KR101685955B1 - Humidification apparatus having a plate for blocking space between a fan and a humidification filter - Google Patents

Abstract

[0001] The present invention relates to a humidifying device having a shielding plate, and more particularly, to a humidifying device in which a flow of air is guided to a lower portion of a humidifying filter by a shielding plate to increase a flow area of air passing through a humidifying filter, The present invention relates to a humidifying device having a shutoff plate. The present invention relates to a humidifier having a shield plate including a housing, a water tank, and an air purifying filter, the humidifier comprising: a blowing fan positioned inside the housing such that a front surface thereof is spaced apart from the air purifying filter, A humidifying filter which is located at a lower portion of the air blowing fan and is spaced apart from the air cleaning filter, and which is immersed in the water bath to absorb water; And a blocking plate disposed between the blowing fan and the humidifying filter for blocking the flow of air flowing into the space between the blowing fan and the humidifying filter, wherein one end of the blocking plate is fixed to the lower portion of the blowing fan, The humidifier filter is located near the upper edge of the humidifying filter at the rear of the humidifying filter. The blocking plate vertically descends from the lower end of the blowing fan. The humidifying filter has a L-shaped cross- .

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a humidifying device having a shutoff plate,

[0001] The present invention relates to a humidifying device having a shielding plate, and more particularly, to a humidifying device in which a flow of air is guided to a lower portion of a humidifying filter by a shielding plate to increase a flow area of air passing through a humidifying filter, The present invention relates to a humidifying device having a shutoff plate.

Generally, a humidifier that artificially generates and emits moisture to raise the humidity of the room includes a heating type humidifier in which water vapor generated by heating the water stored in the water tank to a predetermined temperature is spontaneously sprayed into the room, An ultrasonic humidifier that emits micronized water particles into the room by ultrasonic vibration of the stored water, and a combined humidifier that simultaneously includes a heating humidification system and an ultrasonic humidification system.

In recent years, water adhering to the surface of the disk is blown by blowing water that has moved to the upper side of the humidifying filter after immersing the humidifying filter in the water tank, or by rotating a part of a plurality of disks immersed in the water tank (Air blowing type) humidifier which uses a vaporizing method is also used. Generally, in the case of a natural humidifier, air sucked by a blowing fan is atomized while passing through a humidifying filter by sucking outside air by the blowing fan. The atomized air is discharged to the outside through the outlet of the humidifier to humidify the dry room.

The conventional humidifying device has a structure in which the space between the blowing fan and the humidifying filter is opened. The air sucked into the humidifying device having the above-described structure flows into the space between the blowing fan and the humidifying filter, and is sucked into the rear surface of the blowing fan while being humidified while passing through the upper part of the humidifying filter. However, in the conventional humidifying device, as the air flows into the space between the blowing fan and the humidifying filter, the flow area of the air passing through the humidifying filter is narrowed, and the amount of humidification of the air discharged to the outside of the humidifying device is also reduced There is a problem.

SUMMARY OF THE INVENTION The present invention has been accomplished in order to solve the above-mentioned problems, and it is an object of the present invention to provide a humidifier filter which is provided with a shielding plate between a blowing fan and a humidifying filter, And a humidifying device having a shield plate capable of increasing a humidification amount by increasing a flow area of air passing through the filter.

The present invention relates to a humidifier having a shield plate including a housing, a water tank, and an air purifying filter, the humidifier comprising: a blowing fan positioned inside the housing such that a front surface thereof is spaced apart from the air purifying filter, A humidifying filter which is located at a lower portion of the air blowing fan and is spaced apart from the air cleaning filter, and which is immersed in the water bath to absorb water; And a blocking plate disposed between the blowing fan and the humidifying filter for blocking the flow of air flowing into the space between the blowing fan and the humidifying filter, wherein one end of the blocking plate is fixed to the lower portion of the blowing fan, The humidifier filter is located near the upper edge of the humidifying filter at the rear of the humidifying filter. The blocking plate vertically descends from the lower end of the blowing fan. The humidifying filter has a L-shaped cross- .

