KR102551811B1 - Ventilation system with space-specific ventilation control - Google Patents

Abstract

The ventilation system capable of controlling the amount of ventilation for each space of the present invention includes a ventilation control unit with a built-in air supply fan for supplying air to each space and an exhaust fan for discharging air from each space to the outdoors; a distributor formed so that an air supply space connected by the ventilation control unit and the air supply duct and an exhaust space connected by the ventilation control unit and the exhaust duct are partitioned from each other by a distribution partitioning plate; a plurality of distribution ducts connected to each space from the distributor and having an air supply distribution duct and an exhaust distribution duct for distributing air; and a plurality of distribution duct connection parts for connecting the distributor and the plurality of distribution ducts, respectively, and each of the distribution duct connection parts is an air supply passage to which the air supply distribution duct is coupled and an exhaust passage coupled to the exhaust distribution duct. A flow path partitioning plate partitioning the space is provided, and a motor damper for simultaneously controlling the flow of air moving through the supply air distribution duct and the exhaust distribution duct is provided on the flow path partitioning plate.

Description

Ventilation system with space-specific ventilation control

The present invention relates to a ventilation system, and more particularly, to a ventilation system capable of controlling the amount of ventilation for each space.

In general, the air in an enclosed space increases the content of carbon dioxide over time due to the breathing of living organisms, which interferes with the breathing of living organisms.

Therefore, when many people stay in a narrow space, such as an office or a house, it is necessary to frequently replace the indoor polluted air with fresh outdoor air through an indoor ventilation system. In the case of such an existing ventilation system, an air supply distributor connecting the air supply duct and each space and an exhaust distributor connecting the exhaust duct and each space are separately provided, so the cost of separately manufacturing the air supply distributor and the exhaust distributor is high.

On the other hand, the interior of an office or house is not composed of one space, but is often divided into several spaces. Accordingly, when configuring an indoor ventilation system, a diffuser connected to an exhaust duct and an air supply duct is installed in each space. it is normal

In addition, the amount of air supplied to each space is determined by the user manipulating the damper installed in the diffuser to determine the degree of opening of the damper, thereby determining the amount of air supplied to each space.

However, since the damper installed in the diffuser is usually installed on the ceiling, the user has to climb on a chair to operate the damper to adjust the damper, so it is inconvenient to operate the damper.

In addition, it was difficult to ventilate only some spaces in the room, and there was a problem in that all spaces had to be ventilated in order to ventilate some spaces.

In addition, as issues related to infectious diseases such as COVID-19 are emerging, indoor activities are increasing, and various indoor living environments are required, such as self-isolation within households.

In addition, in the case of hospitals, there are regulations for ventilation with a minimum ventilation amount of 6 times and a minimum amount of outside air intake of 2 times, and negative pressure and positive pressure must be formed depending on the use of individual spaces.

(Registered Patent Publication) No. 10-0725999 (Announcement: June 11, 2007)

An object of the present invention is to provide a ventilation system capable of controlling the amount of ventilation for each space, which can provide a higher air volume than the existing air volume to individual spaces as needed.

Another object of the present invention is to provide a ventilation system capable of controlling the amount of ventilation for each space capable of quickly discharging contaminants generated during food cooking.

In addition, to provide a ventilation system capable of controlling the amount of ventilation for each space that can easily implement a negative pressure room for patients to prevent infection.

In addition, it is possible to provide a ventilation system capable of controlling the amount of ventilation for each space, which can increase the efficiency of ventilation and save energy by intensively ventilating only the space that needs ventilation.

In addition, it is to provide a ventilation system capable of controlling the ventilation amount for each space, which can reduce power consumption by up to 66% when supplying the same air volume compared to the existing ventilation system.

A ventilation system capable of controlling the amount of ventilation for each space according to an aspect of the present invention for achieving the above object has a built-in air supply fan for supplying air to each space and an exhaust fan for discharging air from each space to the outdoors. ventilation control unit; a distributor formed so that an air supply space connected by the ventilation control unit and the air supply duct and an exhaust space connected by the ventilation control unit and the exhaust duct are partitioned from each other by a distribution partitioning plate; a plurality of distribution ducts connected to each space from the distributor and having an air supply distribution duct and an exhaust distribution duct for distributing air; and a plurality of distribution duct connection parts for connecting the distributor and the plurality of distribution ducts, each of the distribution duct connection parts being an air supply passage to which the air supply distribution duct is coupled and an exhaust passage coupled to the exhaust distribution duct. A passage partitioning plate partitioning the space may be provided, and a motor damper may be provided on the passage partitioning plate to simultaneously control the flow of air moving through the supply air distribution duct and the exhaust distribution duct.

