOUS EFFECTS OF INVENTION

As described above, according to the solution for solving the problem of the present utility model, by including a heating unit, it includes: a heating member whose lower portion is soaked in water stored in the water storage portion to heat the water; and a heater part disposed in an upper portion of the heating part in a pressed state and spaced apart from the water to generate heat transferred to the heating part, so that various problems occurring in the heating unit due to the water can be improved. Thus, a humidifying device capable of efficiently humidifying the inside of the apparatus can be provided.

In addition, according to the solution for solving the problems of the present utility model, by including a temperature and humidity sensor that detects the temperature and humidity between a fan assembly (assembly) and a space to be humidified to transmit a signal informing that there is no water in the water storage part, a user can easily know that there is no water in the water storage part of the humidifying device. Thus, a humidifying device capable of efficiently humidifying the inside of the apparatus can be provided.

Thus, the humidifying device according to the solution to the problem of the present utility model has the following effects:

first, a heating unit for heating water is provided, and a fan assembly for transferring water vapor generated by the water heated by the heating unit into a space to be humidified. Therefore, it is possible to install in the apparatus and to humidify with a simple structure.

The second heating unit for heating water includes a heater part for generating heat and a heating part receiving the heat transferred from the heater part and heating water. The heating member is made of aluminum (Al). Therefore, there is an advantage in that when the heater member generates heat, the heat is rapidly and smoothly radiated to the outside through the heating member made of aluminum.

Third, a space is formed in a lower portion of the heating member pressing the heater member provided in an inner side of the upper portion, and the space and an outer periphery are filled with a heating unit frame as a filler having good heat resistance. Therefore, the heater member and the heating member can be protected from external impact, and high heat generation from the heater member and the heating member can be received with strength.

Fourth, the heating member made of aluminum is strong in moisture resistance, thereby minimizing corrosion caused by water.

Fifth, the heating unit is integrally formed of a heater part, a heating part pressing and fixing the heater part, and a heating unit frame wrapping the heater part and the heating part and mounted on a frame (frame). Therefore, there is an advantage in that maintenance and exchange are easy when the component fails.

Sixth, in the existing humidifying device, the fan assembly is always exposed to water for humidification, however, in the humidifying device for solving the problem according to the present utility model, it is vertically installed in the frame in which the recess is formed in the fan installation groove. Therefore, the fan assembly is not always exposed to the water surface, so that there is an advantage in that corrosion and malfunction of components due to evaporation of water can be reduced.

Seventh, in the humidifying device for solving the problems according to the present utility model, the heating unit and the fan assembly are fixed to the plate-shaped frame in a manner of inserting and hooking (hook). Therefore, there is an advantage in that it can be easily operated at the time of maintenance and replacement of various components, and also can be easily disassembled and separated for cleaning at the time of cleaning the humidifying device.

Drawings

Fig. 1 is a perspective view for explaining a humidifying device according to an embodiment of the present utility model.

Fig. 2 is an exploded perspective view for explaining a humidifying device according to an embodiment of the present utility model.

Fig. 3a and 3b are a front view and a side sectional view for explaining a heating unit of one of components of the humidifying device according to an embodiment of the present utility model.

Fig. 4a and 4b are a perspective view and an exploded perspective view for explaining a combination manner of a heater part and a heating part of a heating unit of one of parts of a humidifying device according to an embodiment of the present utility model.

Fig. 5 is a perspective view for explaining a water storage part in which a humidifying device according to an embodiment of the present utility model is mounted to a humidifying casing.

Fig. 6 is a perspective view showing a side cross section of air flow in order to explain a process of humidifying a humidifying part of a humidifying casing by a humidifying device according to an embodiment of the present utility model.

Reference numerals illustrate:

1: humidifying device

2: frame

3: heating unit

5: fan assembly

6: temperature and humidity sensor

10: humidification shell

12: humidification unit

14: water storage part

16: partition plate

17: air delivery hole

20: heating unit mounting hole

22: fan mounting groove

24: air inflow hole

26: air circulation hole

32: heater unit

33: connecting wire

34: heating element

35: sealing member

36: heating unit frame

36h, waterproof part filling hole

36hs of waterproof component

37: heating unit frame combining hole

38: a safety cover.

Detailed Description

Hereinafter, preferred embodiments of the present utility model will be described in detail with reference to the accompanying drawings. The advantages and features of the present utility model and the manner in which the advantages and features are achieved will become apparent with reference to the drawings and detailed description that follows. However, the present utility model is not limited to the embodiments described herein, but may be embodied in different manners from each other. The embodiments described herein are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the utility model to those skilled in the art, and the utility model will be defined by the scope of the appended claims.

