KR100483109B1 - Humidifying unit - Google Patents

Abstract

There is provided a humidifying unit that is small in thickness and allows installation in any place. A humidifying rotor (12), a moisture absorption fan (13) and a humidification fan (15) are disposed flatly so as not to overlap with each other for making the humidifying unit thinner. A humidification path Z is provided with a portion (Z1) curved in an approximate U or J shape. Thus, even when the humidifying rotor (12) and the humidification fan (15) are not overlapped but disposed flatly, humidified air sent from the humidifying rotor (12) can be led to the humidification fan (15) through the portion (Z1) curved in the U or J shape. There is disposed an electrical equipment box (28) between the humidifying rotor (12) and the humidification fan (15). <IMAGE>

Description

Humidification Unit {HUMIDIFYING UNIT}

This invention relates to a humidification unit which collects moisture from the air and humidifies the air to be supplied to the room, for example.

Conventionally, as this type of humidification unit, there are some as shown in Figs. The humidifying unit includes a disc-shaped humidifying rotor 2 made of an adsorbent such as silica gel or zeolite, a moisture absorbing fan 3 made of a sirocco fan, and a humidifying fan made of a sirocco fan (in a rectangular parallelepiped casing 1). 5), the electric heater 6, the moisture absorption duct 7, and the electrical equipment box 8 are arrange | positioned. The humidifying rotor 2, the humidifying fan 5, and the electric heater 6 are stacked in the vertical direction.

5 and 6, as indicated by arrow X, air flows through the moisture absorption path X. First, the humidification rotor 2 absorbs moisture from the outside air, and the moisture absorbed air is a moisture absorption duct. It is discharged | emitted from the moisture absorption fan 3 to the outside through (7). On the other hand, as indicated by the arrow Y, air flows through the humidifying passage Y, and first, the outside air is preheated through the heating area of the humidifying rotor 2 that is rotating, and then further heated by the electric heater 6. do. The heated air is humidified through the humidifying area containing the moisture of the humidifying rotor 2 to be humidified air, and the humidified air is sucked into the humidifying fan 5 below the humidifying rotor 2 to enter the room. Supplied.

By the way, in the conventional humidification unit, since the humidification rotor 2 and the humidification fan 5 are superimposed in the vertical direction, there is a problem that the thickness in the vertical direction becomes thick. In particular, since the humidification unit is often mounted on the outdoor unit, if the thickness in the up and down direction is thick, there is a problem that it does not enter the mounting space.

1 is a cross-sectional view of the humidifying unit of the embodiment of the present invention.

2 is a longitudinal sectional view of the embodiment.

3 is a cross-sectional view of the humidifying unit of another embodiment.

4 is a longitudinal cross-sectional view of the humidifying unit of another embodiment.

5 is a cross-sectional view of a conventional humidifying unit.

6 is a longitudinal sectional view of a conventional humidifying unit.

Therefore, the object of this invention is to provide a humidification unit which can be mounted anywhere because of its thickness is thin.

In order to solve the above problems, the humidification unit according to the present invention,

A humidifying rotor, a moisture absorbing fan for allowing air to flow through the humidifying passage through the humidifying rotor, a humidifying fan for flowing air to the humidifying passage passing through the humidifying rotor, and heating means for heating the air of the humidifying passage; In the humidifying unit, the humidifying rotor absorbs moisture from the air of the moisture absorption passage and humidifies the heated air of the humidification passage, wherein the humidification rotor, the humidification fan, and the moisture absorption fan are arranged in a plane so as not to overlap each other. In addition, the humidifying rotor has a disc shape, is arranged horizontally so that the top view is a disc, and the hygroscopic passage and the humidifying passage penetrate the humidifying rotor in the vertical direction.

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According to the above configuration, the humidifying rotor, the humidifying fan, and the moisture absorbing fan are arranged in a plane so as not to overlap each other, so that a thinning is achieved. Therefore, there is no restriction on the mounting space of the humidification unit.

In one embodiment, the humidifying passage has a portion bent in a substantially U or J shape connecting the one surface of the humidification rotor and the surface of the humidification fan on the same side as the one surface of the humidification rotor.

