KR102064160B1 - Indoor Ventilation System Using a Corridor and Cracks - Google Patents

Abstract

The present invention relates to an indoor ventilation system using air of corridors or clearance spaces and, more specifically, to an indoor ventilation system which, in an inner space having the corridors or the clearance spaces, can introduce outdoor air in the corridors or the clearance spaces into the inside and discharge indoor air to the outside to reduce a temperature difference between the indoor air and the outdoor air, thereby minimizing an indoor heat loss. Moreover, the air can be circulated through the clearance spaces formed in a window frame, a door frame, or the like to minimize costs consumed to operate the system.

Description

Indoor Ventilation System Using a Corridor and Cracks

The present invention relates to an indoor ventilation system, and more particularly to an automatic ventilation management system that can minimize the energy loss of the room.

Indoor air pollution in schools, apartments and underground shopping centers in Korea is serious. In addition, there is a large amount of floating dust in the indoor air according to the indoor activity, and also the fine dust in China affects our country, which also pollutes much of the indoor air. Other pollutants that degrade indoor air quality include carbon dioxide, carbon monoxide, nitrogen dioxide, bacteria, formaldehyde, volatile organic compounds and organic aromatic compounds.

In addition, as the number of people within a certain area of the room increases the concentration of carbon dioxide by people's breathing, the carbon dioxide in the room can feel uncomfortable at 3% or more, and at least 10% of the carbon dioxide will cause dyspnea.

In particular, indoors such as school classrooms and offices cause eye or neck pain due to the generation of fine dust according to the activities of people, as well as inhaled dust causes various respiratory diseases and lung diseases.

Therefore, the government revised the School Health Act in March 2006 to provide a pleasant environment for the students and staff of the growing age, thereby contributing to the protection of health and streamlining school education. The amount of ventilation above the demand is required, and as a result, the demand for ventilation in school classrooms is greatly increased.

In addition, the recognition that the indoor air of the conventional building is the object of management was much lacking, the heating or cooling-oriented temperature management was all. However, due to the health problems due to the increase in air pollutants and the lack of oxygen, many technologies have been developed to clean indoor air.

Ventilation converts indoor polluted air into comfortable air, and indoor air (hereinafter referred to as betting) changes its state due to human activity, combustion of fuel, and generation of harmful substances. The cleanliness of air is judged by thermal conditions such as temperature and humidity, airflow conditions such as wind speed and wind direction, concentration and smell of dust, carbon dioxide, carbon monoxide, nitrogen oxides, bacteria, and other harmful substances. Is called. Ventilation aims to improve this air environment to be suitable for human health activities, meeting the needs of creating a thermal environment and preserving building goods.

However, when performing ventilation or operating the ventilation device, air and heat are exhausted together when the bet is discharged. That is, because the heat of the room is discharged along with the odor, in order to maintain the temperature of the indoor air to be maintained at a proper temperature, the boiler or the air conditioner must be continuously driven, a waste of power is generated. Specifically, the outdoor air (hereinafter referred to as outdoor air) introduced from the outside is not maintained at an appropriate temperature by a boiler or an air conditioner, so when the outdoor air enters the room, the temperature of the internal air increases in the summer, In winter, the temperature of the bet will be lower than the proper temperature, which makes you feel uncomfortable due to temperature change. Therefore, in order to keep the room at an appropriate temperature, the boiler must be operated continuously in winter to raise the room temperature, and in summer, the air conditioner must be continuously operated to lower the room temperature. There is a problem.

In addition, since indoor air discharged to the outside for the ventilation contains a large amount of thermal energy or cooling air, when the ventilation amount is increased, a large amount of thermal energy is necessarily released to the outside, thus reducing the loss of thermal energy due to the increase of the ventilation amount. There is a need to recover the thermal energy contained in the indoor air discharged to the outdoor.

In order to solve this problem, techniques have been proposed to heat the inside and outside air to prevent a sudden temperature change when the outside air is introduced, and to reduce the load of the air conditioner.

