KR100676254B1 - Distributing duct and ventilation apparatus having it - Google Patents

Abstract

A distributing duct and a ventilation system having the same are provided to inhale proper amounts of air for each of rooms having different volumes and reduce resistance in air flow for reducing noise and vibration. A ventilation system comprises a casing, a room air inlet(13) and an atmospheric air outlet(12) formed at an indoor side of the casing, and a room air outlet(14) and an atmospheric air inlet(11) formed at an outdoor side of the casing. First and second distributing ducts(5,6) in the same structure are connected to the room air inlet or the atmospheric air outlet. The first distributing duct has an inlet part(51) to be coupled with the room air inlet formed with a diameter equal to or similar with that of room air inlet, wherein the inlet part has a predetermined length for preventing air leakage. The first distributing duct has outlet parts(52,53) branched from the inlet part at a branch part(55). The branched outlet parts are arranged in parallel to each other and have different diameters to be connected to rooms of different volumes. The distributing ducts have no parts disturbing air flow for preventing generation of resistance in the air flow.

Description

Distributing duct and Ventilation Apparatus having it}

1 is a perspective view showing a ventilation device according to an embodiment of the present invention.

Figure 2a is a front view showing the distribution duct of the ventilation apparatus according to the embodiment of the present invention.

Figure 2b is a cross-sectional view showing the distribution duct of the ventilation apparatus according to the embodiment of the present invention.

* Description of symbols on the main parts of the drawings *

1: casing 2: heating element

3: exhaust fan 4: intake fan

5: 1st distribution duct 6: 2nd distribution duct

7, 8: partition plate 11: outdoor unit inlet

12: outdoor unit outlet 13: indoor unit inlet

14: indoor unit outlet A: outdoor unit inflow passage

B: Outflow channel of outdoor unit C: Inflow channel of indoor unit

D: Indoor unit discharge passage

The present invention relates to a ventilator, and more particularly to a ventilator that can efficiently intake or exhaust air by varying the air distribution ratio in the indoor space having different volumes.

In general, the ventilation device is a device for exchanging indoor air and outdoor air to discharge pollutants and odors of the indoor air to the outside, and to introduce fresh air into the room. The ventilator has a duct in the indoor side to supply the exchanged air, the indoor duct is provided with a branch pipe or a distribution duct to supply the ventilated air to a plurality of indoor spaces, such as living room and room.

However, the conventional ventilator requires a large amount of ventilated air in a large living room and a small amount of ventilated air in a small living room. There is a problem that the room is not efficiently ventilated by supplying the same amount of air.

In addition, the volume of the indoor space with a large volume of contaminated air must be exhausted even when exhausting, whereas the place where the volume is small should be reversed, the branch pipes of the exhaust duct are the same in diameter and exhaust the same amount. There is a problem that can not be effectively ventilated.

In addition, the air distribution structure and the structure of the distribution duct inside the ventilation device acts as a resistance, there is a problem that the noise and vibration occurs and the air volume decreases.

The present invention is to solve the above problems, an object of the present invention is to ventilate an appropriate amount of air in each indoor space by varying the diameter of the distribution duct connected to the indoor exhaust and / or air supply holes.

Ventilation apparatus according to an embodiment of the present invention to achieve this object, the casing, an indoor unit inlet formed on one side of the indoor side of the casing to discharge the indoor air to the outside, and to discharge the outdoor air to the indoor An outdoor unit discharge port formed at one side of the indoor side of the casing, one end is formed of a single pipe connected to the indoor unit inlet or the outdoor unit discharge port, and the other end is branched into a plurality of branch pipes having different diameters and pass through the respective branch pipes. It characterized in that it comprises a distribution duct formed to vary the flow rate of the air.

In addition, the inlet portion of the distribution duct is formed to have the same or similar diameter to the interior through-holes so that air does not leak, and is extended by a predetermined length and then divided into a plurality of pipes having different diameters, and then extended by a predetermined length. It is characterized by being formed.

In addition, the distribution duct is formed integrally and is provided with a plate-shaped connection portion on the outer periphery of the inlet is characterized in that coupled to the outside of the through hole of the casing.

In addition, the distribution duct according to an embodiment of the present invention, one end is formed of a single cylindrical pipe, the other end is divided into a plurality of pipes, but the diameter of each pipe is different from each other characterized in that the amount of fluid can be varied. do.

In addition, the distribution duct is characterized in that formed in one piece.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. 1 is a perspective view showing a ventilation device according to an embodiment of the present invention.