Like reference numerals refer to like elements throughout the specification. Accordingly, for the same reference numerals or similar reference numerals, even though not mentioned or illustrated in the corresponding drawings, the description may be made with reference to other drawings. Further, even if reference numerals are not given, the description will be made with reference to other drawings.

The terminology used in the description is for the purpose of describing embodiments only and is not intended to be limiting of the utility model. In this specification, the singular forms also include the plural forms where the context does not specifically mention. The use of "comprising" and/or "including" in the specification does not exclude the presence or addition of one or more other elements, steps, acts and/or devices. Further, since the present utility model has been described in terms of the preferred embodiment, the reference numerals shown in the order of description are not necessarily limited to the order thereof.

When referring to a component (element) as "connected to" or "combined to" with other components, both include: the present utility model is not limited to the above-described embodiments, and may be applied to various embodiments. In contrast, when it is meant that one component is "directly connected (directly connected to)" or "directly coupled (directly coupled to)" to another component, no other component is interposed. "and/or" includes all combinations of each item (item) mentioned and more than one thereof.

Spatially relative terms "lower", "upper", and the like may be used as illustrated in the figures for ease of description of the relationship of one device or component to another device or component. Spatially relative terms are to be understood as comprising, in addition to the orientation shown in the figures, also the terms in which the devices in use or in action are oriented differently from one another. For example, when the apparatus illustrated in the drawings is turned over, an apparatus described as being "below" or "under" another apparatus may be located "above" the other apparatus. Thus, the exemplary term "below" may include both below and above directions. The devices may be arranged in other orientations and, therefore, spatially relative terms may be interpreted in accordance with the arrangement.

Also, the embodiments described in this specification will be described with reference to preferred schematic, i.e., cross-sectional and/or top view, illustrations of the utility model. The thickness of the films and regions are exaggerated in the drawings for the purpose of effectively explaining the technical content. Thus, the morphology of the schematic may change due to manufacturing techniques and/or tolerances, etc. Therefore, embodiments of the present utility model are not limited to the particular forms shown, but also include form changes that occur according to the manufacturing process. Thus, the regions illustrated in the figures have schematic properties and the shapes of the regions illustrated in the figures are intended to illustrate the particular shape of the regions of the device and are not intended to limit the scope of the utility model.

Fig. 1 is a perspective view for explaining a humidifying device according to an embodiment of the present utility model; fig. 2 is an exploded perspective view for explaining a humidifying device according to an embodiment of the present utility model; fig. 3a and 3b are a front view and a side sectional view for explaining a heating unit of one of components of the humidifying device according to an embodiment of the present utility model; fig. 4a and 4b are a perspective view and an exploded perspective view for explaining a combination of a heater part and a heating part of a heating unit of one of parts of a humidifying device according to an embodiment of the present utility model; fig. 5 is a perspective view for explaining a water storage part in which a humidifying device according to an embodiment of the present utility model is mounted to a humidifying casing; fig. 6 is a perspective view showing a side cross section of air flow in order to explain a process of humidifying a humidifying part of a humidifying casing by a humidifying device according to an embodiment of the present utility model.

Referring to fig. 1 to 6, a humidifying device 1 is built in an apparatus, and generally includes: a frame 2 to which a member for humidification is mounted; a heating unit 3 for heating water; and a fan assembly 5 to transmit water vapor generated by the heated water, the heating unit 3 and the fan assembly 5 being connected to a controller (not shown) operating according to a user's setting and being operable by receiving power and signals.

The humidifying device 1 according to an embodiment of the present utility model having such a structure can easily supplement moisture to a space to be humidified, and is made of a material having excellent durability and thermal conductivity, and can prevent malfunction caused by corrosion of components and a decrease in efficiency of a heater.

The humidifying device 1 may include: a frame 2 provided inside the water storage part 14 for storing water and formed with a recessed fan mounting groove 22 and a heating unit mounting hole (hole) 20 formed therethrough to mount a member for supplying moisture; a heating unit 3 inserted into a heating unit mounting hole 20 mounted to the frame 2 and heating water stored in the water storage part 14; and a fan assembly 5 vertically installed in the fan installation groove 22 of the frame 2 and transmitting or discharging water vapor generated by the water heated by the heating unit 3 to the humidifying part 12, which is a space to be humidified.