This prior art is generally provided with a total heat exchanger having a honeycomb flow path, thereby controlling the temperature of the outside air by allowing the inside and the outside air to heat exchange along each flow path. In the prior art as described above, heat is exchanged between the inside and the outside air by receiving the heat of the inside air passing through the flow path of the heat exchanger to the outside air, but the heat exchanger simply provides the flow path between the inside air and the outside air. Since the efficiency is lowered, unpleasant feelings remain in the inflow of outside air, and there is a limit in reducing the load of the air conditioner.

In accordance with the above-described circumstances, the present invention is to provide a technology relating to an energy-saving ventilation automatic system capable of introducing clean air while minimizing energy loss therein.

Next, the prior art existing in the field to which the technology of the present invention belongs will be briefly described, and then the technical matters to be made differently from the prior art will be described.

First, Korean Patent No. 10-0736707 (2007.07.06.) Relates to a ventilation heat recovery apparatus and method, and more specifically, an outlet 1 for discharging indoor air; An inlet port 2 for introducing outdoor air; A discharge fan (10) / inlet fan (20) mounted to each of the outlet and the inlet to forcibly discharge / inflow air; It includes a heat recovery means for maintaining the indoor temperature while removing the indoor odor by supplying to the outside air to recover the heat from the internal air discharged through the heat exchange medium when the internal / external air discharge / inflow by the discharge fan / inlet fan It is characterized in that it is described for a ventilation heat recovery device that can reduce the cost of operating the air conditioner because it is not necessary to operate the additional air conditioner to adjust the room temperature to the appropriate temperature (Patent Document 01).

In addition, Korean Patent Registration No. 10-1569270 (2015.11.09.) Relates to an indoor radon removal device having an air purifier, and specifically, removes contaminants and discharges air purifiers and contaminated air to generate oxygen. The present invention relates to an indoor radon removal device that maintains the air in a classroom including an air discharge pipe to be kept clean, and which can supplement the insufficient oxygen in a room such as a classroom to maintain an indoor oxygen concentration above a predetermined value (Patent Document 02).

However, the ventilation device including the air cleaner described in the patent document 2, if the management of the filter included in the air cleaner neglected, bacteria, fungi, such as bacteria, pollen dust, yellow dust, etc. attached to atopy or asthma may cause There is. In the method of performing heat exchange with a clean outside air in which the heat exchange medium phase-changed by heat of the polluted inside air discharged in Patent Document 1 is introduced, there is a significant problem of heat loss due to a sudden temperature difference between the inside air and the outside air.

In accordance with the above circumstances, the present invention is to provide a technology for an indoor ventilation system that can minimize the loss of heat energy of the interior in the room provided with a corridor or crevice space.

Korean Patent Registration No. 10-0736707 (2007.07.06.) Korean Patent Registration No. 10-1569270 (2015.11.09.)

The present invention was created to solve the above problems, and implements a ventilation system capable of minimizing the loss of heat energy generated in the indoor ventilation system as an indoor ventilation system that can be installed in a room equipped with a corridor or a niche space. There is a purpose.

In addition, the present invention is to provide a system for purification that is effectively replaced with the outside air by configuring the discharge route of the contaminated air of the entire interior space to cover the entire interior space so that the internal contaminated air does not remain in the interior space. .

In addition, the present invention has another object to maintain the indoor air in a clean state by automatically controlling the internal air discharge unit for discharging the indoor air to the outside and the external air inlet for introducing the external air into the room. .

In addition, the present invention has another object to implement a ventilation system that can perform indoor ventilation as a simple structure by installing a ventilation system on the window frame.

In the indoor ventilation system using a corridor or crevice space air according to an embodiment of the present invention, the indoor ventilation system is installed in a room provided with a corridor or a crevice space, the indoor ventilation system is the outside air in the corridor or crevice space External air inlet for sucking the air to supply the indoor air to remove the pollutants; An internal air discharge unit configured to discharge the contaminated internal air to the outside; Sensor unit; And a central control device connected to the sensor unit, wherein the internal air discharge unit is installed on a wall facing the wall surface on which the external air inlet unit is installed, and the internal air discharge unit and the external air inlet unit are positioned diagonally to each other. The external air inlet includes an external air supply pipe for introducing external air in a corridor or a crevice space, and an external air inlet pipe for introducing external air introduced into the external air supply pipe into the room, and the discharge direction of the external air inlet pipe is The inlet is adjusted to face one wall directly connected to the wall is installed, the angle of the external air inlet pipe is adjusted within the range of 5 to 30 degrees to the top relative to the horizontal plane, the measured value detected by the sensor unit is the central control The external air inlet and the internal air outlet by the command of the central controller. Using the air in the hall or interstitial space comprising the demand control system that is controlled is characterized in that it comprises the room ventilation system.

