KR20160134461A - Humidification unit - Google Patents

Abstract

The present invention provides a humidification unit capable of humidifying using steam by being installed in a narrow space. According to the present invention, the humidification unit includes: a humidification chamber box (1) for mixing air for air conditioning and the steam; and a mixing device (2) generating two vortexes (F, G) using the air for the air conditioning and mixing the vortex with the steam. The mixing device (2) includes: a diverging member (3) dividing the air for the air conditioning into first divided air (A), second divided air (B), and third divided air (C) and generating a first vortex (F) from the first divided air (A); a first guide unit (4) guiding a flow path of the third divided air (C) to face the first divided air (A) flowing into a lower area of the first vortex (F); and a second guide unit (5) generating a second vortex (G) by guiding the flow path of the second divided air (B) to come into contact with the third divided air (C) flowing to the lower area of the first vortex (F).

Description

Humidification unit {HUMIDIFICATION UNIT}

The present invention relates to a humidifying unit which can be connected to an air conditioner or a duct installed in a ceiling of a building such as an office or a hotel.

According to the prior art, in the case of humidifying the air for air conditioning using steam, a large range of space for installing the humidification device is required because the evaporation absorption distance until the steam is absorbed into the air for air conditioning is long.

Japanese Patent Application Laid-Open No. 2004-245538

For this reason, there is a problem that it is not easy to perform steam humidification only with a small air conditioner such as a fan coil unit used in a narrow space such as a ceiling of a building.

In order to solve such a problem, the present invention provides a humidifying chamber box for humidifying the air for air conditioning by mixing air for air conditioning and steam inside, and a humidifying chamber box for humidifying the air, And a mixing mechanism provided inside the chamber box for humidification so as to mix the steam with the generated swirl flow.

The mixing mechanism may further include a branching member installed to branch the air for air conditioning into the first air stream, the second air stream and the third air stream and generate a first swirl stream from the first air stream, A first guide portion installed to guide a movement path of the third divided air so as to face the first divided air moved to the downstream region of the first swirling flow; And a second guide part installed to guide the movement path of the second air to contact with the air to generate a second swirling flow.

In addition, the branch member may be configured to pass the air for air conditioning so as to form four gaps for generating the second air, the third air, the fourth air, and the fifth air, And an opening portion formed in the barrier portion to generate the first air flow and the first swirling flow by causing the air flow for the airflow to pass through the barrier portion, have.

The first guide portion may include a first wind direction adjustment plate that collides with the third air and directs the traveling direction of the third air to the downstream region of the first swirling flow, And a second airflow control plate which collides with the second airflow and directs the traveling direction of the second airflow in a direction in contact with the third airflow.

The humidifier chamber box may further include a spray tube installed inside the chamber box to discharge steam in a region where the first swirl flow is generated.

The apparatus may further include an electrode type steam generator for transmitting steam to the atomizing tube, and the steam generator may include a step-up transformer for stepping up a voltage between the electrodes.

Further, the apparatus may further include a vaporization type humidifier for humidifying the air in the wind (on the windward side) of the atomization tube, and humidifying the humidification deficiency of the vaporization type humidifier by humidifying it in the dispersion tube .

According to the first and second aspects of the present invention, since the air for air conditioning surrounds the steam and the air for air-conditioning is mixed with the steam by generating two swirls, the vapor absorption of the air for air- The amount of vapor absorption per hour increases. Therefore, since the vapor absorption distance is shortened, the humidification space can be reduced and the humidification chamber box can be miniaturized. In addition, since the air for air conditioning surrounds the steam, the steam is not in direct contact with the inner surface of the chamber box for humidification, so that condensation or condensation does not occur, and insulation of the chamber box for humidification is not required. When the humidifying unit according to the present invention is installed on a ceiling of a narrow space such as an office or a hotel and connected directly to a small air conditioner such as a fan coil unit or through a duct, efficient steam humidification can be performed. Furthermore, if the air conditioner is already installed, it can be renewed at low cost by simply adding the humidification unit. In addition, even if the air is low in temperature and humidity, there is no fear of humidification due to the humidification due to the steam humidification, and the air conditioner for humidifying the outside air is not required by introducing the outside air directly into the small air conditioner such as the fan coil unit. . Since the noise energy of the air for air conditioning is greatly reduced by diffusion and reflection by the chamber box for humidification, it can be used under optimum conditions in a place where low noise is required, such as hotels, and air conditioning with excellent comfort can be performed .