In one embodiment of the present invention, the blowing fan is preferably a bidirectional suction fan capable of sucking air in both the front and rear directions.

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Meanwhile, in an embodiment of the present invention, the air sucked by the blowing fan and flowed into the housing is filtered by the air purifying filter, and then sucked into the front face of the blowing fan, 1, flows through a humidifying filter, is sucked into the rear surface of the blowing fan and flows along a second flow discharged to the outside through the top of the blowing fan, and the air flowing along the second flow flows through the blocking plate The flow of the air passing through the humidifying filter into the space between the air blowing fan and the humidifying filter is blocked and sucked to the rear surface of the blowing fan only through the humidifying filter.

The present invention can increase the amount of humidification by providing a shielding plate between the blowing fan and the humidifying filter to increase the flow area of the air passing through the humidifying filter by guiding the flow of air passing through the humidifying filter to the lower portion of the humidifying filter .

1 is a schematic cross-sectional view of a humidifier having a shield plate according to a preferred embodiment of the present invention.
2 shows the flow path and flow area of the air passing through the humidifying filter in a humidifier without a blocking plate according to the prior art.
FIG. 3 is a cross-sectional view of a humidifying apparatus according to a first embodiment of the present invention. FIG. 3 is a cross-sectional view of a humidifying apparatus according to a first embodiment of the present invention. Flow path and flow area.
FIG. 4 is a sectional view of a humidifier according to a second embodiment of the present invention. FIG. 4 is a cross-sectional view of a humidifying apparatus according to a second embodiment of the present invention. And the flow area of the air passing through the flow path.
5 is a flow path of air passing through the humidifying filter when the other end of the shielding plate bent at right angles to the humidifying device and having an L-shaped cross section is positioned close to the upper end of the humidifying filter according to Embodiment 3 of the present invention; and Flow area.
6 is a view showing a flow path and a flow of air passing through a humidifying filter when the other end of a shielding plate having a shape not bent at right angles to the humidifying device is positioned close to the upper end of the humidifying filter according to Embodiment 4 of the present invention; FIG.
7 is a graph showing the relationship between the flow path of the air passing through the humidifying filter and the flow area thereof when the other end of the blocking plate having a shape not bent in the humidifying device is positioned close to the upper end of the humidifying filter according to Embodiment 5 of the present invention Respectively.
2 to 7 show a state in which the partition walls positioned between the air cleaning filter and the air blowing fan shown in FIG. 1 are omitted.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a humidifying device having a shielding plate according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic cross-sectional view of a humidifier having a shield plate according to a preferred embodiment of the present invention.

1, a humidifier 100 having a shielding plate according to the present invention includes a housing 110, an air purifying filter 120, a water tank 130, a blowing fan 140, a humidifying filter 150, And a blocking plate 160.

In this embodiment, the housing 110 houses an air purifying filter 120, a water tank 130, a blowing fan 140, a humidifying filter 150, and a shutoff plate 160 therein. The housing 110 has a suction port 111 through which the air is blown when the blowing fan 140 is operated and a discharge port through which the air filtered by the humidifying filter 150 is discharged, (112).

The air purifying filter 120 is fixed inside the housing 110 in the vicinity of the suction port 111. In detail, the air cleaning filter 120 is preferably positioned such that its front surface faces the air inlet 111 and its rear surface faces the air blowing fan 140. The air cleaning filter 120 may be formed in various layers so that contaminants contained in the air sucked from the outside can be stuck in stages according to the characteristics of the contaminants and the size of the particles when the blowing fan 140 operates.

In this embodiment, it is preferable that the blowing fan 140 is located apart from the rear surface of the air purifying filter 120. A partition wall 115 having a plurality of ventilation holes is disposed between the ventilation fan 140 and the air cleaning filter 120. A motor 145 for driving the ventilation fan 140 is installed in the partition wall 115 And is connected to the blowing fan 140. In the present embodiment, it is preferable that the blowing fan 140 is a bidirectional suction fan capable of sucking air in both front and rear directions, for example, a sirocco fan.

