KR20050098398A - Structure of ventilation system - Google Patents

Abstract

The present invention relates to a structure of a ventilation system configured to facilitate service by making the installation direction of the motor assembly of the external air supply fan the same as the installation direction of the motor assembly of the indoor air exhaust fan. The structure of the ventilation system according to the present invention is provided on one side of the main body case 100 to form an exterior, the external air supply fan 130 for blowing the outside air into the room; An indoor air exhaust fan 170 installed at one side of the external air supply fan 130 to blow indoor air to the outside; The external air supply fan 130 and the indoor air exhaust fan 170 by the inside of the main body case 100 is sucked into and discharged from the outside air and the indoor air to the heat exchange with each other including a heat exchanger (200) Has a configuration; Motor assemblies 132 and 172 are mounted to the external air supply fan 130 and the indoor air exhaust fan 170, and the motor assemblies 132 and 172 are installed to face in the same direction and are formed on one side of the main body case 100. Characterized in that installed in the direction of the check hole (110). According to the present invention, the service of the indoor air exhaust fan and the external air supply fan is improved, there is an advantage that the flow of air is smooth.

Description

Structure of ventilation system

The present invention relates to a ventilation system, and more particularly, the motor assembly installation direction of the external air supply fan is the same as the motor assembly installation direction of the indoor air exhaust fan in the direction of the inspection port of the main body case, so that service can be facilitated. It relates to the structure of the ventilation system constituted.

In recent years, due to problems such as energy conservation and noise, the residential space of human beings is gradually becoming airtight and insulated. However, the air in these closed spaces gradually changes to carbon dioxide and contaminates over time, thereby inhibiting the breathing of life.

Therefore, a place where many people stay in a narrow space, such as an office or a vehicle, should be frequently ventilated. In this case, a ventilation device using a total heat exchange method is typically used. This is for supplying the outside air while maintaining the indoor air temperature, and for exhausting the indoor air.

1 is a perspective view of an exterior of a conventional ventilation device, and FIG. 2 is a perspective view of an internal configuration of a conventional ventilation device.

As shown in the drawing, an external air suction opening 12 is formed on one side of the main body case 10 that forms an exterior to suck external air. The left side suction duct 12 is formed inside the external air inlet 12 so as to allow the external air sucked from the external air inlet 12 to reach the heat exchanger 20, which will be described below. ') Is formed to be a passage of external air.

In order to exchange heat between the air sucked from the outside and the air discharged from the outside to the outside, a total heat exchanger 20 as shown in FIG. 2 is provided at the inner center of the main body case 10. It is configured to have.

The total heat exchanger 20 as described above typically allows moisture and sensible heat to exchange latent heat by a highly efficient heat exchange membrane forming layers of different flow paths by allowing each air having a temperature difference to pass through different flow paths. Follow the principle of electrothermal exchange by the heat to exchange.

The external air passing through the heat exchanger 20 from the external air intake 12 is formed on the opposite side to the external air intake 12 through a right exhaust duct 14 'formed in the main body case 10. The air is supplied into the room through the external air outlet 14.

Four corners of the heat exchanger 20 are formed with a supporting frame (not shown) for supporting the heat exchanger in a long forward and backward direction, and a pre-filter (not shown) is installed on both lower sides of the heat exchanger 20. The prefilter serves to filter out foreign matter mixed in the outside air, and the prefilter is formed separately from the total heat exchanger 20 and is detached.

The upper right side of the total heat exchanger 20 is further provided with a high performance filter (not shown). The high performance filter serves to filter back dust particles in the intake air.

On the other hand, the left rear end of the main body case 10 is provided with an indoor air discharge port 18 for discharging the indoor air to the outside, the indoor air discharge port 18 is a discharge hole mounting hole formed in the main body case 10 It is inserted into and fixed (not shown). In addition, an exhaust fan housing (not shown) is formed inside the outlet mounting hole to guide the indoor air forcedly blown by the indoor air exhaust fan 22 to be described below to the indoor air outlet 18.

An indoor air exhaust fan 22 is provided inside the exhaust fan housing. The indoor air exhaust fan 22 serves to forcibly blow the air sucked through the indoor air intake port 16 to the indoor air outlet 18, and is composed of a siroco fan.