As an embodiment, the external air inlet is an external air inlet fan for sucking external air in a corridor or a crevice space, an external air supply pipe for introducing external air introduced into the inlet fan into the room, and installed in the external air supply pipe. An external air inlet switch for controlling the inflow of air, and an external air inlet pipe installed in the external air supply pipe and introducing the external air introduced into the external air supply pipe into the room, wherein the external air inlet fan and the external air inlet The switchgear can be controlled by the central controller.

In one embodiment, it may include a diffuser connected to the end of the external air inlet pipe.

As an embodiment, the internal air in the room may be automatically exhausted through the internal air discharge unit by the pressure of the external air introduced from the external air inlet.

In an embodiment, the internal air discharge unit may include an internal air discharge fan that sucks internal air in the room, an internal air discharge pipe that discharges internal air introduced into the inlet fan, and installed in the internal air discharge pipe to regulate the discharge of internal air. An internal air discharge switch, and an internal air discharge pipe installed at an end of the internal air discharge pipe and discharging the internal air discharged to the internal air discharge pipe to the outside, wherein the internal air discharge fan and the internal air discharge switch It can be controlled by a central controller.

In one embodiment, the outside air inlet may be installed in a window provided between the interior and the corridor or the gap space, the outside air inlet may be fixed by a fixing frame.

In one embodiment, the external air inlet fan may include one or more filter layers.

In one embodiment, the filter layer may include a filter on which activated carbon is adsorbed.

In one embodiment, the sensor unit at least one of a carbon dioxide sensor unit for detecting the concentration of carbon dioxide, a fine dust sensor unit for detecting the concentration of fine dust, a radon sensor unit for detecting radon and a gas sensor unit for detecting gaseous contaminants It may include.

In one embodiment, the external air supply pipe is connected to the inner wall surface of the indoor space is installed, one or more external air inlet pipe may be installed in the external air supply pipe.

In one embodiment, the external air supply pipe is connected to the ceiling surface of the interior space, one or more external air inlet pipe is installed on the external air supply pipe, the discharge direction of the external air inlet pipe is installed inlet It is adjusted to face one wall directly connected to the wall surface, the angle of the external air inlet pipe can be adjusted within the range of 5 to 30 degrees downward relative to the horizontal plane.

The present invention utilizes the niche space and the corridor, thereby minimizing the loss of heat energy of the internal space by absorbing the heat or cold air that is lost in the wall of the interior space to the outside air introduced into the corridor or the niche space without additional heat exchanger equipment In addition, by installing the outside air inlet between the interior and the corridor or the gap space, it is possible to install the outside air inlet without damaging the interior exterior wall.

In addition, the indoor ventilation system according to the present invention has an effect that the outside air introduced through the outside air inlet through the outside air inlet and the inside air outlet effectively spread throughout the entire interior space. That is, in the indoor ventilation system according to the present invention, the internal air outlet is installed on a wall facing the wall on which the external air inlet is installed, and the direction of the external air inlet pipe is adjusted to face one wall connected to the wall on which the inlet is installed. , The angle of the external air inlet pipe is adjusted within the range of 5 to 30 degrees to the top relative to the horizontal plane, it is possible to efficiently convert the contaminated air in the indoor space.

In addition, the present invention is not only convenient to operate the ventilation system by automatically operating or stopping the ventilation system according to the gas concentration value detected from the sensor unit, but also minimizes power consumption for operating the ventilation system. can do.

In addition, since the present invention introduces the outside air in the corridor or crevice space, the pollutant is relatively less in the outside air, and can be installed in the window frame as a simple structure to circulate the air in the corridor or crevice space and the indoor air. As a result, it is possible to minimize the device or cost for removing contaminants, and to prevent damage to the external air inflow due to the contaminants, thereby reducing the cost of managing and maintaining the device.