According to the above configuration, since the humidifying passage has a portion bent in a substantially U or J shape, the humidifying air from the humidifying rotor, even if the humidifying rotor and the humidifying fan are arranged in a plane without overlapping, The portion bent in a U or J shape can guide the humidification fan. As a result, since it has this bent part in substantially U shape or J shape, it becomes possible to arrange a humidification rotor and a humidification fan in planar view.

In one embodiment. The electrical equipment box is arrange | positioned between the humidification rotor and the humidification fan, or between the humidification rotor and the moisture absorption fan.

According to the said structure, since the electrical equipment box is arrange | positioned between the humidification rotor and the humidification fan, or between the humidification rotor and the moisture absorption fan, the space between the humidification rotor and the humidification fan or the moisture absorption fan is effectively used. The structure can be made compact.

In one embodiment, the electrical equipment box is not provided, and the electrical equipment is connected to the electrical equipment in the electrical equipment box of the outdoor unit.

According to the above structure, the humidification unit has no electrical equipment box, and the structure of the humidification unit can be simplified by using the electrical equipment box of the outdoor unit as the humidification unit.

Hereinafter, this invention is demonstrated in detail by the Example of illustration.

As shown in FIG. 1, 2, this humidification unit is equipped with the disk-shaped humidification rotor 12 in the center of the substantially rectangular parallelepiped casing 11. As shown in FIG. The humidification rotor 12 is formed by forming an adsorbent such as silica gel, zeolite, alumina, or the like into a honeycomb shape or a porous porous grain shape. The humidification rotor 12 is rotated by a thin motor (not shown). Further, in the casing 11, a moisture absorbing fan, which is a sirocco fan, is provided on the left side of the humidification rotor 12, and a humidification fan 15, which is a sirocco fan, is provided on the right side of the humidification rotor 12. have. The humidification rotor 12, the moisture absorption fan 13, and the humidification fan 15 are arranged in a plane so as not to overlap each other.

As shown in FIG. 2, above the humidification rotor 12, the electric heater 16 as a heating means is provided. Moreover, the electrical equipment box 18 is installed above the humidification fan 15. In addition, above the humidification rotor 12 and the moisture absorption fan 13, a moisture absorption duct 17 is formed to form a part of the moisture absorption passage X. As shown by an arrow X, the moisture absorbed air flows into the said moisture absorption path | route X, and humidification air flows into the humidification path | route Z as shown by the arrow Z. As shown in FIG. 2, the humidifying passage Z has a portion Z1 that is bent in a substantially U or J shape. Accordingly, the humidifying air from the humidifying rotor 12 is guided to the humidifying fan 15 by the portion Z1 bent in the U or J shape.

In the above configuration, as shown by arrows X in FIG. 1 and 2, air flows through the moisture absorption path X. First, the humidification rotor 12 absorbs moisture from the outside air. Passed through the moisture absorption duct 17 is discharged from the moisture absorption fan 13 to the outside. On the other hand, as shown by the arrow Z, air flows through the humidification passage Z, and first, the outside air is preheated through the heating area of the humidifying rotor 12 which is rotating, and then further heated by the electric heater 16. Heated. The heated air is humidified through a humidifying region containing moisture in the humidification rotor 12 to be humidified air, and the humidified air passes through a portion Z1 bent in a substantially U or J shape. , It is sucked into the humidification fan 15, and moreover, it is supplied from the humidification fan 15 to the room.

Thus, in this embodiment, since the humidification rotor 12, the moisture absorption fan 13, and the humidification fan 15 are arrange | positioned in planar manner so that they do not overlap with each other, a heating unit becomes thin. As a result, the height of the humidification unit is lowered. Therefore, the humidifying unit can be installed in a narrow space above the outdoor unit.

Moreover, since the part Z1 bent in substantially U shape or J shape is provided in the said humidification path | pass Z, even if the humidification rotor 12 and the humidification fan 15 do not overlap, but arrange | positioned in plane, The humidifying air from the humidifying rotor 12 can be led to the humidifying fan 15 through the U- or J-shaped bent portion Z1. As a result, since the portion Z1 is bent in a substantially U or J shape, it is possible to arrange the humidification rotor 12 and the humidification fan 15 in a planar manner.