In addition, a first prevention plate for preventing air from flowing into the exhaust passage from the air supply space may be provided at a boundary between the air supply space and the exhaust passage.

In addition, a second prevention plate for preventing air from flowing into the air supply passage from the exhaust space may be provided at a boundary between the exhaust space and the air supply passage.

Also, outputs of the air supply fan and the exhaust fan may be individually adjustable.

In addition, in order to form a partial space as a negative pressure, only the motor damper in the space where the negative pressure is to be formed is opened, all motor dampers in the remaining space are blocked, the output of the air supply fan is lowered, and the output of the exhaust fan can be increased. .

In addition, in order to form a positive pressure in a part of the space, only the motor damper in the space where the positive pressure is to be formed is opened, all motor dampers in the remaining space are blocked, the output of the air supply fan is increased, and the output of the exhaust fan is reduced. .

According to the ventilation system capable of controlling the amount of ventilation for each space according to the present invention, since only spaces requiring ventilation can be intensively ventilated, ventilation efficiency can be increased.

In addition, since air supply and exhaust can be controlled simultaneously, ventilation efficiency can be increased and power consumption required to operate the damper can be reduced.

In addition, contaminants generated during food cooking can be quickly discharged.

In addition, a negative pressure room for patients can be easily implemented to prevent infection.

In addition, compared to the existing ventilation system, it is possible to reduce power consumption by up to 66% when supplying the same air volume.

1 is a plan view showing a ventilation system capable of controlling the amount of ventilation for each space according to an embodiment of the present invention.
Figure 2 is a perspective view showing the ventilation system distributor shown in Figure 1;
3 to 4 are perspective views showing an air supply space and an exhaust space in the distributor shown in FIG. 2;
5 and 6 are conceptual diagrams illustrating a damper control concept for implementing negative pressure and positive pressure.
Figure 7 is a view showing the appearance of the air supply flow path and the exhaust flow path and the first prevention plate and the second prevention plate by enlarging 'A' in FIG.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. However, it goes without saying that the present invention is not limited to these embodiments and can be modified in various forms.

In the drawings, in order to clearly and concisely describe the present invention, parts not related to the description are omitted, and the same reference numerals are used for the same or extremely similar parts throughout the specification. In addition, in the drawings, the thickness, width, etc. are enlarged or reduced in order to make the description more clear, and the thickness, width, etc. of the present invention are not limited to those shown in the drawings.

And when a certain part "includes" another part throughout the specification, it does not exclude other parts unless otherwise stated, and may further include other parts.

Hereinafter, a ventilation system capable of controlling the amount of ventilation for each space according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a plan view illustrating a ventilation system capable of controlling ventilation amount for each space according to an embodiment of the present invention.

Referring to FIG. 1, a ventilation system capable of controlling the amount of ventilation for each space according to an embodiment of the present invention includes an air supply fan 110 for supplying air to each space and an exhaust fan for discharging air from each space to the outdoors. Ventilation control unit 100 with built-in 120; The air supply space 210 connected by the ventilation control unit 100 and the air supply duct 130 and the exhaust space 220 connected by the ventilation control unit 100 and the exhaust duct 140 form a distribution partition plate 202 Distributors 200 formed to be partitioned from each other by; A distribution duct 300 connected to each space from the distributor 200 to distribute air is provided.

Inside the ventilation control unit 100, there is a total heat exchanger (not shown) for exchanging heat between air discharged from the indoor to the outdoor and air introduced from the outdoor to the indoor, and a filter for removing dust and the like from the air flowing into the indoor (not shown). ) may be installed.

On the other hand, inside the ventilation control unit 100, an air supply fan 110 that generates pressure to supply outdoor air to the room and an exhaust fan 120 that generates pressure to discharge indoor air to the outdoors are installed. .

The air supply fan 110 and the exhaust fan 120 are installed to individually control their output. To this end, the air supply fan 110 and the exhaust fan 120 may each use a BLDC motor having adjustable rotation speed. A BLDC motor is a motor suitable for fine control of the supply fan 110 and the exhaust fan 120 because it is a motor capable of low noise, low power, and fine control.