The water tank 130 is a member that receives water, and the humidifying filter 150 is immersed therein. The water tank 130 is preferably spaced apart from the rear surface of the air cleaning filter 120 and positioned below the air blowing fan 140. On the other hand, although not shown in this embodiment, the water tank 130 is connected to a water tank, and water is supplied to the water tank 130 so that water reaches a predetermined water level.

The humidifying filter 150 is spaced apart from the rear surface of the air purifying filter 120 at a lower portion of the blowing fan 140. The humidifying filter 150 is a member for supplying moisture to the filtered air when the air filtered by the air purifying filter 120 is passed. It is preferable that the humidifying filter 150 is made of a material that can easily absorb water and has excellent air permeability.

The blocking plate 160 is disposed between the blowing fan 140 and the humidifying filter 150 and blocks the flow of air flowing into the space between the blowing fan 140 and the humidifying filter 150. The blocking plate 160 is fixed to the lower end of the ventilation fan 140 at one end 161 near the rear surface of the ventilation fan 140 and the other end 162 is fixed at the rear surface of the humidifying filter 150 It is preferable to be positioned close to the bottom of the upper edge.

Hereinafter, the flow of air during operation of the blowing fan 140 will be described with reference to FIG. However, according to the embodiment of the present invention, since the blowing fan 140 is a bidirectional suction fan, the air that enters the inside of the housing 110 during operation of the blowing fan 140 flows according to two different flows, do. In the present embodiment, for convenience of description, the two flows will be referred to as first flow (F ₁ ) and second flow (F ₂ ), respectively.

First, according to the first air flow (F ₁₎ is introduced into the housing 110 through the inlet 111 during operation of the blowing fan 140, it is filtered from the air cleaning filter 120. Then, the air according to the first flow F ₁ is sucked into the front surface of the blowing fan 140, and is discharged to the outside through the discharge port 112 via the upper portion of the blowing fan 140.

Next, the second air according to the flow (F ₂₎ is entered into the housing 110 through the operation when the suction port 111 of the blower fan 140, and sequentially the air cleaning filter 120 and the humidifying filter 150 And passes through the humidifying filter 150 in a state in which the humidifying filter 150 is immersed in moisture. Then, the air according to the second flow F ₂ is sucked to the rear surface of the blowing fan 140 and discharged to the outside through the discharge port 112 via the upper part of the blowing fan 140.

At this time, the air flowing along the second flow F ₂ is blocked by the shielding plate 160 to the space between the blowing fan 140 and the humidifying filter 150, and only through the humidifying filter 150, ). However, as will be described later, the second flow F ₂ varies the flow path depending on the installation position and shape of the shutoff plate 160, which affects the flow area and the amount of humidification of the air passing through the humidifying filter 150 have.

2 to 7, flow paths and air flow areas of the second flow according to the installation position and shape of the shutoff plate will be described. In addition, referring to Table 1, The variation of the amount of humidification according to the present invention will be described.

Table 1 shows changes in the amount of humidification depending on the position and shape of the other end of the shielding plate. On the other hand, the values of the humidification amounts in the conventional example and the first to fifth embodiments to be described later are values obtained by performing the same humidification apparatus on the same humidifier, .

number Position of the other end of the blocking plate shape Humidity (cc / hr) Conventional example Blocking plate not installed. 200 Example 1 At the top of the humidifier filter
Spaced up. Bend
L-shaped section. 275 Example 2 Top of Humidifier Filter
Is spaced down. Bend
L-shaped section. 290 Example 3 Top of Humidifier Filter
Located directly below. Bend
L-shaped section. 380 Example 4 Top of Humidifier Filter
Located directly below. It has a curved section. 320 Example 5 Top of Humidifier Filter
Located directly below. Unfolded
Section. 280

Conventional example

FIG. 2 shows a flow path and a flow area of air passing through a humidifying filter when a blocking plate is not provided between a blowing fan and a humidifying filter according to the prior art.

2, when the blocking plate 160 is not installed in the space between the air blowing fan 140 and the humidifying filter 150, the air filtered by the air cleaning filter 120 is blown into the air blowing fan 140 And passes through the space between the humidifying filter 150 and the upper part of the humidifying filter 150. At this time, the flow area through which the air filtered by the air cleaning filter 120 passed through the humidifying filter 150 was A1 and the humidification amount was 200 cc / hr.

