KR20220109977A - Vortex-type inhalation ventilation module that increases the inhalation rate of local odor and moisture - Google Patents

Abstract

In accordance with one embodiment, a vortex-type suction ventilation module with an increased absorption rate of local odor and moisture, includes: a suction ventilation device attached to a ceiling wall through a frame, and located in the ceiling wall; and a vortex formation device combined with the suction ventilation device and placed in front of the suction ventilation device. The vertex formation device includes a vortex body part including a front part having a hollow hole and suctioning odor and moisture from a lower part of the ceiling wall, and a rear part coming in contact with the suction ventilation device. The suction ventilation device includes: a suction body part including a front part having a hollow hole and coming in contact with the rear part of the vortex formation device, and a rear part combining in contact with an outlet; and the outlet discharging the odor and the moisture suctioned from the front part of the vortex formation device.

Description

Vortex-type inhalation ventilation module that increases the inhalation rate of local odor and moisture

The present invention relates to a suction ventilation module, and more particularly, to a suction ventilation device attached to a ceiling wall through a frame and located inside the ceiling wall; and a vortex current forming device coupled to the suction ventilation device and disposed in front of the suction ventilation device, wherein the vortex current forming device forms a vortex in the lower part of the ceiling wall to remove the odor and the moisture from the lower part of the ceiling wall It relates to a vortex-type suction ventilation module that uses a vortex configured to be sucked into the vortex body part and increases the absorption rate of local odor and moisture.

BACKGROUND ART In general, an air purifier is a device for filtering contaminants such as various dusts, gases, odors, and smoke contained in indoor air in order to create a comfortable indoor environment.

Such an air purifier filters the polluted air through a filter unit that purifies the polluted air, deposits the pollutants on the filter, and supplies only the purified air back to the room using a blower or the like.

The air purifier is usually installed indoors or is embedded in the ceiling for collective cleaning of indoor air in offices and homes in which the space is partitioned into compartments, and is connected to the duct to be mounted.

Regarding such a duct-type air purifier, according to Japanese Patent Application Laid-Open No. 2002-061914 (February 28, 2002) of "ceiling-embedded air purifier" (hereinafter referred to as "prior document 1"), the The air in the room is sucked according to the air cleaner, the air is guided along the duct to the slit-shaped outlet installed on the ceiling, and the air is blown toward the room to form an air curtain. A technique has been announced.

According to the "air cleaning combined ventilation system" (hereinafter referred to as "prior document 2") of Korean Patent Publication No. 10-077254 (May 10, 2006), the structure of the ventilation system responsible for ventilation is By improving it so that it has the function of cleaning the air, one ventilation system can have two functions at the same time without having a separate air purifier, so that the convenience of consumers and more efficient air purification and air circulation can be achieved. technology has been announced.

However, the known duct-type air purifier has a problem in that it does not seek a way to increase the suction power of indoor air.

Japanese Laid-Open Patent Publication No. 2002-061914 (February 28, 2002) Republic of Korea Patent Publication No. 10-077254 (2006. 05. 10.)

Accordingly, the present invention has been devised to eliminate the above problems, and includes: a suction ventilation device attached to the ceiling wall through a frame and located inside the ceiling wall; and a vortex current forming device coupled to the suction ventilation device and disposed in front of the suction ventilation device, wherein the vortex current forming device forms a vortex in the lower part of the ceiling wall to remove the odor and the moisture from the lower part of the ceiling wall It has been completed as a technical task with a focus on a vortex-type suction ventilation module that uses a vortex configured to be sucked into the vortex body, and a vortex-type suction ventilation module that increases the absorption rate of local odor and moisture.

The problems of the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned will be clearly understood by those skilled in the art from the following description.

A vortex-type suction ventilation module with an increased absorption rate of local odor and moisture using a vortex according to an embodiment for solving the above problems is attached to the ceiling wall through a frame, the intake ventilation device located inside the ceiling wall; and a vortex-forming device coupled to the suction ventilation device and disposed in front of the suction ventilation device, wherein the vortex-forming device has a hollow front portion through which odors and moisture from a lower portion of the ceiling wall enter, and the suction and a vortex body portion including a rear portion in contact with the ventilation device, wherein the suction ventilation device has a hollow and a suction body portion including a front portion abutting the rear portion of the vortex flow forming device and a rear portion abutting an outlet, and the vortex forming device It characterized in that it comprises the outlet for discharging the odor and the moisture introduced from the front of the.