An external air outlet 14 is formed at the right end of the main body case 10, that is, on the side opposite to the position at which the external air intake 12 is installed. The external air outlet 14 is inserted into an outlet mounting hole (not shown) formed in the right side of the main body case 10 and protrudes to a right side from the right side of the main body case 10 to the right side. Is installed.

In addition, an air supply fan housing (not shown) is formed inside the air outlet mounting hole to guide external air forcedly blown from the external air air supply fan 24 to the external air air outlet 14.

An indoor air suction port 16 is provided at the right rear end of the main body case 10, that is, on the opposite side to the position where the indoor air outlet 18 is installed. The indoor air suction port 16 is installed to protrude from the right side of the main body case 10 to the right side, and a circular indoor suction hole mounting hole formed at the rear end of the right side of the main body case 10 (not shown). Is fixed to.

In addition, a right suction duct 16 ′ is formed inside the indoor suction hole mounting hole to guide air sucked from the indoor air suction hole 16 to the heat exchanger 20.

A damper 17 is provided inside the right suction duct 16 ′ to selectively flow the indoor air sucked through the indoor air suction port 16 to the heat exchanger 20. That is, the damper 17 opens and closes the right suction duct 16 ′ under the control of the control box 30 to be described below.

Therefore, when the damper 17 shields the right suction duct 16 ′, the indoor air sucked through the indoor air suction port 16 does not pass through the heat exchanger 20, and the indoor air discharge port ( 18) it is discharged to the outside.

An external air supply fan 24 for forcibly sending external air to the external air outlet 14 is installed between the external air intake 12 and the external air outlet 14. Therefore, the outside air sucked through the outside air intake 12 is discharged into the room through the outside air outlet 14 by the outside air supply fan 24.

On the other hand, the motor assembly 25 is mounted to the front and rear of the indoor air exhaust fan 22 and the external air supply fan 24. The motor (not shown) provided in the motor assembly 25 forms a rotational power by electricity input from the outside, and serves to transmit the power to the indoor air exhaust fan 22.

The shroud 28 is mounted to the rear of the motor assembly 25. The shroud 28 partitions the air introduced into the indoor air exhaust fan 22 and the indoor air exhaust fan 22 and the air discharged from the inside to guide the air not to mix with each other.

The shroud 28 is mounted with a motor mount 26. The motor mount 26 is mounted to the front of the shroud 28, the center portion is formed to protrude to the right side.

And, the front of the main body case 10 is provided with a control box 30 to be described below, the ceiling fixture 32 is further installed so that the ventilation system is installed on the ceiling of the house. In addition, an inspection opening (not shown) is formed at the front center of the main body case 10, and an inspection door 34 to be described below is provided at the front of the inspection opening to selectively open and close the inspection opening.

The control box 30 is installed at the right end of the main body case 10. A control unit is formed inside the control box 30 to control the operating conditions of the ventilation system. That is, the power supply is interrupted to turn on / off the ventilation system, and the fan speed is controlled by controlling fan rotation speeds of the external air supply fan 24 and the indoor air exhaust fan 22.

 An inspection door 34 is installed in front of the inspection door to shield the inspection door. Therefore, when it is necessary to replace or inspect the internal parts including the heat exchanger 20, the inspection door 34 may be opened to draw out the heat exchanger 20 and the like.

Hereinafter, a state in which air outside the room flows through the ventilation system according to the present invention having the configuration as described above will be described with reference to FIG. 3.

3 shows the state of air flow through the ventilation system when the electrothermal ventilation mode is activated. This electrothermal ventilation mode is generally used when there is a large difference in temperature and humidity between indoors and outdoors, such as summer or winter.

As shown in the drawing, the damper 17 opens the right suction duct 16 ′ according to a control command in the control box 30 according to the user's selection of the heat transfer ventilation mode.

In addition, according to the operation of the external air supply fan 24, external air is sucked into the ventilation system through the external air intake 12, and the external air is guided by the left suction duct 12 '. And is sucked into the total heat exchanger (20) through the lower left surface of the total heat exchanger (20). At this time, since the external air passes through the pre-filter mounted on the lower left side of the heat exchanger 20, foreign matter in the air is first filtered, and then sucked into the heat exchanger 20.