1 is a side view illustrating an indoor ventilation system installed in a room provided with a corridor or a gap space according to an embodiment of the present invention.
Figure 2 (a) is a side view for explaining the installation direction of the outside air inlet and the inside air outlet in the indoor ventilation system installed in a room with a general corridor.
Figure 2 (b) is a side view for explaining the installation direction of the outside air inlet and the inside air discharge in the indoor ventilation system installed in the room with a corridor according to another embodiment of the present invention.
FIG. 3 is a view illustrating an installation direction of external air inlets and internal air outlets and a flow of external air through a space in an indoor ventilation system installed in a room provided with a corridor or a gap space according to another embodiment of the present invention. Top view for.
Figure 4 is a schematic diagram showing the shape of the external air inlet pipe of the external air inlet in the indoor ventilation system according to the present invention.
FIG. 5 is a side view illustrating an indoor ventilation system installed in a room having a corridor or a gap space according to another embodiment of the present invention.
6 is a view for explaining the outside air inlet installed in the room provided with a corridor or a gap space according to an embodiment of the present invention.
7 is a view for explaining the outside air inlet installed in the room provided with a corridor or a gap space according to another embodiment of the present invention.
8 is a result of measuring the radon, fine dust, ultrafine dust and carbon dioxide levels and temperature and humidity in the classroom as the ventilation facility is automatically operated according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings in detail the preferred embodiment of the indoor ventilation system using the corridor or crevice air according to the present invention so that those skilled in the art can easily carry out the present invention. Explain.

In the drawings of the present invention, the size or dimensions of the structures are shown to be enlarged or reduced than actual for clarity of the present invention, and the known configurations are omitted to show the characteristic configuration is not limited to the drawings. .

In the following detailed description of the principles of the preferred embodiment of the present invention, if it is determined that the detailed description of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

In addition, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical spirit of the present invention, various modifications that can be substituted for them at the time of the present application It should be understood that there may be equivalents and variations.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the indoor ventilation system using a corridor or niche space air including the demand control system in the present invention.

1 is a view for explaining an indoor ventilation system using the corridor or niche space air installed in the classroom having a corridor or niche space according to an embodiment of the present invention.

The niche space refers to a space that is divided into a wall and the like from the outside without belonging to an indoor space such as a corridor.

As shown in Figure 1, the indoor ventilation system using the air of the corridor or the niche space is installed in the room provided with the corridor or the niche space, the indoor ventilation system using the air of the corridor or the niche space is the corridor or An outside air inlet unit 100 for sucking outside air in the gap space to supply outside air from which contaminants have been removed to the room; An internal air discharge unit 200 for discharging the contaminated internal air to the outside; Sensor unit 300; And a central control unit 400 connected to the sensor unit, wherein the internal air discharge unit 200 is installed on a wall facing the wall on which the external air inlet unit 100 is installed, and the internal air discharge unit ( 200 and the external air inlet 100 is positioned in a diagonal direction with each other, the external air inlet 100 is an external air supply pipe 120 for introducing external air in the corridor or crevice space, and the external air supply pipe And an external air inflow pipe 130 that introduces the external air introduced into the air into the room 120, and the discharge direction of the external air inflow pipe 130 includes one side wall directly connected to the wall surface on which the inflow part 100 is installed. It is adjusted to face, the external air inlet pipe 130 can be adjusted to the angle of the upper portion of the interior space, the angle of the external air inlet pipe 130 is adjusted within the range of 5 to 30 degrees to the top relative to the horizontal plane Can be.

On the other hand, as shown in Figure 2 (a), in general, both the inlet and the exhaust direction of the installation in the indoor ventilation system installed in the room equipped with a corridor is formed through the corridor so that fresh air intakes through the corridor as a whole There was a problem that can not perform the function of purifying, purging only around the intake port and discharged into the hallway through the exhaust port.

However, the indoor ventilation system according to the present invention, as shown in Figure 2 (b), the external air inlet is installed on the outer wall side of the corridor, the internal air exhaust is installed on the outer wall surface fresh air supplied through the external air inlet While being discharged through the internal air discharge, it effectively performs the function of purifying the entire interior space.