Wherein the heating unit 3 may include: a heating member 34 whose lower portion is immersed in the water stored in the water storage part 14 to heat the water; a heater part 32 provided in an upper portion of the heating part 34 in a pressed state and spaced apart from the water to generate heat to be transferred to the heating part 34; a heating unit frame 36 that covers an upper portion of the heating member 34 provided with the heater member 32, exposes both side surfaces of a lower portion of the heating member 34, and fills an inside of the heating member 34; a waterproof member injection hole 36h formed to expose a portion of both ends of the upper portion of the heating unit frame 36; a connection line 33 connected to the heater member 32 and protruding to the upper portion of the heating unit frame 36 through any one of the waterproof member injection holes 36 h; and a waterproof member 36hs filling at least a portion of the inside of the waterproof member injection hole 36h and the heating unit frame 36.

Hereinafter, each of the components will be described in more detail.

First, the frame 2 is a portion for mounting a plurality of components for humidification.

The frame 2 has a plate-like shape, and as shown in fig. 1, has an l-shape ━ when viewed from above.

A heating unit mounting hole 20 for mounting a heating unit 3 described later is formed through a lateral surface ("" ━ "surface in" "- ━") in the cross section in the vertical direction.

A fan mounting groove 22 for mounting a fan unit 5 described later is formed in a recess in the longitudinal surface ("|" surface in "- ━").

Next, the heating unit 3 is a unit for heating water.

As shown in fig. 2, such a heating unit 3 is basically constituted by a heater member 32, a heating member 34 and a heating unit frame 36.

The heater block 32 is formed of one of a positive temperature coefficient (PTC: positive Temperature Coefficient) heater, a resistive heater, or a ceramic (ceramic) heater. But is not limited thereto. The heater unit 32 of the humidifying device 1 according to an embodiment of the present utility model may also be constituted by a variety of heaters capable of functioning to transfer heat to the heating unit 34.

Wherein the heating unit frame 36 is inserted and mounted to a portion of the frame 2 in the heating unit mounting hole 20.

Preferably, the heating unit frame 36 is formed to have the same shape as the heating unit mounting hole 20 at an upper portion thereof so as to be inserted into and fixed to the heating unit mounting hole 20.

Also, as shown in fig. 2, a plurality of heating unit frame coupling holes 37 are concavely formed at the front and rear of the heating unit frame 36 to be coupled with the heating unit mounting holes 20.

At this time, on the inner surface of the heating unit mounting hole 20, a protrusion to be coupled with the heating unit frame coupling hole 37 of the heating unit frame 36 is formed, and preferably, such a protrusion has the same shape, number, and formation position as the heating unit frame coupling hole 37 formed at the heating unit frame 36.

The protrusions and holes are formed in such a manner that when the heating unit frame 36 is inserted into the heating unit mounting hole 20 of the frame 2, the insertion direction of the heating unit frame 36 is guided by the protrusion and heating unit frame combining hole 37, so that the insertion can be easily performed.

Further, at least two or more hooks are formed on part of the surfaces of the heating unit frame 36 and the heating unit mounting hole 20, so that the heating unit frame 36 can be firmly fixed to the frame 2 by these hooks.

In addition, at least one or more air circulation holes 26, which are formed to penetrate in the up-down direction so that ambient air can move through the air circulation holes 26, are formed in the frame 2 adjacent to the heating unit mounting holes 20 for mounting the heating units 3.

The heating member 34 has an inverted U-shaped side section having at least one rib (rib) connecting both sides therein, and the heater member 32 is disposed in a pressed state on the uppermost rib of the heating member 34.

Thereby, the heater member 32 is separated from the water stored in the water storage part 14, and the lower portion of the heater member 34 may be soaked in the water stored in the water storage part 14.

The heating unit 3 further includes a connection line 33 connected to the heater member 32 and protruding to an upper portion of the heating unit frame 36 through any one of the waterproof member injection holes 36 h. Accordingly, the heating unit 3 may be electrically connected to a controller operating according to a user's setting, and operate by receiving power and signals.

In addition, as shown in fig. 4a and 4b, in order to waterproof the heater part 32 disposed in a pressed state on the uppermost flange of the heater part 34, the heating unit 3 may further include a sealing part 35 disposed on the uppermost flange of the heater part 34 to seal the exposed both side portions of the heater part 32, respectively.