The vortex forming device may be configured to form a vortex in the lower part of the ceiling wall to suck the odor and the moisture from the lower part of the ceiling wall into the vortex body.

The suction ventilation device may further include a suction fan disposed in the hollow of the suction body portion, a rotation transmission shaft connected to the suction fan, and a suction actuator connected to the rotation transmission shaft.

The details of other embodiments are included in the detailed description and drawings.

According to the present invention, the suction ventilation device is attached to the ceiling wall through a frame and located inside the ceiling wall; and a vortex current forming device coupled to the suction ventilation device and disposed in front of the suction ventilation device, wherein the vortex current forming device forms a vortex in the lower part of the ceiling wall to remove the odor and the moisture from the lower part of the ceiling wall By providing a vortex-type suction ventilation module that uses a vortex configured to be sucked into the vortex body portion and has an increased rate of inhalation of local odor and moisture, there is an advantage in that the suction rate of local odor and moisture can be increased.

Effects according to the embodiments are not limited by the contents exemplified above, and more various effects are included in the present specification.

1 to 3 are perspective views of a vortex-type suction ventilation module having an increased absorption rate of local odor and moisture using a vortex according to an embodiment.
FIG. 4 is a cross-sectional view of a vortex-type suction ventilation module having an increased rate of inhalation of local odor and moisture using a vortex according to an embodiment of FIG. 1 .
5 is a cross-sectional view showing the vortex forming apparatus according to the embodiment of FIG.
6 is a cross-sectional view of the suction ventilation device according to the embodiment of FIG.
7 is a cross-sectional view of a vortex-type suction ventilation module in which a local odor and moisture inhalation rate using a vortex according to the embodiment of FIG. 4 is increased.
8 is a cross-sectional view of a vortex-type suction ventilation module with an increased rate of local odor and moisture inhalation using a vortex according to another embodiment.
9 is a cross-sectional view of a vortex forming device of a vortex-type suction ventilation module that uses a vortex according to another embodiment according to FIG. 8 to increase the absorption rate of local odor and moisture.
10 is a cross-sectional view of a vortex-type suction ventilation module that uses a vortex according to another embodiment to increase the absorption rate of local odor and moisture.
11 is a perspective view of a vortex-type suction ventilation module that uses a vortex according to another embodiment to increase the absorption rate of local odor and moisture.
12 is a cross-sectional view of a vortex forming apparatus according to another embodiment.
13 is a perspective view of a vortex forming apparatus according to another embodiment.
14 is a cross-sectional view of a vortex-type suction ventilation module with an increased rate of local odor and moisture inhalation using a vortex according to another embodiment.
15 is a cross-sectional view of a vortex forming apparatus according to another embodiment.
16 is a cross-sectional view of a vortex forming apparatus according to another embodiment.
17 is a cross-sectional view of a vortex forming apparatus according to another embodiment.

Hereinafter, with reference to the accompanying drawings, it will be collectively described for the configuration of the present invention, its action and effect.

Advantages and features of the present invention, and a method for achieving them will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and only this embodiment completes the disclosure of the present invention, and common knowledge in the technical field to which the present invention pertains It is provided to fully inform those who have the scope of the invention, and the present invention is only defined by the scope of the claims. In addition, like reference numerals refer to like elements throughout the specification.

1 to 3 are perspective views of a vortex-type suction ventilation module having an increased absorption rate of local odor and moisture using a vortex according to an embodiment.

1 to 3 , a vortex-type suction ventilation module 1 according to an embodiment may include a vortex-forming device 100 and a suction ventilation device 200 .

The vortex forming device 100 and the suction ventilation device 200 may be connected. The vortex forming device 100 and the suction ventilation device 200 may be fastened by a bolt/nut combination, but is not limited thereto. At the same time, the vortex forming device 100 and the suction ventilation device 200 are not manufactured integrally so that, when any one of them fails, only one that is broken can be replaced.

FIG. 4 is a cross-sectional view of a vortex-type suction ventilation module in which a local odor and moisture inhalation rate using a vortex according to an embodiment of FIG. 1 is increased.

Referring to FIG. 4 , the suction ventilation device 200 of the vortex type suction ventilation module 1 according to an embodiment may be connected (or attached) to the ceiling wall through the frame FR.

Although not shown, the suction ventilation device 200 may be located inside the ceiling wall, and the vortex forming device 100 connected to the suction ventilation device 200 may be located in front of the suction ventilation device 200 . The suction ventilation device 200 may be located on the same line as the ceiling wall, but is not limited thereto.