The ventilation control unit 100 is connected to the distributor 200 by an air supply duct 130 and an exhaust duct 140.

The distributor 200 distributes and supplies the air supplied from the ventilation control unit 100 to each space, and serves to collect air discharged from each space and send it to the ventilation control unit 100.

In the case of the existing distributor, the air supply distributor and the exhaust distributor were provided separately. Accordingly, many dampers were required to control the supply air distributor and the exhaust distributor respectively, and each motor was required to drive the damper. Therefore, a lot of energy was consumed to control the damper.

However, in the ventilation system capable of controlling the amount of ventilation for each space according to an embodiment of the present invention, the supply air distributor and the exhaust distributor have an integrated form.

To explain this in more detail, the distributor will be described with reference to FIGS. 2 to 4 .

FIG. 2 is a perspective view showing the ventilation system distributor shown in FIG. 1 , and FIGS. 3 and 4 are perspective views showing an air supply space and an exhaust space in the distributor shown in FIG. 2 .

Referring to FIGS. 2 to 4 , the dispenser 200 is formed by a case 201 having a hexahedral shape as a whole. A distribution duct 300 connected to each space and distributing air is coupled to each side of the case 201 .

The middle portion of the upper and lower surfaces of the case 201 is partitioned by a distribution partitioning plate 202 . Accordingly, the interior of the distributor 200 is divided into an air supply space 210 and an exhaust space 220.

The air supply space 210 is formed on the upper part of the case 201 and connected to the air supply duct 130, and the exhaust space 220 is formed on the lower part of the case 201 and connected to the exhaust duct 140.

On the other hand, on the side of the case 201, where the air supply duct 130 and the exhaust duct 140 are not connected, a distribution duct 300 is connected to each space from the distributor 200 to distribute air.

To connect the distributor 200 and the distribution duct 300 to each other, a distribution duct connection part 250 is provided on the side of the distributor 200.

The distribution duct connection unit 250 includes a flow path partition plate 260 that partitions a space between an air supply passage 251 coupled to the air supply distribution duct 310 and an exhaust passage 252 coupled to the exhaust distribution duct 320. .

On the other hand, at the boundary between the air supply space 210 of the distributor 200 and the exhaust passage 252, a first prevention plate 231 for preventing air from flowing into the exhaust passage 252 from the air supply space 210 is provided. are provided

In addition, a second prevention plate 232 is provided at the boundary between the exhaust space 220 and the air supply passage 251 of the distributor 200 to prevent air from entering the air supply passage 251 from the exhaust space 220. .

Meanwhile, the distribution duct 300 includes an air supply distribution duct 310 connected to each space from the air supply space 210 to supply air, and an exhaust distribution duct 310 connected to the exhaust space 220 from each space to exhaust air. A duct 320 is provided.

The air supply distribution duct 310 and the exhaust distribution duct 320 are coupled to the air supply passage 251 and the exhaust passage 252 of the connection part 250, respectively.

In addition, a motor damper 270 for simultaneously controlling the flow of air moving through the supply air distribution duct 310 and the exhaust distribution duct 320 is provided in the passage partition plate 260 provided at the connection part 250.

The motor damper 270 includes a damper 271 having a straight plate shape, a rotary shaft 272 provided at the center of the damper 271 to rotate the damper 271, and providing power to the rotary shaft 272 It is provided with a step motor 273 that does. When the longitudinal direction of the damper 271 is rotated 90 degrees in a direction consistent with the longitudinal direction of the flow partition plate 260, the damper 271 is located in a direction crossing the air supply passage 251 and the exhaust passage 252 Thus, the air supply passage 251 and the exhaust passage 252 are blocked at the same time. In this way, the air supply passage 251 and the exhaust passage 252 are simultaneously controlled.

Hereinafter, a method of controlling a ventilation system capable of controlling ventilation amount for each space according to the above-described embodiment will be described.

5 and 6 are conceptual diagrams illustrating a damper control concept for implementing negative pressure and positive pressure.

Referring to FIG. 5 , in order to form a partial space or the entire space of each space with negative pressure, only the dampers in the space where the negative pressure is to be formed are opened, and all dampers in the remaining spaces are blocked.

5 shows an example in which only one room among spaces constituting a household is formed as a negative pressure room.