Further, the heating unit 3 may include a waterproof member 36hs filling at least a portion of the inside of the heating unit frame 36 and the waterproof member injection hole 36 h. Here, although not shown, the waterproof member 36hs may be such that a waterproof solution is injected into the inside of the heating unit frame 36 through the waterproof member injection hole 36h and hardened in a state of filling the spaces between the heater member 32, the uppermost flange of the heating member 34, and the heating unit frame 36.

Thus, the heater part 32 has a structure to completely block various problems caused by water, so that durability can be improved.

The sealing member 35 is made of silicon (silicon). One of the sealing members 35 may have a through hole for passing through the connecting wire 33.

The flashing member 36hs may be hardened from liquid silicon. However, the present utility model is not limited thereto. The waterproof member 36hs may be formed of a liquid substance having heat resistance, insulation, and water resistance after hardening.

The heating member 34 is a member that generates water vapor by heating water.

Such heating element 34 is made of a metal having high thermal conductivity. Preferably, the heating part 34 of the humidifying device 1 according to an embodiment of the present utility model may be made of aluminum. This is because aluminum is light, strong, has good thermal conductivity, and has high moisture resistance, so that when the heater member 32 generates heat, heat can be radiated more quickly to heat the water, and at the same time, corrosion of the heating member 34 due to the water can be minimized.

The heating unit 3 is manufactured by insert molding a heating member 34 having a heater member 32 provided in a pressed state inside thereof into a heating unit frame 36.

Such a heating unit frame 36 is made of a heat-resistant material, and can withstand even when the heater member 32 is heated to cause the temperature of the heating member 34 to be high. As the heating unit frame 36 of the humidifying device 1 according to an embodiment of the present utility model, polycarbonate (polycarbonate) having good acid resistance and heat resistance may be used.

But is not limited thereto. The heating unit frame 36 may be made of a resin other than polycarbonate as long as it is a material having high heat resistance and capable of withstanding the high heat of the heater member 32 and the heater member 34.

In addition, a coating layer (not shown) may be formed on the outer surfaces of the both sides of the lower portion of the heating member 34 made of aluminum. The coating layer can protect the exposed outer surface of the heating member 34 from corrosion, and can improve the heat dissipation efficiency of the heating member 34.

The coating layer of the humidifying device 1 according to an embodiment of the present utility model is made of teflon (teflon) coating material having high heat resistance. The Teflon coating material is a material with the advantages of low friction, heat resistance, non-tackiness, weather resistance and the like. But is not limited thereto. Other materials capable of preventing the exposed outer surface of the heating member 34 from being corroded and improving the heat radiation efficiency of the heating member 34 may be used as the coating layer.

Such a teflon coating material has a fluorine (fluoride) component as its main component, and the fluorine component can function as a protective film to prevent foreign substances or pollutants in water and the like from adhering to the exposed outer surface of the heating member 34.

As described above, by forming the coating layer on the exposed outer surface of the heating member 34 by the teflon coating material, corrosion of the heating member 34 made of aluminum can be further minimized while it is not attached by contaminants such as minerals, foreign substances, etc. in water, so that heat dissipation efficiency of the heating member 34 can be also improved.

Since the heating unit 3 having the above-described structure is manufactured by injection molding in a single shape at the time of manufacturing, there is no inconvenience that the heating unit frame 36 constituting the outer shape of the heating unit 3 and the heating member 34 having the heater member 32 provided in a pressed state inside need to be separated separately at the time of exchanging the heating unit 3, and maintenance and exchange of the components can be easily performed by separating the heating unit frame 36 from the frame 2 at the time of maintenance.

The heating unit 3 of the humidifying device 1 according to an embodiment of the present utility model may include: a safety cover 38 having at least one hole exposing a portion while wrapping both side outer surfaces of the lower portion of the exposed heating member 34. The safety cover 38 serves to protect the manager when the humidification apparatus 1 is maintained.

Next, the fan assembly 5 serves to transfer or discharge water vapor generated by the water heated by the heating unit 3 into a space to be humidified.

The fan assembly 5 includes: a plurality of blades generating wind by rotation, and a motor (motorr) rotating the blades.

Since such a fan assembly 5 is one of ordinary blower fans, a detailed description thereof will be omitted herein.

Inside the fan assembly 5 are built a plurality of components, such as a motor for rotating a plurality of blades, which are connected to a controller through connection lines (not shown), thereby receiving power and signals to operate.

Thereby, the water vapor generated by the water heated by the heating unit 3 rises to the upper side in the apparatus, and flows into the humidifying section 12 as a space to be humidified by the air blowing operation of the fan assembly 5, thereby realizing humidification.