Example 1

3 is a sectional view showing a state in which a blocking plate 160 having an L-shaped cross section bent at right angles to face the humidifying filter 150 according to the first embodiment of the present invention is inserted into a space between the blowing fan 140 and the humidifying filter 150, And the flow path and the flow area of the air passing through the humidifying filter 150 when the other end 162 of the cut-off plate 160 is disposed above the upper end of the humidifying filter 150.

3, when the shutoff plate 160 is installed between the blowing fan 140 and the humidifying filter 150, the second flow F ₂ is lower than the lower portion of the humidifying filter 150 It can be seen that it passes. 3, it can be seen that the flow area A2 of the air in the present embodiment increases by the flow area? Compared to the flow area A1 of the conventional air.

On the other hand, according to Table 1, the conventional humidification amount is 200 cc / hr, and the humidification amount of this embodiment is 275 cc / hr, which indicates that the humidification amount of this embodiment is increased by 75 cc / hr than the conventional humidification amount. As a result, it can be seen that the amount of humidification in this embodiment is increased by 37.5% per unit time than the amount of humidification in the prior art.

Accordingly, as the flow area of the air passing through the humidifying filter 150 is increased, the amount of humidification is also increased as compared with the case where the shield plate 160 is not provided in the space between the air blowing fan 140 and the humidifying filter 150 .

Example 2

4 is a sectional view showing a state in which a blocking plate 160 having an L-shaped cross section bent perpendicularly to the humidifying filter 150 faces the space between the blowing fan 140 and the humidifying filter 150 according to the second embodiment of the present invention, And the flow path and the flow area of the air passing through the humidifying filter 150 when the other end 162 of the cut-off plate 160 is spaced below the upper end of the humidifying filter 150.

4, when the other end 162 of the blocking plate 160 having an L-shaped cross section is positioned below the upper end of the humidifying filter 150, the second flow F ₂ is higher than the humidifying filter 150 150, respectively. 4, it can be seen that the flow area A3 of the air in the present embodiment is increased by? Than the flow area A1 of the conventional air.

Comparing the conventional example with the present embodiment, the conventional humidification amount is 200 cc / hr and the humidification amount of this embodiment is 290 cc / hr, which indicates that the humidification amount of the present embodiment is increased by 90 cc / . As a result, it can be seen that the amount of humidification of the present embodiment is increased by 45% per unit time than that of the conventional example. Accordingly, as the flow area of the air passing through the humidifying filter 150 is increased, the amount of humidification is increased as compared with the case where the shield plate 160 is not installed in the space between the air blowing fan 140 and the humidifying filter 150 .

On the other hand, when the embodiment 1 is compared with the present embodiment, the humidification amount of the embodiment 1 is 275 cc / hr, the humidification amount of this embodiment is 290 cc / hr, and the position of the other end of the cut- The amount of humidification of the embodiment is increased by 15cc / hr than that of Embodiment 1 where the humidification amount of the example is spaced above the upper part of the humidifying filter 150, and the amount of humidification increases by 5.45% per unit time than that of Embodiment 1.

That is, even when the shield plate 160 has the same shape, the amount of humidification varies depending on the position of the other end 162 of the shield plate. More specifically, when the other end 162 of the blocking plate 160 is spaced below the upper end of the humidifying filter 150, the amount of humidification increases .

Example 3

5 is a sectional view illustrating a state in which a blocking plate 160 having an L-shaped cross section bent at a right angle toward the rear surface of the humidifying filter 150 according to the third embodiment of the present invention is disposed in a space between the blowing fan 140 and the humidifying filter 150 And the flow path and the flow area of the air passing through the humidifying filter 150 when the other end 162 of the bent shield plate 160 is closely spaced below the upper end of the humidifying filter 150 will be. Meanwhile, in the present embodiment, 'located near the upper end of the humidifying filter 150' means that the humidifying filter 150 is positioned at a distance of about 5 mm from the upper end of the humidifying filter 150, but the present invention is not limited thereto.