In this way, in a state in which only the damper 271 in the space where the negative pressure is to be formed is opened, the output of the air supply fan 110 is lowered and the output of the exhaust fan 120 is increased. Then, since the amount of air supplied to the space to be formed as negative pressure is reduced and the amount of air discharged is increased, negative pressure is applied to the space to be formed as negative pressure. Therefore, a person suspected of having an infectious disease can safely reside in a negative pressure space.

Referring to FIG. 6 , in order to form a positive pressure in some or all of the spaces, only the dampers 271 in the space to be positively pressured are opened, and all dampers in the other spaces are blocked.

6 shows an example in which only the kitchen space for cooking food is formed as a positive pressure chamber.

In this way, in a state in which only the damper 271 in the space where the positive pressure is to be formed is opened, the output of the air supply fan 110 is increased and the output of the exhaust fan 120 is decreased. Then, since the amount of air supplied to the space to be formed as positive pressure increases and the amount of air discharged decreases, the positive pressure is applied to the space to be formed as positive pressure. If positive pressure is applied to a space such as a kitchen where food is cooked, odors or contaminants generated during cooking can be quickly discharged to the outdoors.

In the above, the ventilation system capable of controlling the ventilation amount for each space according to the embodiment of the present invention has been described, but the spirit of the present invention is not limited to the embodiment presented herein. In addition, those skilled in the art who understand the spirit of the present invention may easily suggest other embodiments by adding, changing, deleting, adding, etc., components within the scope of the same spirit, but this is also within the spirit of the present invention. will say that

100: ventilation control unit 110: air supply fan
120: exhaust fan 130: air supply duct
140: exhaust duct 200: distributor
201: case 202: distribution planning plate
210: air supply space 220: exhaust space
250: distribution duct connection 300: distribution duct
310: supply air distribution duct 320: exhaust distribution duct

Claims (6)

A ventilation control unit with a built-in air supply fan for supplying air to each space and an exhaust fan for discharging air from each space to the outdoors;
a distributor formed so that an air supply space connected by the ventilation control unit and the air supply duct and an exhaust space connected by the ventilation control unit and the exhaust duct are partitioned from each other by a distribution partitioning plate;
a plurality of distribution ducts connected to each space from the distributor and having an air supply distribution duct and an exhaust distribution duct for distributing air; and
A plurality of distribution duct connection units for connecting the distributor and the plurality of distribution ducts, respectively;
Each of the distribution duct connection parts includes a flow partition plate for partitioning a space into an air supply passage to which the air supply distribution duct is coupled and an exhaust passage coupled to the exhaust distribution duct;
A motor damper for simultaneously controlling the flow of air moving through the supply air distribution duct and the exhaust distribution duct is provided on the passage partition plate,
A plurality of first prevention plates are provided at a boundary between the air supply space and the exhaust passage to prevent air from flowing into the exhaust passage from the air supply space;
A plurality of second prevention plates are provided at a boundary between the exhaust space and the air supply passage to prevent air from flowing into the air supply passage from the exhaust space;
The flow path partition plate arranges the air supply distribution duct and the exhaust distribution duct in the transverse direction to separate the air supply flow path and the exhaust flow path in the transverse direction,
The distributor has a case in which the first prevention plate, the second prevention plate, and the distribution duct are integrally formed on one surface for supplying air supply and exhaust,
The motor damper is formed on the flow passage partition plate and has a damper having a straight plate shape, the damper is located in a direction whose longitudinal direction coincides with the longitudinal direction of the flow passage partition plate, and the air supply passage and the exhaust A ventilation system capable of controlling the amount of ventilation for each space, characterized in that it simultaneously controls the inflow of air supply and exhaust while being positioned in a direction crossing the flow path. delete delete According to claim 1,
The ventilation system capable of controlling the ventilation amount for each space, characterized in that the air supply fan and the exhaust fan are formed to individually control output. According to claim 4,
In order to form a part of the space with negative pressure, only the motor damper in the space where the negative pressure is to be formed is opened, all of the motor dampers in the remaining space are blocked, the output of the air supply fan is lowered, and the output of the exhaust fan is increased. Ventilation system capable of controlling the amount of ventilation by space. According to claim 4,
In order to form a positive pressure in a part of the space, only the motor damper in the space where the positive pressure is to be formed is opened, all the motor dampers in the remaining space are blocked, the output of the air supply fan is increased, and the output of the exhaust fan is lowered. Ventilation system capable of controlling the amount of ventilation by space.

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