A local odor or moisture may be introduced under the ceiling wall through the vortex forming device 100 .

5 is a cross-sectional view showing the vortex forming apparatus according to the embodiment of FIG. 6 is a cross-sectional view of the suction ventilation device according to the embodiment of FIG. 7 is a cross-sectional view of a vortex-type suction ventilation module in which a local odor and moisture inhalation rate using a vortex according to the embodiment of FIG. 4 is increased.

5 and 7 , the vortex forming apparatus 100 may include a vortex body part 110 having a hollow shape. The vortex body part 110 may include a front part 110a through which bad odors and moisture are introduced under the ceiling wall, and a rear part 110b in contact with the suction ventilation device 200 . The vortex body part 110 may further include a side part 110c connecting the front part 110a and the rear part 110b. As shown in FIG. 5, the vortex body part 110 may have a rectangular shape, but is not limited thereto.

Meanwhile, the vortex forming apparatus 100 may further include vortex generating units 120 and 130 that directly contact the lateral portion 110c of the vortex body part 110 . The vortex generator 120 may include a first vortex generator 120 and a second vortex generator 130 positioned in front of the first vortex generator 120 . The second vortex generating unit 130 may serve to eject the outside air introduced from the first vortex generating unit 120 to the outside. As shown in FIG. 5 , the second vortex generator 130 is in direct contact with the lateral part 110c of the vortex body part 110 and generates a second vortex. The front part of the part 130 is located on the same line as the front part 110a of the vortex body part 110, and the rear part of the second vortex generator 130 may be in contact with the first vortex generator 120. . In addition, as shown in FIG. 5 , the second lateral portion of the second vortex generator 130 may have an oblique shape inclined with respect to the first lateral portion. The outside air introduced from the first vortex generator 120 is ejected to the outside through the second side part of the second vortex generator 130, and the second lateral part has an oblique shape inclined with respect to the first lateral part. By having, the external air discharged from the second side part may be ejected in an oblique direction, and thus, it may be easier to form a vortex.

The width (distance from the first lateral portion to the second lateral portion) of the second vortex generator 130 may be substantially greater than the width of the first vortex generator 120 . In addition, the width of the second lateral portion of the second vortex generator 130 may be greater than the width of the first vortex generator 120 . Due to this, the outdoor air is discharged from the second vortex generating unit 130 having a width greater than the width of the first vortex generating unit 120 , thereby increasing the outdoor air discharge area (or outdoor air discharge area), and at the same time discharge from the large discharge area The greater the amount of outside air that has been exhausted, and the greater the amount of outside air discharged with a large discharge area at the same time, the higher the possibility of vortex formation.

Typically, the flow rate of the outside air per cross-sectional area in the first vortex generator 120 and the second vortex generator 130 may be the same. That is, the width of the first vortex generator 120 is smaller than the width of the second lateral portion of the second vortex generator 130 per cross-sectional area in the first vortex generator 120 and the second vortex generator 130 . Since the flow rate of the outside air is the same, the flow rate of the outside air in the first vortex generating unit 120 may be greater than the flow rate of the outside air in the second lateral part of the second vortex generating unit 130 .

However, in order to form a vortex, it may be advantageous as there is more outdoor air discharged from a large cross-sectional area at the same time rather than a fast flow rate. Accordingly, by forming the width of the second lateral portion of the second vortex generator 130 according to the present embodiment to be larger than the width of the first vortex generator 120 , there is an advantage that the vortex can be formed more easily.

In addition, as described above, since the vortex is formed in a clockwise or counterclockwise direction, as shown in FIG. 5, for this, the extending direction of the second side part is designed as an oblique direction of the extending direction of the first side part, There is an advantage that a vortex can be formed more easily.

The outdoor air discharged from the second side portion forms a vortex, and the absorption rate of local odor and moisture may be increased.

The first vortex generating unit 120 may be connected to the vortex cooling fan mounting unit 140 for mounting the cooling fan F, as shown in FIG. 5 . The vortex cooling fan mounting unit 140 may have a hollow structure.

A first actuator (AC1), a cooling fan (F), and a first rotation transmission shaft 145 connecting the cooling fan (F) and the first actuator (AC1) are disposed in the vortex cooling fan mounting unit 140 . can A battery or a small generator for supplying electricity to the first actuator AC1 may be further disposed. The cooling fan F generates a rotational force from the first actuator AC1 , and may rotate by receiving the rotational force from the first rotational transmission shaft 145 . Outside air may be introduced into the vortex cooling fan mounting unit 140 through the cooling fan (F).