5, when the other end 162 of the blocking plate 160 having an L-shaped cross section is positioned immediately below the upper end of the humidifying filter 150, the second flow F ₂ is, Passes through the lower portion of the substrate 150. 5, it can be seen that the flow area A4 of the air in this embodiment is increased by? Than the flow area A1 of air in the prior art.

On the other hand, when comparing the conventional example with the present embodiment, the conventional humidification amount is 200 cc / hr and the humidification amount of this embodiment is 380 cc / hr, and the humidification amount of this embodiment is increased by 180 cc / It can be seen that the amount of humidification in this embodiment is increased by 90% per unit time than the amount of humidification in the prior art. It can be seen from the comparison between the present embodiment and the conventional example that the flow area of the air and the humidification amount are higher than that of the humidifier 100 in which the shield plate 160 is installed without the shield plate 160.

On the other hand, when comparing Example 1 with this embodiment through Table 1, the humidification amount of Embodiment 1 is 275 cc / hr, and the humidification amount of this embodiment is 390 cc / hr. / hr. As a result, it can be seen that the humidification amount of the present embodiment is increased by 38% per unit time than the humidification amount of the first embodiment.

When the second embodiment is compared with the first embodiment, the humidification amount of the second embodiment is 290 cc / hr and the humidification amount of the present embodiment is 380 cc / hr. The humidification amount of this embodiment is increased by 90 cc / The amount of humidification in this embodiment is increased by about 31% per unit time than the amount of humidification in the second embodiment.

As a result of comparing the present embodiment with the first and second embodiments, even when the blocking plate 160 having the same shape is positioned at the upper end of the upper end of the humidifying filter 150 and positioned at the other end 162 of the blocking plate 160 The amount of humidification is increased when the humidifying filter 150 is positioned near the top edge of the humidifying filter 150. More preferably, when the other end of the humidifying filter 150 is positioned in the vicinity of the upper edge of the humidifying filter 150, .

Example 4

6 is a cross-sectional view illustrating a state in which a shielding plate 160 having a curved section without being bent at a right angle according to a fourth embodiment of the present invention is disposed in a space between the blowing fan 140 and the humidifying filter 150, And the flow path and the flow area of the air passing through the humidifying filter 150 when the other end 162 is spaced below the upper end of the humidifying filter 150. The position of the blocking plate in this embodiment is the same as the position of the blocking plate in the third embodiment.

6, when the other end 162 of the shield plate 160 having a curved cross section is positioned immediately below the upper end of the humidifying filter 150, the second flow F ₂ is humidified And passes through the lower portion of the filter 150. 6, it can be seen that the flow area A5 of the air of the present embodiment is increased by δ from the flow area A1 of the conventional air.

On the other hand, when comparing the conventional example with the present embodiment, the conventional humidification amount is 200 cc / hr and the humidification amount of the embodiment 4 is 320 cc / hr, and the humidification amount of this embodiment is increased by 120 cc / hr than the conventional humidification amount . As a result, it can be seen that the amount of humidification in this embodiment is increased by 60% per unit time than the amount of humidification in the prior art. It can be seen from the comparison between the present embodiment and the conventional example that the humidifier 100 equipped with the blocking plate 160 has a higher air flow area and a higher humidification amount than the humidifier without the blocking plate 160 installed therein.

When the first embodiment and the first embodiment are compared with each other through Table 1, the humidification amount of Embodiment 1 is 275 cc / hr and the humidification amount of this embodiment is 320 cc / hr. , And it can be understood that the amount of humidification of this embodiment is increased by about 16% per unit time than that of Embodiment 1.

When the second embodiment is compared with the present embodiment, the humidification amount of the second embodiment is 290cc / hr, and the humidification amount of this embodiment is 320cc / hr. The humidification amount of this embodiment is increased by 30cc / The amount of humidification of the present embodiment is increased by 10.3% per unit time than the amount of humidification of the second embodiment.