In addition, the indoor ventilation system according to the present invention, as shown in Figure 3, while the internal air discharge unit 200 in the indoor ventilation system is installed on the wall facing the wall surface where the external air inlet 100 is installed, the inside The air discharge unit 200 and the external air inlet unit 100 are positioned in diagonal directions with each other.

In addition, the external air inlet 100 is an external air supply pipe 120 for introducing external air in the corridor or crevice space, and an external air inlet pipe for introducing the external air introduced into the external air supply pipe 120 into the room. It includes 130, and as shown in Figure 4 has a form that is easy to control the discharge direction of the external air inlet pipe 130, it is possible to control in the horizontal direction or vertical direction.

Therefore, the external air discharge direction in the external air inlet pipe is adjusted to face a side wall directly connected to the wall surface on which the external air inlet unit 100 is installed, so that the external air is discharged from the external air inlet pipe 130 to the interior space. After hitting a side wall directly connected to the wall surface is installed outside the air inlet 100, it spreads to various aspects of the indoor space to purify the indoor air is discharged to the outside through the internal air discharge unit 200, It is designed to have a space arrangement for efficiently converting contaminated air.

At this time, the angle of the external air inlet pipe 130 is adjusted in the range of 5 to 30 degrees upwards, thereby inducing the upper air in the indoor space to be primarily converted. Subsequently, the upper contaminated air in the indoor space forms a downdraft, and the entire contaminated air in the indoor space is purified by the external air.

In the indoor ventilation system, the measured value detected by the sensor unit 300 is transmitted to the central controller so that the external air inlet unit 100 and the internal air discharge unit 200 are controlled by a command of the central controller. Control system.

The sensor unit 300 may include a carbon dioxide sensor unit for detecting the concentration of carbon dioxide and a fine dust sensor unit for detecting the concentration of fine dust, and the sensor unit installed on the inner wall or the ceiling of the room may have a carbon dioxide concentration and fine dust concentration in the room. Measure and transmit to the central control unit 400.

The sensor unit may further include a radon sensor unit detecting radon and a gas sensor unit detecting gaseous contaminants.

The central control unit 400 when the concentration of the pollutants (fine dust, carbon dioxide, radon or gaseous pollutants) received from the sensor unit 300 is above a predetermined value, the external air inlet 100 and / or When the internal air discharge unit 200 is operated, and the concentration of pollutants (fine dust, carbon dioxide, radon or gaseous contaminants) is less than a predetermined value, the external air inlet unit 100 and the internal air discharge unit 200 Stop operation

The external air inlet 100 is an external air inlet fan 110 for sucking external air in a corridor or a gap space, an external air supply pipe 120 for introducing external air introduced into the inlet fan into the room, and the external air External air inlet switch is installed in the supply pipe and controls the inflow of external air, and the external air inlet pipe 130 is installed in the external air supply pipe and the external air introduced into the external air supply pipe into the classroom Can be.

The external air inlet fan 110 and the external air inlet switch may be controlled by the central controller 400. For example, the measurement of carbon dioxide concentration or fine dust detected by the sensor unit 300 is transmitted to the central control unit 400, when the measured value is more than a predetermined value, inside the outside air inlet 100 The installed inlet switch is changed into an open type, and the external air inlet fan 110 starts to operate so that the external air in the corridor or the gap space is introduced through the inlet fan 110 and the external air supply pipe 120. In the room. On the contrary, when the measured value of the carbon dioxide or fine dust transmitted to the central control unit 400 is less than a predetermined value, the inlet switch installed inside the external air inlet unit 100 is changed to a closed type, and the external air inlet fan 110 ) Will stop working.

In addition, it is preferable to include an intake valve provided to selectively open and close the external air inlet pipe 130, the intake valve may be controlled by the central control unit (400). For example, when the concentration of carbon dioxide measured by the sensor unit 300 is equal to or greater than a predetermined value, the rapid inlet mode is executed in the central control unit 400, and the inlet valves of all the external air inlet pipes 130 are opened to the outside. Air is supplied quickly throughout the room.

The external air inlet 100 preferably includes a diffuser connected to an end of the external air inlet pipe 130.

The external air inlet 100 is installed in a window provided between the interior and the corridor or crevice space, and the external air inlet can be fixed by a fixed frame, without damaging the wall between the classroom and the corridor or crevice space. Installation cost of the external air inlet 100 can be minimized.