The air sucked into the heat exchanger (20) exchanges heat and moisture from the discharged indoor air and then is discharged through the upper right side of the heat exchanger (20). At this time, since the high-performance filter is installed on the upper right side of the total heat exchanger 20, foreign matters of the air passing through the total heat exchanger 20 are filtered again, resulting in cleaner air.

The air passing through the total heat exchanger 20 and the high performance filter is forcibly blown by the external air supply fan 24 and is indoors through the external air outlet 14 installed on the right side of the main body case 10. Is discharged.

On the other hand, the indoor air is exhausted to the outside by the operation of the indoor air exhaust fan 22, the indoor air is sucked into the ventilation system through the indoor air intake 16 and then the right suction duct (16 '). It is guided by and sucked into the heat exchanger 20 through the lower right of the heat exchanger (20).

At this time, since the pre-filter is mounted on the lower right side of the heat exchanger 20, foreign substances in the indoor air are filtered out. Therefore, since the clean air is sucked into the heat exchanger 20, the heat exchanger 20 is protected to extend the service life.

The indoor air sucked into the heat exchanger (20) exchanges heat and moisture to outside air sucked from the outside, and then exits through the lower left side of the heat exchanger (20). The indoor air exiting the heat exchanger (20) is forcedly blown by the indoor air exhaust fan (22) to the outside through the indoor air outlet (18) provided at the rear end of the left side of the main body case (10). Exhausted.

However, the conventional ventilation apparatus as described above has the following problems.

In the conventional configuration as described above, if a failure occurs in the external air supply fan 24, the indoor air exhaust fan 22, or the motor assembly 25, the inspection door 24 formed on the front of the front case 10 Open and remove the heat exchanger (20), and then repair the motor and replace it.

Therefore, such a ventilation device is installed on the ceiling, so easy service is required, and the driving motor of the external air supply fan 24 is installed on the rear side of the fan housing, which makes service difficult.

An object of the present invention for solving the above problems is to facilitate the service by making the installation direction of the motor assembly of the external air supply fan to the direction of the inspection port of the main body case to be the same as the installation direction of the motor assembly of the indoor air exhaust fan. To provide the structure of the ventilation system.

Another object of the present invention is to provide a structure of a ventilation system configured to freely set the blade direction of the external air supply fan and the indoor air exhaust fan.

The structure of the ventilation system according to the present invention for achieving the above object is provided on one side of the main body case forming an appearance, the external air supply fan for blowing the outside air into the room; An indoor air exhaust fan installed at one side of the external air supply fan to blow indoor air to the outside; A heat exchanger configured to allow the external air and the indoor air to be heat-exchanged with each other by being sucked into the body case by the external air supply fan and the indoor air exhaust fan; The motor assembly is mounted to the external air supply fan and the indoor air exhaust fan, and the motor assembly is installed in the same direction.

The motor assembly of the external air supply fan and the indoor air exhaust fan is installed in the direction of the check opening formed on one side of the main body case.

The blades of the external air supply fan and the indoor air exhaust fan are installed to rotate in the same direction, and are configured such that the external air discharge port through which the external air is discharged and the indoor air discharge port through which the indoor air is discharged face each other in the opposite direction from each other. It is characterized by.

The blades of the external air supply fan and the indoor air exhaust fan are installed to rotate in opposite directions, so that the external air outlet and the indoor air exhaust port face in the same direction above or below.

According to the structure of the ventilation system according to the present invention having such a configuration, there is an advantage that the service of the indoor air exhaust fan and the external air supply fan is improved, and the flow of air is smooth.

Hereinafter, a preferred embodiment of the ventilation system according to the present invention having the configuration as described above will be described in detail with reference to the accompanying drawings.

4 is an exploded perspective view of an example of the ventilation system according to the present invention, Figure 5 shows the internal configuration of the ventilation system according to the present invention. And, Figure 6 is a schematic plan view of the ventilation system according to the present invention, Figure 7 is a schematic cross-sectional view showing the air flow direction of the indoor air exhaust fan and the external air supply fan according to the present invention.

As shown in these figures, the body case 100 having a substantially rectangular box shape forms an appearance. The main body case 100 forms the appearance of the entire product, and supports and protects the installation of the internal structure, and at the same time serves to block foreign matter from entering the product from the outside.