It is possible to prevent the blocking plate 160 having the same shape from being lowered below the upper portion of the humidifying filter 150 than when the other end 162 of the blocking plate 160 is positioned apart from the upper portion of the upper end of the humidifying filter 150 It can be seen that the amount of the humidification increases when the other end of the blocking plate 160 is positioned close to the upper edge of the humidifying filter 150. In addition,

On the other hand, when the third embodiment is compared with the third embodiment through Table 1, the humidification amount of the third embodiment is 380cc / hr, and the humidification amount of this embodiment is 320cc / hr. / hr. As a result, it can be seen that the humidification amount of the present embodiment is reduced by 15.7% per unit time than the humidification amount of the third embodiment.

Therefore, even if the other end 162 of the blocking plate 160 is positioned immediately below the upper edge of the humidifying filter 150, the shape of the blocking plate 160 can be changed according to the shape of the blocking plate 160 It can be seen that the amount of the humidification is changed. That is, when the shape of the blocking plate 160 is a shape having an L-shaped cross section bent at a right angle rather than a shape having a curved section, the amount of humidification increases.

Example 5

7 is a plan view of a shield plate 160 according to a fifth embodiment of the present invention in which a shield plate 160 having a flat shape without being bent is disposed in a space between the air blowing fan 140 and the humidifying filter 150, The air flow path and the flow area passing through the humidifying filter 150 when the humidifying filter 150 is installed just below the upper end of the humidifying filter 150. The positions of the blocking plates in this embodiment are the same as those of the blocking plates in the third and fourth embodiments.

7, when the other end 162 of the blocking plate 160 is positioned directly below the upper end of the humidifying filter 150, the second flow F ₂ is higher than that of the humidifying filter 150 It passes through the lower part. 7, it can be seen that the flow area A6 of the air in the present embodiment is increased by? Relative to the flow area A1 of the conventional air.

Table 1 shows that the conventional humidification amount is 200 cc / hr and the humidification amount of the embodiment 5 is 280 cc / hr, and the humidification amount of this embodiment is increased by 80 cc / hr than the humidification amount of the conventional example Able to know. That is, from Table 1, it can be seen that the amount of humidification of the present embodiment is increased by 40% per unit time than that of the conventional example. Accordingly, it can be seen that the air flow area and the humidification amount are higher than the humidifier 100 in which the shield plate 160 is installed, which is not provided with the shield plate 160.

However, when comparing Example 3 with the present embodiment, the amount of humidification in the embodiment 3 is 380 cc / hr, the amount of humidification in this embodiment is 280 cc / hr, 100 cc / hr. As a result, it can be seen that the humidification amount of the present embodiment is reduced by 26.3% per unit time than the humidification amount of the third embodiment.

When the fourth embodiment is compared with the fourth embodiment through Table 1, the humidification amount of the fourth embodiment is 320 cc / hr, and the humidification amount of this embodiment is 280 cc / hr. / hr, and the amount of humidification per unit time decreased by 12.5%.

Even when the other end 162 of the blocking plate 160 is positioned immediately under the upper edge of the humidifying filter 150 through the comparison of the present embodiment with the embodiment 3 and the embodiment 4, the shape of the blocking plate 160 It can be understood that the amount of the humidification varies.

More specifically, when the shape of the shielding plate 160 is a curved cross-section, the amount of the humidification increases, and the L-shaped cross-section bent at a right angle rather than the curved cross- It can be seen that the amount of humidification is increased more when the shape is.

As a result, it can be seen that the humidification amount is increased when the ventilation fan 140 is installed between the ventilation fan 140 and the humidifying filter 150 than when the ventilation plate 160 is not installed through the conventional example and the first to fifth embodiments .

Also, it can be seen from the comparison of the first to third embodiments that the amount of the humidification varies depending on the installation position of the shield plate 160 even when the shield plate 160 has the same shape. That is, the humidifying filter 150 is humidified so as to be positioned close to directly below the upper edge of the humidifying filter 150 as in Embodiment 3, as compared with the case where the shielding plate 160 is disposed apart from the upper end of the humidifying filter 150, The space between the blowing fan 140 and the humidifying filter 150 is completely cut off when installed in the apparatus 100, and the amount of humidification is further increased. In addition, as in Embodiment 3, when the blocking plate 160 is positioned apart from the upper end of the humidifying filter 150 as in Embodiment 2, the blocking plate 160 is located close to the lower edge of the humidifying filter 150 The space between the blowing fan 140 and the humidifying filter 150 is completely shut off and the upper part of the humidifying filter 150 is not blocked so that when the blocking plate is positioned as in Embodiment 3 than Embodiment 2 The flow area of the air passing through the humidifying filter 150 is increased and the humidification amount is increased.