Ventilation device according to the present invention has a box-shaped casing (1), the indoor unit inlet 13, the outdoor unit outlet 12 is formed on the indoor side. In addition, the outdoor side inlet 11, the indoor unit outlet 14 is formed on the outdoor side side to suck the indoor air to discharge the outdoor, and to suck the outdoor air to supply the indoor. Such indoor side and outdoor side will generally be arranged to face each other. The first distribution duct 5 is located in front of the indoor unit inlet 13, and the second distribution duct 6 is located in front of the outdoor unit outlet 12.

In the casing 1, partition plates 7 and 8, which are plate-shaped members, are provided in the horizontal and vertical directions around the heating element 2 to form a flow path so that outdoor air and indoor air are not mixed inside. . In this case, four basic flow paths are formed in the casing 1 due to the inlets 11 and 13, the outlets 12 and 14, and the partition plates 7 and 8. They pass through the outdoor unit inlet 11 to the outdoor unit inlet flow path (A) to the heating element (2), and the outdoor unit outlet passage (B) from the heating element (2) through the intake fan (4) to the outdoor unit outlet (12). And an indoor unit inflow passage C leading through the indoor unit inlet 13 to the heating element 2 and an indoor unit outlet passage through the heating element 2 through the exhaust fan 3 to the indoor unit outlet 14. D) is it.

The heat transfer element 2 is rotated at an angle of about 45 ° so as to exchange heat and moisture while the air crosses in both directions in the center of the casing 1 in a hexahedral shape. The heating element 2 has a layered structure therein so that air cannot flow in the other direction when the air flows in and passes in one direction. The layered structure of the heat transfer element 2 serves to absorb and exchange moisture and heat of outdoor air and indoor air passing in different directions.

An exhaust fan 3 is installed on the indoor unit discharge path D inside the casing 1, and an intake fan 4 is installed on the outdoor unit discharge path B. The intake fan 3 and the exhaust fan 4 uses a sirocco fan due to characteristics such as noise to discharge the air sucked upward. The fan guide 31 is mounted between the exhaust fan 3 and the indoor unit outlet 14 to increase the exhaust efficiency. The fan guide 41 is also mounted between the intake fan 4 and the outdoor unit outlet 12 to supply air efficiency. Will increase.

  The intake fan 4 sucks outdoor air from the outdoor air inlet 11 and supplies air to the indoor air through the outdoor air outlet 12 and the second distribution duct 6 through the heating element 2. The exhaust fan 3 sucks contaminated indoor air through the first distribution duct 5 and the indoor unit inlet 13, and discharges the contaminated indoor air to the outside through the indoor unit outlet 14 through the heating element 2. do.

The first distribution duct 5 is coupled to the front of the indoor unit inlet 13, and the diameter of the inlet 51 is formed to be the same as or similar to the diameter of the inlet 13 and extends by a predetermined length, and air is leaked. Do not However, the outlet portion is divided into a plurality of branch pipes 52 and 53 to suck air from each space in the room. Conventional branch tubes have a structure in which identical tubes having the same diameter are arranged in parallel. However, as described above, since the size (volume) of each space in the room is different from each other, ventilating the same amount of air to all spaces equally has a problem in that the ventilation is not performed efficiently and acts as a resistance.

Therefore, the branch pipes 52 and 53 of the first distribution duct 5 according to the embodiment of the present invention are formed to have different diameters and extend by a predetermined length to be connected to the indoor pipe (not shown). The large branch pipe 52 has a diameter (D) larger than the diameter (d) of the small branch pipe 53, and will mainly communicate with a large space such as a living room and kitchen, and the small branch pipe 53 will be larger than the large branch pipe 52. Since the diameter is small, it may be desirable to communicate mainly with a small volume, such as a room. Therefore, the branch pipes 52 and 53 intake an amount of air proportional to the diameter of the branch pipes 52 and 53 from the communicating spaces and discharge the air to the outside.

The second distribution duct 6 is coupled to the front of the outdoor unit outlet 12. The second distribution duct 6 serves to distribute the introduced outdoor unit to each space in the room. The configuration and connection place are the same as those of the first distribution duct 5 described above. That is, the large branch pipe 62 will be connected to a large space such as a living room or kitchen, and the small branch pipe 63 will communicate with a small volume such as a room. The large branch pipes 52 and 62 of the first distribution duct 5 and the second distribution duct 6 are connected to the same space to suck the indoor unit in the space, and introduce the outdoor unit into the space. The same applies to the small branch pipes 53 and 63.

Figure 2a is a front view showing the distribution duct of the ventilation apparatus according to the embodiment of the present invention, Figure 2b is a cross-sectional view showing the distribution duct of the ventilation apparatus according to the embodiment of the present invention.