The outside air introduced into the vortex cooling fan mounting unit 140 may be provided to the first vortex generating unit 120 through the vortex flow passages 151 and 155 connected to the vortex cooling fan mounting unit 140 , respectively.

That is, the vortex flow passages 151 and 155 each have a hollow structure, and may serve to provide external air introduced into the vortex cooling fan mounting unit 140 to the first vortex generating unit 120 .

6 and 7, the suction ventilation device 200 has a hollow structure and is in contact with the rear part 110b of the vortex body part 110 of the vortex current forming device 100. The front part 210a) And it may include a suction body portion 210 including a rear portion in contact with the outlet 220.

A suction fan 230, a second rotation transmission shaft 235 connected to the suction fan 230, and a second actuator AC2 connected to the second rotation transmission shaft 235 are disposed in the suction body portion 210. can The suction fan 230 may include a central portion 231 directly connected to the second rotation transmission shaft 235 , and suction blades 233 connected to the central portion 231 .

The suction ventilation device 200 may further include an outlet 220 disposed on the rear portion of the suction body portion 210 . The outlet 220 has a hollow structure and may be connected to abutting the rear portion of the suction body portion 210 .

8 is a cross-sectional view of a vortex-type suction ventilation module with an increased rate of local odor and moisture inhalation using a vortex according to another embodiment. 9 is a cross-sectional view of a vortex forming device of a vortex-type suction ventilation module with an increased rate of inhalation of local odor and moisture using a vortex according to another embodiment of FIG. 8 . 10 is a cross-sectional view of a vortex-type suction ventilation module having an increased rate of local odor and moisture inhalation using a vortex according to another embodiment. 11 is a perspective view of a vortex-type suction ventilation module having an increased absorption rate of local odor and moisture using a vortex according to another embodiment.

8 to 11, the vortex-type suction ventilation module 2 according to the present embodiment is different from the vortex-type suction ventilation module 1 according to an embodiment in that it includes the vortex-forming device 100_1. do.

The vortex forming apparatus 100_1 according to the present embodiment comprises a second cooling fan 160 as a swirler fan for inducing vortex formation in the front of the front portion 110a of the vortex body part 110 to form a second cooling fan ( 160) may be positioned outside the vortex body part 110 to induce vortex formation.

The second cooling fan 160 may include a fan center portion 161 connected to the third rotation transmission shaft 115 , and a plurality of blades 165 positioned at both ends of the fan center portion 161 . The plurality of wings 165 may have a greater thickness than the fan center portion 161 . For this reason, the second cooling fan 160 may be a fan capable of forming a vortex along the edge during rotation.

12 is a cross-sectional view of a vortex forming apparatus according to another embodiment. 13 is a perspective view of a vortex forming apparatus according to another embodiment.

12 and 13 , the vortex current forming apparatus 100_2 according to the present embodiment has a groove pattern 110_P recessed in the lateral part of the vortex body part 110 in a direction away from the hollow of the vortex body part 110 . ) is different from the vortex forming apparatus 100_1 according to FIG. 9 in that it is formed.

The groove pattern 110_P recessed in a direction away from the hollow of the vortex body part 110 in the lateral part of the vortex body part 110 may extend along an oblique line from the front to the rear, as shown in FIG. 13 . . Accordingly, as shown in FIG. 12 (a cross-sectional view), the left groove patterns 110_P and the right groove patterns 110_P are formed to cross each other.

The vortex forming apparatus 100_2 according to the present embodiment has a groove pattern 110_P recessed in a direction away from the hollow of the vortex body part 110 in a lateral part of the vortex body part 110, and the groove pattern 110_P. By extending along an oblique line from the front to the rear, the vortex introduced through the front portion 110a of the vortex body part 110 may be stronger along the groove pattern 110_P extending from the front to the rear diagonally.

That is, due to the vortex formed more strongly, the suction rate of local malodor and moisture can be greatly increased.

14 is a cross-sectional view of a vortex-type suction ventilation module having an increased rate of inhalation of local odor and moisture using a vortex according to another embodiment.

Referring to FIG. 14 , the intake ventilation module 3 according to this embodiment rotates the suction fan 230 and the second cooling fan 160 together through the second actuator AC2, according to FIG. It is different from the intake ventilation module (2).