Such a fan assembly 5 is fixedly mounted in a fan mounting groove 22 of the frame 2, which is arranged as shown in fig. 5, to blow air to a space to be humidified.

The fan assembly 5 is mounted to the fan mounting groove 22 in the above-described manner so as to be always exposed to the water surface, whereby corrosion of parts due to evaporation of water can be avoided.

At this time, as shown in fig. 2, two or more protrusions protruding upward by a predetermined length are formed in the fan mounting groove 22 to support the fan assembly 5.

Further, hooks are formed at the sides of such protrusions to firmly fix the fan assembly 5, so that the fan assembly 5 can be easily fixed to the fan mounting groove 22.

An air inflow hole 24 for transmitting air is formed through one side of the fan mounting groove 22 (see fig. 2).

The air inflow hole 24 is a hole formed so that air can easily flow into the fan assembly 5 by the air supply operation of the fan assembly 5.

The water vapor generated by the water heated by the heating unit 3 rises, and at this time, flows into the fan assembly 5 through the air inflow hole 24, and is transferred into the space to be humidified by the air supply operation of the fan assembly 5.

Hereinafter, a process of incorporating the humidifying device 1 in the apparatus and humidifying the inside of the apparatus according to an embodiment of the present utility model will be described with reference to fig. 5 and 6.

In order to facilitate understanding of the operation and humidification process of the humidifying device 1 of the present utility model, a case in which the humidifying device 1 is mounted in a rectangular parallelepiped-shaped humidifying housing (housing) 10 as shown in the drawing is described as an example.

As shown in fig. 5 and 6, the humidifying casing 10 has a rectangular parallelepiped shape, and includes inside thereof: a humidifying unit 12 for humidifying and a water storage unit 14 for storing water.

At this time, the humidifying part 12 and the water storing part 14 are formed such that the spaces thereof are isolated from each other by the partition plate 16.

Further, an air delivery hole 17 is formed therethrough on the right side (based on fig. 5) of the upper end portion of the partition plate 16 so that the water vapor generated by the water storage portion 14 can be delivered to the humidifying portion 12 through the humidifying device 1.

Hereinafter, a process of achieving humidification in the humidification housing 10 having the above-described shape will be described.

First, the humidifying device 1 of the present utility model is mounted in the water storage unit 14 of the humidifying casing 10.

At this time, the humidifying device 1 should be arranged such that the lower portion of the heating member 34 of the heating unit 3 is immersed in the water stored in the water storage portion 14, and preferably, the fan assembly 5 is disposed opposite to the air delivery hole 17 of the partition plate 16.

Next, the user injects water into the water storage portion 14 before operating the humidifying device 1.

At this time, it is preferable that the amount of water injected is sufficient to soak the exposed outer surface of the lower portion of the heating member 34 in water.

In addition, the connection line 33 of the heater part 32 connected to the heating unit 3 of the humidifying device 1 is connected to the controller to be in standby operation.

Next, the user sets a maximum temperature value required for the humidifying section 12 through the controller and activates the humidifying device 1.

Thereby, the heater member 32 in the heating unit 3 of the humidifying device 1 generates heat.

The heat is transferred to the heating member 34 by the heat generation of the heater member 32, and the water stored in the water storage part 14 is heated and gasified into water vapor by the heating member 34.

As shown in fig. 6, the vaporized water vapor is transferred to the fan assembly 5 through the air inflow hole 24 of the frame 2 while ascending.

Then, the transferred air moves from the rear to the front of the fan assembly 5 by the air blowing operation of the fan assembly 5, and flows into the inside of the humidifying section 12 through the air transfer holes 17 of the partition plate 16.

Thereby, the inside of the humidifying section 12 can be humidified.

In addition, the humidifying device 1 may include a temperature and humidity sensor 6 provided at a position spaced from the fan assembly 5 toward the humidifying part 12 side, which is a space to be humidified, and detecting the temperature and humidity between the fan assembly 5 and the humidifying part 12, and transmitting a signal informing that there is no water in the water storage part 14 when the set temperature is reached and the set humidity is not reached yet after a lapse of a period of time.

For example, after the user has set the humidification unit 12 to a desired maximum temperature by the controller, if the humidity value detected by the temperature and humidity sensor 6 does not reach the set humidity value even after a lapse of time, it is determined that the amount of water stored in the water storage unit 14 is insufficient or no water.