On the left side of the main body case 100, an external air inlet 120, which is an inlet for intake of external air, is installed to protrude to the side. An inlet mounting hole (not shown) is formed at the left end of the main body case 100 so that the external air inlet 120 is inserted and mounted.

The left side suction duct 122 is disposed between the heat exchanger 200 and the inside of the external air intake 120 so that the external air sucked from the external air intake 120 may reach the heat exchanger 200, which will be described below. ) Is formed. That is, the left suction duct 122 serves as a suction passage that guides the outside air to be smoothly flowed.

An internal heat exchanger 200 is provided at an inner central portion of the main body case 100. The heat exchanger 200 has a hexagonal column shape, and has a cross-flow plate type structure. That is, it is configured to separate the supply and exhaust passages with a partition plate of special processed paper so that outside air and indoor air are not mixed with each other.

Therefore, the heat exchanger 200 as described above typically allows each air having a temperature difference to pass through different flow paths, thereby allowing moisture and sensible heat to exchange latent heat by a high-efficiency heat exchange membrane forming layers of the different flow paths. Heat exchange causes heat exchange. In other words, the special processing paper used for the total heat exchanger 200 is characterized by passing only heat and moisture without passing air.

The total heat exchanger 200 having the configuration described above performs electrothermal exchange between the air supply and the exhaust in the apparatus, absorbs the heat of the air from the exhaust to the outside, and transfers the heat to the air supplied to the room, whereby the state of the indoor air is Make it less affected.

This electrothermal ventilation mode may be implemented by the user's selection. That is, in general, the heat transfer ventilation mode as described above is mainly used in summer and winter when the temperature difference between the indoor and outdoor is large, and when the temperature difference between the indoor and outdoor is not so large, such as in spring or autumn, By changing the passage of the air discharged to the outside to prevent the air exhausted to pass through the heat exchanger 200, it can be used in the normal ventilation mode.

On the other hand, the upper and lower ends of the heat exchanger 200 having a hexagonal cross section is provided with a support frame 240 long before and after. The support frame 240 supports the load of the heat exchanger 200 so that the heat exchanger 200 is firmly supported and also serves as a guide rail when the front heat exchanger 200 is attached and detached.

The prefilter 260 is installed below the total heat exchanger 200. The prefilter 260 filters the foreign matter in the air and is provided at both sides of the lower part of the heat exchanger 200.

That is, the prefilter 260 provided on the lower left side of the total heat exchanger 200 through which the external air is sucked increases the cleanliness of the air supplied to the room by filtering out the foreign matter mixed in the external air, and the heat exchanger 200 ) Protects against foreign objects. In addition, the prefilter 260 provided on the lower right side of the heat exchanger 200 filters the foreign matter mixed in the air exhausted from the inside to the outside, thereby protecting the heat exchanger 200 to extend its life. Will be

The pre-heat exchanger 200 is generally provided with two before and after, such a pre-heat exchanger 200 is supported by the support frame 240 of the pre-heat exchanger 200 and slide back and forth. Therefore, the front surface of the heat exchanger 200 is further provided with a handle 220 for facilitating forward and rearward movement.

A high performance filter 280 is further provided on the upper right side of the total heat exchanger 200. The high performance filter 280 serves to filter back the dust particles in the intake air. That is, the large size of the dust in the air is first filtered by the pre-filter 260 of the fiber mat form, the heat transfer is made while passing through the heat exchanger 200, the air passed through the heat exchanger 200 Is filtered by the high-performance filter 280 again to fine foreign matter.

On the other hand, the left rear end of the main body case 100 is provided with an indoor air outlet 180 for discharging the indoor air to the outside, the indoor air outlet 180 is a discharge hole mounting hole formed in the main body case 100 It is inserted into and fixed (not shown). In addition, an exhaust fan housing (not shown) is formed in the outlet mounting hole to guide the indoor air forcedly blown by the indoor air exhaust fan 170 to be described below to the indoor air outlet 180.

An indoor air exhaust fan 170 is provided inside the exhaust fan housing. The indoor air exhaust fan 170 serves to forcibly blow the air sucked through the indoor air intake port 160 to be described below to the indoor air outlet 180, preferably as a siroco fan. It is composed.