Accordingly, it is most preferable that the shield plate 160 is installed in the humidifier 100 so as to be positioned close to directly below the upper edge of the humidifying filter 150 as in the third embodiment. Specifically, the blocking plate 160 is disposed between the blowing fan 140 and the humidifying filter 150 such that the other end 162 is separated from the rear surface of the humidifying filter 150 by 5 mm below the upper edge of the humidifying filter 150 .

It can be seen from the comparison of the third to fifth embodiments that the amount of humidification varies depending on the shape of the shield plate 160 even when the installation position of the shield plate 160 is the same. This, and the embodiment than in the case 2, the flow (F ₂₎ is to recognize the shape of the blocking plate 160, the air along the second flow (F ₂₎ is blocking plate having a shape as in Example 3 Example 4 In the case of a shape having a curved cross section, it is easy to get on the blocking plate 160. In the case of a flat shape as in the case of the fifth embodiment, 140). Accordingly, when a blocking plate having the same shape as that of the fourth embodiment is installed in the humidifier, the air according to the second flow F _{2 is} supplied to the humidifying filter 150), the passage flow area is large, the second stream when the blocking plate has the same shape as in example 4, when installed in the humidifier is cut off plate having a shape such as in example 3, rather than installed in the humidification apparatus (F ₂ Of the air passing through the humidifying filter 150 is further widened, thereby increasing the amount of humidification.

 Accordingly, it is most preferable that the shape of the blocking plate 160 has a shape having an L-shaped cross section perpendicularly bent downward from the lower end of the blowing fan 140 toward the rear surface of the humidifying filter 150.

The exemplary embodiments described above are intended to be illustrative, not limiting, in all aspects of the invention. Accordingly, the invention is capable of many modifications and detail in the art, which may be obtained from the teachings contained herein by those skilled in the art. All such modifications and variations are to be considered within the scope and spirit of the present invention as defined by the following claims.

100: Humidifier with blocking plate 110: Housing
120: air purifying filter 130: water tank
140: blower fan 150: humidifier filter
160:

Claims (5)

1. A humidification apparatus having a housing, a water tank, and a blocking plate including an air cleaning filter,
A blowing fan positioned inside the housing such that a front surface thereof is spaced apart from the air cleaning filter and sucking outside air;
A humidification filter which is located at a lower portion of the air blowing fan and is spaced apart from the air cleaning filter, and which is immersed in the water bath to absorb water; And
And a blocking plate disposed between the blowing fan and the humidifying filter and blocking a flow of air flowing into the space between the blowing fan and the humidifying filter,
Wherein the blocking plate has one end fixed to the lower portion of the blowing fan and the other end located close to the rear surface of the humidifying filter and below the upper edge of the humidifying filter,
Wherein the blocking plate has a shape having an L-shaped cross section perpendicularly bent downward from the lower end of the blowing fan and bent at a right angle toward a rear surface of the humidifying filter.
The method according to claim 1,
Wherein the ventilation fan is a bidirectional suction fan capable of sucking air in both front and rear directions.
delete delete 3. The method according to claim 1 or 2,
The air sucked by the blowing fan and flowed into the housing,
After being filtered in the air purifying filter,
And the second fan is sucked into the front face of the blowing fan and flows along the first flow discharged to the outside through the upper portion of the blowing fan,
The air is sucked to the rear surface of the air blowing fan and flows along a second flow which is discharged to the outside through the upper part of the air blowing fan,
The air flowing along the second flow is blocked by the blocking plate from flowing into the space between the blowing fan and the humidifying filter and sucked into the rear surface of the blowing fan only through the humidifying filter, And the flow area of the air flowing through the flow path is increased.

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