According to the third aspect of the present invention, since the air velocity of the air conditioning air passing through the opening increases by the opening, the Reynolds number is increased, the first swirling flow is generated in the area downstream of the opening, Smooth humidification can be performed by mixing the steam. Moreover, since the simple structure can exert the above effect by forming the opening portion in the barrier portion, it can be manufactured at low cost.

According to the fourth aspect of the present invention, the second air stream and the third air stream are brought into contact with each other by the first and second airflow direction adjusting plates and the air for air conditioning is rotated, The air for air conditioning and the steam are mixed and smooth humidification can be performed. Moreover, since the above-mentioned effect can be exerted only by installing the first wind direction adjusting plate and the second wind direction adjusting plate, there is no need to divide the inside of the chamber box for humidification into many members, have,

According to the invention of claim 5 of the present invention, since the steam is discharged in the region where the first swirling flow is generated, the vapor absorption of the air for air-conditioning is efficiently and promptly carried out, thereby increasing the effective humidification amount.

According to the sixth aspect of the present invention, since the electrode type steam generator can use, for example, an electrode of 400 V at a power supply of 100 V, the electrode area is considerably reduced, so that the humidifier can be downsized . Therefore, it is possible to easily perform the steam humidification by installing the humidifying unit of the present invention in a narrow space such as a ceiling of an office or a hotel.

According to the invention of Claim 7 of the present application, since the humidification is performed in a vaporized humidifier which mainly consumes a small operating cost and the humidification is performed only in the case of an insufficient amount, the humidification cost is greatly reduced. Humidification heating and low-temperature humidification can be performed, thus achieving both energy saving and comfort.

1 is a side view of a humidifying unit installed in an air conditioner according to the present invention.
FIG. 2 is a view showing a view from above of FIG. 1; FIG.
FIG. 3 is a perspective view showing a state in which the humidifying chamber box is viewed from an oblique angle. FIG.
Fig. 4 is an enlarged view of the main part taken along the line X-X in Fig. 2;

1 to 4 show an embodiment of a humidifying unit according to the present invention. The humidifying unit according to the present embodiment includes a humidifying chamber box 1 for mixing the air for air conditioning and steam into the inside of the humidifying chamber 1 to absorb moisture of the vapor into the air for air conditioning, A vaporizing type humidifier 16 and a vapor humidifier 18 provided inside the chamber box 1 for humidification so as to generate two vortex flows F and G and mix them with the vapor . The thick dashed arrows in each figure show the flow of air for air conditioning.

The mixing mechanism 2 includes a branch member 3, a first guide portion 4, and a second guide portion 5. The branch member 3 divides the air for air conditioning into the first sorted air A, the second sorted air B and the third sorted air C and supplies the first swirled flow A F of the humidification chamber box 1 while the first air group A is moved between the second air group B and the third air group C.

The branch member (3) includes a barrier portion (9) and an opening portion (10). The air flow path inside the chamber box 1 for humidification is constituted by an inner surface portion 7 of the chamber box 1 for humidification. The outer surface portion 8 of the barrier portion 9 is spaced apart from the inner surface portion 7 so as to form four gap portions 6 Top, bottom, left, right). The second sorting air B, the third sorting air C, the fourth sorting air D and the fifth sorting air E are generated by passing the air for air conditioning through the four gap portions 6, respectively. The branch member 3 is supported by a member (not shown) in the chamber box 1 for humidification.

The opening portion 10 is formed in the barrier portion 9 along a line extending in the horizontal direction across the air flow of air for air conditioning. So that the air for air conditioning is allowed to escape to the barrier portion 9 to generate the first sorted air A. The first sorting air A is moved so as to be surrounded by the second sorting air B, the third sorting air C, the fourth sorting air D and the fifth sorting air E, (10) is formed in the barrier portion (9) at a position surrounded by the four gap portions (6).

The opening 10 causes the first circulating flow F in the downstream region due to contact with the edge of the opening 10 when the air for air conditioning passes through the opening 10. [ Since the cross-sectional area of air passage of the opening 10 is smaller than the cross-sectional area of the air passage of the air passage in the humidification chamber box 1, air for air conditioning passes through the opening 10 to increase the air velocity of the air- . Therefore, a first swirling flow F such as a Kalman vortex or a turbulent flow is generated in the downstream region of the opening 10. [

The first guide part 4 is provided with a humidifying chamber box 1 (first humidifying chamber) for humidifying the third divided air C toward the first sorted air A flowing into the area downstream of the first swirled flow F As shown in Fig. The second guide portion 5 allows the second divided air B to flow downward so as to pass through (contact with) the third divided air C flowing into the downstream region of the first swirled flow F And is installed inside the chamber box 1 for humidification so as to generate the second circulating flow G. For example, the second sorting air B is joined to the third sorting air C so that the second sorting air B passes through the third sorting air C on the downstream side of the position where the third sorting air C joins with the first sorting air A, And the second sorting air (C) and the second sorting air (B) rotate the air for air conditioning to generate the second circulating flow (G).