This is because the temperature and humidity values detected by the temperature and humidity sensor 6 can be maintained at the set temperature and humidity values when the heating member 34 is immersed in water, and the water in the water storage part 14 is insufficient or no water when the humidity value detected by the temperature and humidity sensor 6 cannot reach the set humidity value.

Thus, even if the temperature and humidity values set by the temperature and humidity sensor 6 cannot be reached after a lapse of time, it is determined that the water amount in the water storage unit 14 is insufficient or no water is present, and the controller notifies that the water storage unit 14 is not present.

As described above, when the lack of water or the absence of water is known, the user will replenish the water in the water storage portion 14, thereby realizing the operation of the humidifying device 1.

In addition, in the case where the user wants to obtain a small amount of humidification according to preference, it is possible to control to achieve a relatively small amount of humidification by lowering the set temperature value and the set humidity value of the temperature and humidity sensor 6.

This is done by a controller that can be set by a user control.

Thereby, the controller informs the water storage part 14 of the shortage of the water amount and guides the user to replenish the water.

By humidifying the humidifying device 1 according to an embodiment of the present utility model, a humidifying operation required by a user can be performed, and in particular, durability and quality of the humidifying device 1 can be improved by the heating unit 3 having a structure capable of improving various problems caused by water.

A humidifying device according to an embodiment of the present utility model includes a heating unit including: a heating member whose lower portion is soaked in water stored in the water storage portion to heat the water; and a heater part disposed in an upper portion of the heating part in a pressed state and spaced apart from the water to generate heat transferred to the heating part, so that various problems occurring in the heating unit due to the water can be improved. Accordingly, it is possible to provide a humidifying device capable of efficiently humidifying the inside of the apparatus.

In addition, the humidifying device according to an embodiment of the present utility model includes a temperature and humidity sensor that detects temperature and humidity between the fan assembly and the space to be humidified to transmit a signal informing that there is no water in the water storage part, so that a user can easily know that there is no water in the water storage part of the humidifying device. Accordingly, it is possible to provide a humidifying device capable of efficiently humidifying the inside of the apparatus.

While the embodiments of the present utility model have been described with reference to the drawings, those skilled in the art to which the present utility model pertains will appreciate that the present utility model may be practiced in other embodiments without changing the technical idea or essential features thereof. Accordingly, it should be understood that the above-described embodiments are illustrative only and not limiting in all respects.

Claims (5)

1. A humidifying device, characterized by comprising:

a frame provided inside the water storage part for storing water and formed with a recessed fan mounting groove and a through heating unit mounting hole so as to mount a part for supplying moisture;

a heating unit inserted into the heating unit mounting hole mounted to the frame and heating water stored in the water storage part; and

a fan assembly vertically installed in the fan installation groove of the frame and transferring or discharging water vapor generated by the water heated by the heating unit into a space to be humidified;

wherein the heating unit includes:

a heating member whose lower portion is soaked in the water stored in the water storage part to heat the water;

a heater part disposed in an upper portion of the heating part in a pressed state and spaced apart from the water to generate heat to be transferred to the heating part;

a heating unit frame that covers an upper portion of the heating member provided with the heater member, exposes both side outer surfaces of a lower portion of the heating member, and fills an inside of the heating member;

a waterproof member injection hole formed to expose a portion of both ends of an upper portion of the heating unit frame;

a connection wire connected to the heater member and protruding to an upper portion of the heating unit frame through any one of the waterproof member injection holes; and

and a waterproof member filling at least a part of the waterproof member injection hole and the inside of the heating unit frame.

2. A humidifying apparatus as claimed in claim 1, wherein,

the heating part has a U-shaped side section and at least one flange connecting two sides,

and the heater member is disposed in a pressed state on a flange of an uppermost end of the heating member.

3. A humidifying apparatus as claimed in claim 1, wherein,

the heater element is a positive temperature coefficient heater, a resistive heater or a ceramic heater.

4. The humidifying device according to claim 1, wherein,

the heating unit includes a sealing member provided at an uppermost flange of the heating member to seal both exposed side portions of the heating member, respectively, so as to waterproof the heating member provided in a pressed state at the uppermost flange of the heating member.

5. A humidifying apparatus according to claim 1, comprising:

and a temperature and humidity sensor which is arranged at a position separated from the fan assembly towards the space side needing humidification, detects the temperature and humidity between the fan assembly and the space needing humidification, and sends a signal informing that the water storage part is free of water when the set temperature is reached and the set humidity can not be reached after a period of time.

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