An external air outlet 140 is formed at the right end of the main body case 100, that is, on the opposite side to the position where the external air inlet 120 is installed. The external air outlet 140 is inserted into the outlet mounting hole 142 formed on the right side of the main body case 100 and is installed to protrude to a right direction from the right side of the main body case 100.

In addition, an air supply fan housing (not shown) may be configured in the air outlet mounting hole 142 to guide external air forcedly blown from the external air air supply fan 130 to be described below to the external air air outlet 140. Is formed.

On the opposite side of the right rear end of the main body case 100, that is, the position where the indoor air outlet 180 is installed, the indoor air suction port 160 is provided. The indoor air inlet 160 is installed to protrude from the right side of the main body case 100 to the right side, and is fixed to a circular indoor inlet mounting hole 162 formed at the rear end of the right side of the main body case 100. do.

In addition, a right suction duct 164 is formed inside the indoor suction hole mounting hole 162 to guide the air sucked from the indoor air suction hole 160 to the heat exchanger 200. A damper 190 is provided inside the right suction duct 164 to selectively flow the indoor air sucked through the indoor air suction port 160 to the heat exchanger 200.

That is, the damper 190 opens and closes the right suction duct 164 under the control of the control box 300 to be described below. Therefore, when the damper 190 shields the right suction duct 164, the indoor air sucked through the indoor air suction port 160 does not pass through the heat exchanger 200, and the indoor air discharge port 180 immediately. Is discharged to the outside through).

An external air supply fan 130 for forcibly sending external air to the external air outlet 140 is installed between the external air outlet 140 and the indoor air suction port 160. Therefore, the outside air sucked through the outside air inlet 120 is discharged into the room through the outside air outlet 140 by the outside air supply fan 130.

Blades 136 and 176 are provided inside the external air supply fan 130 and the indoor air exhaust fan 170. The blades 136 and 176 rotate with the driving force of the motor assemblies 132 and 172 to be described below, and serve to blow external air or indoor air to the outside or the inside.

The blades 136 and 176 are installed to rotate in the same direction so that the external air outlet 140 and the indoor air outlet 180 may be configured to face each other in the opposite direction of the upper side and the lower side, and are installed to rotate in opposite directions. The external air outlet 140 and the indoor air outlet 180 are configured to face the same direction of the upper side or the lower side so that the air flows smoothly.

On the other hand, the front of the body case 100 is provided with a control box 300 to be described below, the ceiling fixture 320 is further installed so that the ventilation system is installed on the ceiling of the house. In addition, an inspection opening 110 is formed at the front center of the main body case 100, and an inspection door 340 to be described below is provided at the front of the inspection opening 110 to selectively open and close the inspection opening 110. do.

The control box 300 is installed at the right end of the main body case 100. A control unit is formed inside the control box 300 to control the operating conditions of the ventilation system. That is, the power supply is interrupted to turn on / off the ventilation system, and the air volume is controlled by controlling the fan rotation speed of the external air supply fan 130 and the indoor air exhaust fan 170. On the other hand, by controlling the driver (not shown) of the damper 190 controls the ventilation method and the like to enable the selection of the total heat exchange mode or normal ventilation mode.

An inspection door 340 is installed in front of the inspection opening 110 to shield the inspection opening 110. Therefore, when it is necessary to replace or inspect the internal parts including the heat exchanger 200, the inspection door 340 may be opened to draw out the heat exchanger 200, and the like.

In addition, motor assemblies 132 and 172 are mounted to the front of the indoor air exhaust fan 170 and the external air supply fan 130. The motor assemblies 132 and 172 are preferably installed in the same direction, that is, toward the front of the ventilation system in which the check door 340 is provided to improve service.

Therefore, when performing the service when the indoor air exhaust fan 170 or the external air supply fan 130 is broken, only the electrothermal heat exchanger 200 needs to be removed and carried out, so that Service becomes easy.

Motors (not shown) provided inside the motor assemblies 132 and 172 form rotational power by electricity input from the outside, and transmit the same to the indoor air exhaust fan 170 and the external air supply fan 130. Will be

Shrouds (not shown) are mounted to rear ends of the motor assemblies 132 and 172. The shroud and the air flowing into the indoor air exhaust fan 170 and the indoor air exhaust fan 170, the air introduced into the external air supply fan 130 and the external air supply fan 130 and It partitions the air discharged from the inside and serves to guide the air so as not to mix with each other.