The first guide portion 4 includes a first windshield regulating plate 11 which makes the proceeding direction of the third sorted air C impinge on the downstream region of the first swirling flow F by colliding with the third sorted air C, . The second guide portion 5 is provided with a second air flow direction B which makes the second air flow C return in the direction of collision with the second air flow B, And a throttle plate 12.

The first wind direction adjustment plate 11 formed of a flat and thin plate is installed inside the chamber box 1 for humidification along a line extending in the horizontal direction across the air flow of air for air conditioning. The first wind direction adjustment plate 11 is disposed in the flow path of the third sort air C so as to project obliquely upward toward the downstream area of the first swirling flow F. [

The second wind direction regulating plate 12 formed of a flat and thin plate is installed inside the chamber box 1 for humidification along a line extending in the horizontal direction across the air flow of air for air conditioning. The second wind direction regulating plate 12 is symmetrically arranged with respect to the first wind direction regulating plate 11 in the downstream area of the first wind speed F so as to protrude obliquely downward toward the downstream area of the first wind speed F (B).

The steam humidifier 18 includes a steam pipe 13 installed inside the chamber box 1 for humidification so as to discharge steam in a region where the first swirling flow F is generated, And an electrode-type steam generator 14 for sending an electric signal. The electrode-type steam generator 14 generates a steam by applying a voltage between electrodes 17 and 17 immersed in water in a receiver 19 to flow a current and boiling the water in a joule heat. The steam generator (14) includes a step-up transformer (15) which boosts the voltage between the electrodes (17, 17). The amount of steam generated is controlled by varying the current value by increasing or decreasing the surface area of the electrode 17 in contact with water by the supply and exhaust of water.

The spray tube (13) has a plurality of spray holes (20) formed at a distance from each other in the axial direction of the tube. The steam for humidification is discharged from the steam generator 14 through the hose from the spray hole 20 of the spray pipe 13 at an oblique angle upward (downward). The spray pipe (13) is installed inside the barrier part (9) along a line extending in the horizontal direction across the air flow of air for air conditioning. The lower part of the barrier part 9 is formed in the shape of a receiving plate to receive the drain from the spray pipe 13 and discharge the drain to the drain pan 27 through the hose (bold line in FIG. 4). And humidifying the evaporative humidifier 16 by the evaporative humidifier 16 and replenishing the humidifying deficit of the evaporative humidifier 16 by the humidifying tube 13 by humidifying it.

The chamber box 1 for humidification is formed so that a part of the inner surface portion 7 constituting the air flow path is convex upward. Thus, condensation is prevented by the contact between the steam to be lifted and the inner surface portion 7 of the chamber box 1 for humidification. Further, due to such a shape, noise energy of the air for air conditioning is reduced by diffusion and reflection.

The air for air conditioning is delivered to the inside of the chamber box 1 for humidification in the air conditioner 23 having the heat exchanger 21 and the fan 22. The air inlet of the chamber box 1 for humidification is connected to the air blow-out port of the air conditioner 23 and is suspended from the ceiling together with the steam generator 14. The chamber box 24 for separation is connected to the air outlet of the chamber box 1 for humidification.

The heat exchanger 21 is formed by inserting a plurality of heat transfer tubes 26 into a plurality of heat transfer plates 25 and a heat exchanging medium flowing inside the heat transfer tubes 26 and air for air conditioning passing through the heat exchanger 21 Exchanges heat through the heat transfer pipe (26) and the heat transfer plate (25). As such a heat exchange medium, a heat source such as water or an aqueous solution may be used, or a refrigerant such as Freon or various other media may be used. The air for air conditioning such as outside air or ventilation is guided to the heat exchanger 21 by rotating the fan 22 to make hot air or cool air and the indoor air is introduced through the humidifying chamber box 1, the sorting chamber box 24, And supplies the air to the air-conditioned space such as the room.

In the interior of the humidification chamber box 1, the transferred air for air-conditioning impinges on the barrier portion 9 of the branching member 3 and flows out from the opening 10 and the four gap portions 6, The air is branched into the air A, the second air B, the third air C, the fourth air D and the fifth air E. Air for air conditioning passes through the opening portion 10, and a first swirling flow F is generated in a region downstream of the opening portion 10. The steam is discharged in the region where the first swirling flow F is generated, and the steam is absorbed by the air flow for air conditioning by the first swirling flow F, whereby the first humidification is performed. The humidified air for air conditioning flows to the downstream region of the first swirler F together with the remaining steam.