The external air inlet 100 is installed in the window using a fixed frame, there is an advantage that can be installed by adjusting according to the window size.

In addition, the fixed frame is preferably finished by using a polyurethane foam, the fixed frame comprising a finish made of the polyurethane foam absorbs vibration and noise generated when the external air inlet 100 is operating. It provides a function to reduce the noise in the room.

The external air inlet fan 110 may include a filter layer in which one or more filters are stacked, or a filter layer in which one or more filters are stacked at a predetermined distance from one surface of the external air inlet fan 110. Can be. The filter layer 150 may remove dust or contaminant gas from external air, may include a filter on which activated carbon is adsorbed, a deodorizing filter, or a nanofilm filter, and may have a form in which one or more filter layers are stacked.

The deodorization filter removes toxic gas odors and various odors in the air and purifies the air. The nano film filter collects fine dust and simultaneously removes odors of gases contained in the fine dust to purify indoor air. Provide the function.

In addition, the activated carbon adsorbed filter provides an effect of removing odors and harmful gases contained in the outside air.

As described above, since the outside air in the corridor or the niche space is purified by the filter layer on one surface of the outside air inlet fan 110 and then supplied to the room, the outside air having a reduced pollution concentration may be supplied to the room.

The internal air discharge unit 200 is an internal air discharge fan 210 for sucking internal air in the room, an internal air discharge pipe 220 for discharging internal air introduced into the internal air discharge fan 210, and the internal air An internal air discharge switch installed in the discharge pipe and controlling the discharge of the internal air, and an internal air discharge pipe 230 installed at the end of the internal air discharge pipe and discharging the internal air discharged to the internal air discharge pipe to the outside; Can be configured.

The internal air discharge fan 210 and the internal air discharge switch may be controlled by the central controller 400. For example, when the concentration of the contaminants (fine dust, carbon dioxide, radon or gaseous contaminants) detected by the sensor unit 300 is transmitted to the central control unit 400, and the measured value is more than a predetermined value, the internal The discharge switch installed inside the air discharge unit 200 is changed to an open type, and the internal air discharge fan 210 starts to operate so that the internal air in the room is discharged through the discharge fan 210 and the internal air discharge pipe 220. The discharge tube 230 is discharged to the outside. On the contrary, when the concentration of pollutants (fine dust, carbon dioxide, radon or gaseous pollutants) transmitted to the central control unit 400 is less than a predetermined value, the discharge switch installed inside the internal air discharge unit 200 is closed. Switched to, the operation of the internal air discharge fan 210 is stopped.

When the measured value of the carbon dioxide and fine dust concentration sensed by the sensor unit is less than a predetermined predetermined value, the indoor ventilation system operates only the outside air inlet unit 100 without operating the internal air discharge unit 200. It provides the function of purifying the internal air. Specifically, the indoor air is positively generated due to the external air introduced from the external air inlet 100, and the internal air in the room is automatically exhausted through the internal air outlet 200 by the positive pressure formed in the room. Can be.

In addition, the indoor ventilation system may further include a second sensor unit for measuring the concentration of the contaminant in the corridor or crevice space, the second sensor unit at least one selected from the group of carbon dioxide, fine dust, radon or gaseous contaminants It includes a detection unit for detecting the above concentration.

When the concentration of the pollutant detected in the second sensor unit installed in the corridor or the niche space exceeds a predetermined value, the indoor ventilation system does not operate the external air inlet 100, and the internal air discharge unit 200 does not operate. It operates the bay and provides the function of purifying indoor air in the room. Specifically, a sound pressure is generated in the room due to the internal air discharged from the internal air discharge part 100, and the external air in the corridor or the crevice space is automatically generated through the internal air inlet 200 by the sound pressure formed in the room. Can be inhaled.

In addition, when the concentration of contaminants (fine dust, carbon dioxide, radon or gaseous contaminants) measured by the sensor unit installed in the room exceeds a predetermined value, the indoor ventilation system may include the internal air discharge unit 200 and the external device. The air inlet unit 100 operates at the same time to provide a function of purifying indoor air in the room.

In addition, the indoor ventilation system of the present invention preferably further includes a function of manually controlling the internal air discharge unit 200 and the external air inlet unit 100.