3 shows another embodiment, which differs from the embodiment of FIGS. 1 and 2 only in the arrangement of the electrical equipment box 28. Therefore, the same components as those in FIGS. 1 and 2 are assigned the same reference numerals and will not be described.

In this embodiment, as shown in FIG. 3, the electrical equipment box 28 is arrange | positioned in the space between the humidification rotor 12 and the humidification fan 15. As shown in FIG. Thus, since the electrical equipment box 28 is arrange | positioned between the humidification rotor 12 and the humidification fan 15, the space between the humidification rotor 12 and the humidification fan 15 is effectively utilized. Thus, the structure can be made compact.

In the above embodiment, the electrical equipment box 28 is disposed between the humidification rotor 12 and the humidification fan 15, but the electrical equipment box is arranged between the humidification rotor 12 and the moisture absorption fan 13. Also good.

4 shows another embodiment, which is not equipped with an electrical equipment box, and the electrical equipment not shown is connected to the electrical equipment in the electrical equipment box of an outdoor unit (not shown).

According to the above structure, the humidification unit does not have an electrical equipment box, and the structure of the humidification unit is simplified by using the electrical equipment box of the outdoor unit as a humidification unit.

In the above embodiment, an electric heater is used as the heating means, but a hot water heater or a condenser may be used in place of the electric heater.

In addition, in the said Example, although the moisture absorption fan 13 and the humidification fan 15 were provided downstream of the humidification rotor 12, you may install in the upstream of the humidification rotor 12. As shown in FIG. In addition, the moisture absorption fan and the humidification fan may be fans other than the Shirkoko fan.

As is apparent from the above, the humidifying unit of the present invention is arranged in a plane such that the humidifying rotor, the humidifying fan and the moisture absorbing fan do not overlap each other, so that the mounting space can be reduced.

In the humidifying unit of one embodiment, since the humidifying passage has a portion bent in a substantially U or J shape, even if the humidifying rotor and the humidifying fan are arranged in a plane without overlapping, the humidifying air from the humidifying rotor is removed. By this, U- or J-shaped bent portion can be guided to the humidification fan. As a result, since the part has a curved portion having a substantially U or J shape, it is possible to arrange the humidification rotor and the humidification fan in a planar manner.

Since the humidification unit of one embodiment arranges the electrical equipment box between the humidification rotor and the humidification fan, or between the humidification rotor and the moisture absorption fan, the space between the humidification rotor and the humidification fan or the moisture absorption fan can be effectively used. The structure can be made compact.

In the humidification unit of the embodiment, the structure of the humidification unit is simplified because the electronics box of the outdoor unit is also used for the humidification unit without the electronics box.

Claims (4)

Air is supplied to the humidification rotor 12, the moisture absorption fan 13 through which the air flows through the humidification passage X via the humidification rotor 12, and the humidification passage Z via the humidification rotor 12. And a humidifying fan 15 for flowing and a heating means 16 for heating the air in the humidifying passage Z. The humidifying rotor 12 absorbs moisture from the air in the moisture absorbing passage X. In the humidifying unit for humidifying the heated air of the humidification passage (Z), The humidifying rotor 12, the humidifying fan 15, and the moisture absorbing fan 13 are disposed in a plane so as not to overlap each other up and down, and further, The humidifying rotor 12 has a disc shape, is arranged horizontally so that the top view becomes a disc, The humidifying passage (X) and the humidifying passage (Z), characterized in that the humidifying rotor 12 penetrates in the vertical direction. The humidification passage (Z) according to claim 1, wherein A portion Z1 bent in a substantially U or J shape that connects one surface of the humidification rotor 12 with a surface of the humidification fan 15 on the same side as the one surface of the humidification rotor 12. Humidification unit characterized in that it has. The electrical equipment box 28 according to claim 1 or 2, wherein the electric box 28 is provided between the humidification rotor 12 and the humidification fan 15 or between the humidification rotor 12 and the moisture absorption fan 13. Humidification unit, characterized in that the arrangement. The humidifying unit according to claim 1 or 2, wherein the electric equipment is not provided, and the electric equipment is connected to the electric equipment in the electric equipment box of the outdoor unit.