The third sort air (C) collides with the first guide portion (4) and flows into the downstream region of the first swirler flow (F). The second divided air B collides with the second guide portion 5 and flows to the downstream region of the first swirled flow F while passing through the third divided air C. The second sorting air B and the third sorting air C pass through each other to rotate, thereby generating the second circulating flow G. By this second swirling flow G, the remaining vapor is absorbed in the air for air conditioning, thereby performing the second humidification. The second humidified air for air conditioning flows into the air outlet of the chamber box (1) for humidification. The steam emitted from the spray pipe 13 is surrounded by the second air B, the third air C, the fourth air D and the fifth air E, So that it does not come into contact with the inner surface of the chamber box 1 for humidification.

The present invention is not limited to the above-described embodiments, but may be modified within the scope of the present invention as described below. For example, in this embodiment, although the chamber box 1 for humidification is directly connected to the air conditioner 23, both configurations can be connected through a duct. Also, the steam humidifier 18 may be replaced by various other methods such as a known electrothermal system in addition to the electrode system. It is also possible to install the evaporative humidifier 16 in the interior of the humidifying chamber box 1 instead of the inside of the air conditioner 23. Further, only the steam humidification by the steam humidifier 18 may be performed by omitting the evaporative humidifier 16. On the other hand, only the vaporization type humidifier 16 may be installed inside the chamber box 1 for humidification, omitting the steam humidifier 18, and accordingly, a vaporization type humidifier having a greatly improved saturation efficiency (humidification capability) do.

1: Humidification chamber box
2: Mixing mechanism
3:
4: first guide portion
5: second guide portion
6:
7: inner surface portion
8:
9:
10: opening
11: first wind direction control plate
12: Second wind direction control plate
13: Split
14: Steam generator
15: Step-up transformer
16: evaporative humidifier
17: Electrode
A: First classification air
B: Second classification air
C: Category 3 air
D: fourth classification air
E: Category 5 air
F: 1st swirl flow
G: 2nd swing flow

Claims (7)

A humidification chamber box 1 for humidifying the air for air conditioning by mixing air for air conditioning and steam in the interior of the chamber box 1, and two swirl flows F and G for air- And a mixing mechanism (2) installed in the chamber box (1) for humidification so that the air for air conditioning is mixed with the steam by the swirling flow.
The method according to claim 1,
The mixing mechanism (2)
The air for air conditioning is branched into the first air stream A, the second air stream B and the third air stream C and the first swirling flow F is generated from the first air stream A A branching member 3 provided so as to extend in the longitudinal direction,
A first guide portion 4 installed to guide the movement path of the third divided air C toward the first divided air A moved to a region downstream of the first swirled flow F,
So as to guide the movement route of the second sorting air (B) so as to be in contact with the third sorting air (C) moved to the downstream region of the first swirling flow (F) to generate the second swirling flow And a second guide portion (5) provided on the second guide portion.
3. The method of claim 2,
The branch member (3)
Four air gaps 6 (6) for generating the second air (B), the third air (C), the fourth air (D) and the fifth air (E) (9) provided so as to be spaced apart from the inner surface portion (7) of the humidifying chamber box (1)
(10) formed in the barrier portion (9) so as to generate the first air flow (A) and the first swirling flow (F) by allowing the air for air conditioning to escape from the barrier portion (9) And a humidifying unit for humidifying the humidifying unit.
The method according to claim 2 or 3,
The first guide part 4 is provided with a first wind direction which collides with the third air class C and directs the traveling direction of the third air class C to the downstream area of the first swirl F, And a throttle plate 11,
The second guide portion 5 is provided with a second guide portion 5 for colliding with the second divided air B and directing the proceeding direction of the second divided air B in a direction in contact with the third divided air C, And a wind direction adjusting plate (12).
The method according to claim 1,
(13) installed in the interior of the humidifying chamber box (1) so as to discharge steam in a region where the first swirling flow (F) is generated.
6. The method of claim 5,
Further comprising an electrode-type steam generator (14) for transferring the steam to the spray pipe (13)
Characterized in that the steam generator (14) comprises a step-up transformer (15) which boosts the voltage between the electrodes (17, 17).
The method according to claim 5 or 6,
Further comprising a vaporization type humidifier (16) for humidifying the dispersion tube (13) on the wind,
And a humidifying deficiency of the evaporative humidifier (16) is humidified and replenished in the spray tube (13).

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