Since the configurations of the first distribution duct 5 and the second distribution duct 6 are the same, the first distribution duct 5 will be described below. When the first distribution duct 5 is viewed from the front, the inlets of the two branch pipes 52 and 53 are visible. The diameter of the large branch pipe 52 is "D", the diameter of the small branch pipe 53 is "d", and D> d. Between these branch pipes 52, 53 there is a separation 55, where the two branch pipes 52, 53 have begun to diverge at the inlet 51 of the first distribution duct 5. Unlike the existing distribution duct structure, such a distribution duct has no portion that blocks the flow of air, thereby reducing resistance.

The outer portion of the inlet portion 51 is formed to be coupled to the indoor unit inlet (13) without a separate protruding duct structure while preventing the leakage of air extending the predetermined area 54 is a flat plate. It may be combined with screws or rivets. Therefore, the distribution ducts 5 and 6 according to the embodiment of the present invention are applicable to the existing ventilation apparatus without a separate connection device, and have an advantage of appropriately distributing the air amount.

Referring to FIG. 2A, the first distribution duct 5 has an inlet portion 51 formed as a cylindrical single tube, and a coupling portion 54 is provided around the first distribution duct 5. The inlet portion 51 is formed by the tapered portion 51a is narrowed and extended by a predetermined length, and is further divided into a large branch pipe 52 and a small branch pipe 53 while the diameter increases. Where the large branch pipe 52 and the small branch pipe 53 is divided, the separating portion 55 is formed. The diameter of the branch pipes 52 and 53 and the difference are design values determined in consideration of the capacity of the ventilator and the volume of the room.

The ventilator according to an embodiment of the present invention discloses a distribution duct having two branch pipes 52 and 53, but the branch pipes may be provided as many as necessary, which is easy for those skilled in the art from the embodiments of the present invention. Can be derived.

With reference to the drawings will be described the operation and effect of the ventilation device according to an embodiment of the present invention.

When power is applied to the exhaust fan 3 and the intake fan 4, the outdoor unit flows in through the outdoor unit inlet 11. As the outdoor unit passes through the outdoor unit inflow passage (A) and passes through the heating element (2), the temperature increases due to the heat exchanged by the indoor unit. The outdoor unit having the increased temperature is supplied to the room through the second distribution duct 6 through the outdoor unit discharge port 12 via the intake fan 4 installed on the outdoor unit discharge path B. At this time, the large branch pipe 62 of the second distribution duct 6 communicates with a large indoor space such as a living room to supply a large amount of fresh outdoor air, and the small branch pipe 63 has a smaller amount of outdoor air. Will be supplied.

On the other hand, indoor polluted air is discharged to the outside through the first distribution duct (5), which is also a large branch pipe 52 communicates with a large indoor space such as a living room to discharge a large amount of polluted air to the outdoors In addition, the small branch pipe 53 will discharge a smaller amount of indoor air to the outside. The air passing through the first distribution duct 5 passes through the heat transfer element 2 through the indoor unit inflow passage C through the indoor unit inlet 13. The warm indoor air is cooled through heat exchange with the heating element 2 and then discharged to the outside through the indoor unit outlet 14 through the indoor unit discharge passage D. In addition, the dry indoor air is discharged to the outside with the moisture absorbed by the outdoor unit while passing through the heating element (2).

These processes may be controlled to occur simultaneously or independently. Ventilation device according to an embodiment of the present invention has the effect that it is possible to ventilate an appropriate amount of air for each indoor space having a different volume by changing only the distribution duct configuration.

As described in detail above, the ventilator according to the present invention can intake / exhaust an appropriate amount of air for each indoor space having a different volume from each other, thereby effectively ventilating the room.

In addition, the ventilation apparatus according to the embodiment of the present invention can intake / exhaust an appropriate amount of air in different indoor spaces by exchanging only the distribution ducts in the existing ventilation apparatus, so that the performance of the entire apparatus can be replaced by replacing one component. And the effect is greatly improved.

In addition, the ventilator according to the embodiment of the present invention has a structure that allows the distribution duct to smoothly flow air, and thus does not act as a resistance, thereby reducing noise and vibration and preventing air volume from being reduced.

Claims (5)

A casing, an indoor unit inlet formed at one side of the casing for discharging indoor air to the outside, an outdoor unit outlet formed at one side of the casing for discharging outdoor air, and one end thereof as a single pipe. And a distribution duct formed to be connected to the indoor unit inlet or the outdoor unit outlet and the other end to be branched into a plurality of branch pipes having different diameters so as to vary the flow rate of air passing through the respective branch pipes. Ventilation. The ventilator of claim 1, wherein the one end of the distribution duct is formed to have the same or similar diameter as the indoor unit inlet or the outdoor unit outlet so that air does not leak. The ventilator according to claim 2, wherein the distribution duct is integrally formed and is provided outside the one end of the casing and the outside of the indoor unit inlet of the casing by having a flat coupling portion formed at an outer circumference of the one end. delete delete

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