The shrouds are also equipped with motor mounts 134 and 174. The motor mounts 134 and 174 are mounted to the front of the shroud, and the center portion is formed to protrude to the right side.

Hereinafter, a state in which air outside the room flows through the ventilation system according to the present invention having the configuration as described above will be described with reference to FIGS. 8 and 9.

8 shows the state of air flow through the ventilation system when the electrothermal ventilation mode is activated. This electrothermal ventilation mode is generally used when there is a large difference in temperature and humidity between indoors and outdoors, such as summer or winter.

Referring to the ventilation state as shown, the damper 190 opens the right suction duct 164 according to a control command in the control box 300 according to the user's selection of the heat transfer ventilation mode.

In addition, according to the operation of the external air supply fan 130, the outside air is sucked into the ventilation system through the outside air intake port 120, the outside air is guided by the left suction duct 122 It is sucked into the total heat exchanger 200 through the lower left surface of the total heat exchanger 200. At this time, since the external air passes through the pre-filter 260 mounted on the lower left side of the heat exchanger 200, foreign matter in the air is first filtered and then sucked into the heat exchanger 200.

The air sucked into the heat exchanger 200 exchanges heat and moisture from the discharged indoor air and then is discharged through the upper right side of the heat exchanger 200. At this time, since the high-performance filter 280 is installed on the upper right side of the heat exchanger 200, foreign matters of the air passing through the heat exchanger 200 are filtered again, resulting in cleaner air.

The air passing through the heat exchanger 200 and the high performance filter 280 is forcibly blown by the external air supply fan 130 to be provided on the right side of the main body case 100. It is discharged to the room through.

On the other hand, the indoor air is exhausted to the outside by the operation of the indoor air exhaust fan 170, the indoor air is sucked into the ventilation system through the indoor air suction port 160 and then to the right suction duct 164 It is guided by the suction through the lower right of the heat exchanger 200 into the heat exchanger 200.

At this time, since the pre-filter 260 is mounted on the lower right side of the heat exchanger 200, foreign substances in the indoor air are filtered out. Therefore, since the clean air is sucked into the heat exchanger 200, the heat exchanger 200 is protected to extend the service life.

The indoor air sucked into the heat exchanger (200) exchanges heat and moisture to outside air sucked from the outside, and then exits through the lower left side of the heat exchanger (200). The indoor air exiting the heat exchanger 200 is forcedly blown by the indoor air exhaust fan 170 to the outside through the indoor air outlet 180 provided at the rear end of the left side of the main body case 100. Exhausted.

Next, the air flow state in the general ventilation mode will be described with reference to FIG. 9. In the general ventilation mode, when indoor and outdoor temperature and humidity are small, such as spring or autumn, the indoor air is bypassed without passing through the heat exchanger 200 and exhausted immediately to the outside.

Therefore, when the user selects the general ventilation mode, the damper 190 shields the right suction duct 164 according to a control command inside the control box 300. In this case, the air sucked through the indoor air intake port 160 is forcibly blown to the indoor air outlet 180 by the indoor air exhaust fan 170 and discharged to the outside without passing through the heat exchanger 200. do.

On the other hand, when looking at the flow of the external air, according to the operation of the external air air supply fan 130, the outside air is sucked into the ventilation system through the outside air inlet 120, the outside air is the left suction duct Guided by 122, it is sucked into the heat exchanger 200 through the lower left side of the heat exchanger 200. At this time, since the external air passes through the pre-filter 260 mounted on the lower left side of the heat exchanger 200, foreign matter in the air is first filtered and then sucked into the heat exchanger 200.

The air sucked into the heat exchanger 200 is discharged through the upper right side of the heat exchanger 200 without exchanging heat and moisture since the indoor air discharged does not pass through the heat exchanger 200. At this time, since the high-performance filter 280 is installed on the upper right side of the heat exchanger 200, foreign matters of the air passing through the heat exchanger 200 are filtered again, resulting in cleaner air.

The air passing through the heat exchanger 200 and the high performance filter 280 is forcibly blown by the external air supply fan 130 to be provided on the right side of the main body case 100. It is discharged to the room through.