The external air supply pipe 120 is connected to the interior wall or ceiling of the room, it is preferable that one or more external air inlet pipe 130 is installed on the external air supply pipe.

Specifically, in the indoor ventilation system according to the present invention, the external air supply pipe 120 is connected to the inner wall surface of the indoor space and is installed, and one or more external air inlet pipes 130 are disposed on the external air supply pipe 120. Can be installed.

In addition, the external air supply pipe 120 is connected to the ceiling surface of the indoor space is installed, one or more external air inlet pipe 130 is installed on the external air supply pipe 120, the external air inlet pipe ( The discharge direction of 130 is adjusted to face one wall directly connected to the wall surface on which the external air inlet 100 is installed, and the angle of the external air inlet pipe 130 is in the range of 5 to 30 degrees downward from the horizontal plane. Can be adjusted.

As shown in Figure 5, the external air supply pipe 120 is installed on the ceiling of the classroom more than a predetermined length, and provided with two or more external air inlet pipe 130 in the external air supply pipe 120, It can promote circulation of external air introduced into the room.

At this time, the angle of the external air inlet pipe 130 is connected to the ceiling surface of the indoor space is adjusted in the range of 5 to 30 degrees to the bottom relative to the horizontal plane, thereby inducing the lower air in the indoor space to be primarily converted. Subsequently, the bottom air of the indoor space forms an upward airflow, and the entire contaminated air of the indoor space is purified by the outside air.

Indoor ventilation system using the corridor or crevice space air of the present invention as described above. Hereinafter, the present invention will be described in more detail, but the present invention is not limited thereto.

Example  One

1.1 Ventilation installation capacity and ventilation recovery

Ventilation facility linked with the sensor station was installed in one classroom (22.3 pyeong) of Tongjin High School. Each classroom ventilation facility was equipped with one air supply fan and two exhaust fans, and the fan capacity was 220 CMH (m ³ / hr), and the ventilation system was installed so that the ventilation frequency in each classroom was 1.0 times / hr. . The supply fan and exhaust fan were installed by modifying the classroom window frame, the supply fan was installed in the window of the classroom corridor or crevice space, and the exhaust fan was installed in the window outside the classroom.

  In order to reduce indoor air quality in the classroom, ventilation facilities were used to reduce indoor air quality in the classroom by diluting the polluted air in the classroom using the air in school hallways or niche spaces. The filter was installed in the air supply fan to prevent the inflow of fine dust from the corridor or crevice space of the school facility, and the filter was periodically installed to replace the filter.

division standard Ventilation Fan On Ventilation Fan Off Air supply fan 220 CMH × 2 1 item
Exceed All items
Below standard Exhaust fan 220 CMH × 1 Ventilation setting classroom 10mL × 10mW × 2.8mH

1.2 Ventilation Control Standards

The control point of the ventilation system is for radon, carbon dioxide, and fine dust (PM10), which are sensor station measurement items.

Control item Maintenance standard Ventilation Facility Operation Standard Ventilation Fan On Ventilation Fan Off Radon (Rn) 148 Bq / m ³ or less 118.4 Bq / m ³ 1 item
Exceed All items
Below standard Carbon Dioxide (CO ₂ ) 1,000 ppm or less 800 ppm Fine dust (PM10) 100 μg / m ³ or less 80 μg / m ³

Experimental Example  1: by metric Reduction effect

Targeting 4 measurement items including carbon dioxide (CO2), radon (Rn), fine dust (PM10), and fine dust (PM2.5) for the 1-5 classrooms of Tongjin High School with ventilation facilities operating in conjunction with the sensor station. The reduction effect of the ventilation system was evaluated, and the results are shown in FIG. 1.

As shown in FIG. 1, when one item of the ventilation facility operating standard items in Table 2 exceeds the standard, the ventilation facility was automatically operated, and as the ventilation facility is operated, radon, fine dust, and ultrafine It was confirmed that the dust and carbon dioxide levels are effectively reduced.

The present invention has been described above with reference to the embodiments illustrated in the accompanying drawings, which are merely exemplary, and various modifications and equivalent other embodiments may be made by those skilled in the art. Will understand. Therefore, the technical protection scope of the present invention will be defined by the claims below.