The second cooling fan 160 of the vortex forming apparatus 100_2 according to the present embodiment may be connected to the second rotation transmission shaft 235 and rotated through the second actuator AC2 .

That is, the second cooling fan 160 and the suction fan 230 may be located on the same axis.

According to this embodiment, in that the suction fan 230 and the second cooling fan 160 are rotated together through the second actuator AC2, the second cooling fan 160 of the vortex forming device 100_2 is separately installed. In that the actuator for rotation can be omitted, there is an advantage that cost can be reduced and the configuration can be simplified.

15 is a cross-sectional view of a vortex forming apparatus according to another embodiment. 16 is a cross-sectional view of a vortex forming apparatus according to another embodiment. 17 is a cross-sectional view of a vortex forming apparatus according to another embodiment.

15 to 17 , in the vortex forming apparatus 100_3 according to the present embodiment, a plurality of vortex outlets are formed in the second vortex generating unit 130_1 , the vortex forming apparatus 100 according to FIG. 5 . ) is different from

More specifically, a plurality of vortex outlets are formed in the second vortex generating unit 130_1.

The plurality of vortex outlets may be two or more. Although only two vortex outlets are illustrated in FIG. 15 , the present invention is not limited thereto, and three or more vortex outlets may be formed.

First, referring to FIG. 15 , the vortex outlets 151a and 151b may be respectively connected to the vortex flow path 151 . A flow valve 153 may be further disposed between the vortex flow path 151 and the vortex outlets 151a and 151b. The flow valve 153 may control the flow rate of external air introduced through each of the vortex outlets 151a and 151b.

The first vortex outlet 151a may be positioned above the second vortex outlet 151b, and the second vortex outlet 151b may be positioned lower than the first vortex outlet 151a. The end located near the second lateral portion of the second vortex generator 131_1 of the first vortex outlet 151a has a first width W1, and the second vortex generator 151b of the second vortex outlet 151b An end of 131_1 located near the second side portion may have a second width W2 .

The first width W1 may be the same as the second width W2 .

According to this embodiment, by adjusting the flow rate of the outside air discharged through the vortex outlet (151a, 151b) through the flow valve 153, there is an advantage that can form a vortex suitable for the purpose.

16 , the first width W1_1 of the first vortex outlet 151a_1 may be designed to be larger than the second width W2_1 of the second vortex outlet 151b_1.

The vortex formed from the first vortex outlet 151a may be located outside the vortex formed from the second vortex outlet 151b.

That is, the first width W1 may be designed to be larger than the second width W2 in order to form a stronger vortex located outside.

The vortex located outside may serve to widen the area occupied by the vortex. If the first width W1 is designed to be larger than the second width W2, the area (or size) of the vortex located outside may be increased.

17 , the second width W2_3 of the second vortex outlet 151b_2 may be designed to be larger than the first width W1_3 of the first vortex outlet 151a_2.

Although the present invention described above has been described with reference to an embodiment shown in the drawings, this is merely exemplary, and various modifications and equivalent other embodiments are possible by those skilled in the art. should be made clear. Accordingly, the true technical protection scope of the present invention should be construed by the appended claims, and all technical ideas within the equivalent scope should be construed as being included in the scope of the present invention.

100: vortex forming device
200: suction ventilation device

Claims (3)

a suction ventilation device attached to the ceiling wall through a frame and located inside the ceiling wall; and
and a vortex forming device coupled to the suction ventilation device and disposed in front of the suction ventilation device,
The vortex forming device includes a vortex body part having a hollow and including a front part through which odors and moisture from the lower part of the ceiling wall enter, and a rear part in contact with the suction ventilation device,
The suction ventilation device has a hollow and a suction body portion comprising a front portion in contact with the rear portion of the vortex body portion of the vortex current forming device and a rear portion in contact with the outlet, and
A vortex-type suction ventilation module with an increased rate of inhalation of local odor and moisture using a vortex, characterized in that it comprises the outlet for discharging the odor and the moisture introduced from the front part of the vortex forming device.
The method of claim 1,
The vortex forming device forms a vortex on the lower part of the ceiling wall and uses a vortex configured to suck the odor and the moisture from the lower part of the ceiling wall into the vortex body part. .
The method of claim 1,
The suction ventilation device is a suction fan disposed in the hollow of the suction body portion,
a rotation transmission shaft connected to the suction fan, and
A vortex-type suction ventilation module using a vortex that further includes a suction actuator connected to the rotation transmission shaft to increase the absorption rate of local odor and moisture.

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