100: outside air inlet
110: outside air inlet fan
120: external air supply pipe
130: outside air inlet pipe
140: diffuser
150 filter layer
160, 160 ': Fixed frame
200: internal air discharge
210: internal air exhaust fan
220: internal air discharge pipe
230: internal air discharge pipe
300: sensor unit
400: central control unit

Claims (10)

In the room ventilation system,
The indoor ventilation system may include: an external air inlet for sucking external air in a corridor or a crevice space to supply external air from which contaminants have been removed to the interior;
An internal air discharge unit configured to discharge the contaminated internal air to the outside;
Sensor unit; And
A central controller connected to the sensor unit,
The internal air discharge part is installed on the wall facing the wall surface where the external air inlet is installed, the internal air discharge part and the external air inlet part is located in a diagonal direction to each other,
The external air inlet includes an external air supply pipe for introducing external air in a corridor or a crevice space, and an external air inlet pipe for introducing external air introduced into the external air supply pipe into the room,
The discharge direction of the external air inlet pipe is adjusted to be directed to one wall surface directly connected to the wall surface in which the inlet is installed, the angle of the external air inlet pipe is adjusted within the range of 5 to 30 degrees to the top relative to the horizontal plane,
A corridor comprising a demand control system in which the measured values detected by the sensor unit are transmitted to the central controller, and the external air inlet and the internal air discharge are automatically controlled by a command of the central controller. Indoor ventilation system using air in the gap.
The method of claim 1,
The external air inlet is an external air inlet fan for sucking external air in a corridor or a crevice space, an external air supply pipe for introducing external air introduced into the inlet fan into the room, and installed in the external air supply pipe to control the inflow of external air. An external air inlet and outlet, and an external air inlet pipe installed in the external air supply pipe and introducing external air introduced into the external air supply pipe into the room,
The external air inlet fan and the external air inlet switch is controlled by the central control unit, the indoor ventilation system using the air in the corridor or crevice space.
The method of claim 2,
Indoor ventilation system using the air in the corridor or crevice space comprising a diffuser connected to the end of the external air inlet pipe.
The method of claim 1,
Indoor air ventilation system using the air in the corridor or crevice space, characterized in that the air inside the room is automatically exhausted by the pressure of the outside air introduced from the outside air inlet.
The method of claim 1,
The internal air discharge unit includes an internal air discharge fan that sucks internal air in the room, an internal air discharge pipe for discharging internal air introduced into the internal air discharge fan, and an internal air installed in the internal air discharge pipe and controlling the discharge of internal air A discharge switch, and an internal air discharge pipe installed at an end of the internal air discharge pipe and discharging the internal air discharged to the internal air discharge pipe to the outside,
The internal air discharge fan and the internal air discharge switch is controlled by the central control unit, characterized in that the indoor ventilation system using the air in the corridor or crevice space.
The method of claim 1,
Wherein the outside air inlet is installed in the window provided between the interior and the corridor or niche space, the outside air inlet is a room ventilation system using the air in the hall or niche space, characterized in that fixed by a fixed frame.
The method of claim 2,
The external air inlet fan is one or more activated carbon filter layer, characterized in that the indoor ventilation system using the air in the corridor or crevice space.
The method of claim 1,
The sensor unit may include at least one of a carbon dioxide sensor unit for detecting the concentration of carbon dioxide, a fine dust sensor unit for detecting the concentration of fine dust, a radon sensor unit for detecting radon, and a gas sensor unit for detecting gaseous contaminants. Indoor ventilation system using air in corridor or crevice space.
The method of claim 1,
The external air supply pipe is connected to the inner wall surface of the indoor space is installed, the indoor air ventilation system using the air in the corridor or niche space, characterized in that one or more external air inlet pipe is installed in the external air supply pipe.
The method of claim 1,
The external air supply pipe is installed connected to the ceiling surface of the indoor space, one or more external air inlet pipes are installed in the external air supply pipe,
The discharge direction of the external air inlet pipe is adjusted to face one wall directly connected to the wall surface in which the inlet is installed, the angle of the external air inlet pipe is adjusted within the range of 5 ~ 30 degrees to the bottom relative to the horizontal plane Indoor ventilation system using air in corridor or crevice space.

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