As such, in the general ventilation mode, unlike in the case of the total heat ventilation mode, heat and moisture are not exchanged inside the heat exchanger 200.

The scope of the present invention is not limited to the above-exemplified embodiments, and many other modifications based on the present invention will be possible to those skilled in the art within the above technical scope.

In the structure of the ventilation system according to the present invention as described above in detail, the installation direction of the motor assembly provided in the external air supply fan and the indoor air exhaust fan is configured to be installed in the same direction as the inspection opening formed on the front of the main body case.

Therefore, the effect that a motor can be easily attached or detached to an external air supply fan or an indoor air exhaust fan is anticipated.

In addition, when a failure occurs in the external air supply fan, the indoor air exhaust fan, or the motor, the inspection door provided at the inspection port on the front of the main body case is opened, and only the heat exchanger is removed, so that service is possible. It is expected.

In addition, by freely setting the blade direction provided in the external air supply fan and the indoor air exhaust fan, the direction of the external air outlet and the indoor air outlet are configured in the same direction or the opposite direction of the upper and lower sides of the ventilation system, thereby allowing the flow of air. At the same time, the outlet of the air can be formed in the direction desired by the user, and the effect of improving the user's satisfaction is also expected.

As a result, the customer's desire to purchase a product is expected to improve as a result of improved service to the product and increased user satisfaction.

1 is a perspective view showing the appearance of a conventional ventilation system.

Figure 2 is a perspective view showing the internal configuration of a conventional ventilation system.

Figure 3 is a state diagram showing the air flow state through the conventional ventilation system when the full-heat ventilation mode is operated.

4 is an exploded perspective view of a ventilation system employing a preferred embodiment of the present invention.

5 is a perspective view showing the internal configuration of a ventilation system employing a preferred embodiment of the present invention.

6 is a schematic plan view of a ventilation system employing a preferred embodiment of the present invention.

Figure 7 is a schematic cross-sectional view showing the air flow direction of the indoor air exhaust fan and the external air supply fan is a preferred embodiment of the present invention.

8 is a state diagram showing the state of air flow through the ventilation system when the full-heat ventilation mode is activated.

Figure 9 is a state diagram showing the air flow state through the ventilation system when the normal ventilation mode is operated.

Explanation of symbols on the main parts of the drawings

100. ..... Main body case 110. ..... Inspection door

120. ..... External air intake 122. ..... Left suction duct

130. ..... External air supply fan 132,172. ..... Motor Assembly 134,174. ..... Motor Mount 136,176. ..... Blade 140. ..... Outer air outlet 142. ..... Outlet mounting hole

144. ..... Right air exhaust duct 160. ..... Indoor air intake

162. ..... Indoor Intake Mounting Hole 170. ..... Indoor Air Exhaust Fan

180. ..... Indoor air outlet 182. ..... Left exhaust duct

190. ..... Damper 200. ..... Electric Heat Exchanger

220. ..... Handle 240. ..... Support Frame

260. ..... Prefilter 280. ..... High Performance Filter

300. ..... Control Box 320. ..... Ceiling Fixture

340. ..... Inspection door

Claims (4)

An external air supply fan provided at one side of a main body case for forming an exterior, and blows external air into the room; An indoor air exhaust fan installed at one side of the external air supply fan to blow indoor air to the outside; A heat exchanger configured to allow the external air and the indoor air to be heat-exchanged with each other by being sucked into the body case by the external air supply fan and the indoor air exhaust fan; The external air supply fan and the indoor air exhaust fan is a motor assembly is mounted, the motor assembly structure of the ventilation system, characterized in that installed in the same direction. According to claim 1, wherein the motor assembly of the external air supply fan and the indoor air exhaust fan, Ventilation system structure, characterized in that installed in the direction of the inspection port formed on one side of the main body case. According to claim 1 or 2, wherein the blades of the external air supply fan and the indoor air exhaust fan, It is installed to rotate in the same direction, the structure of the ventilation system, characterized in that the external air outlet through which the outside air is discharged and the indoor air outlet through which the indoor air is discharged so as to face in the opposite direction of the upper and lower sides. According to claim 1 or 2, wherein the blades of the external air supply fan and the indoor air exhaust fan, It is installed to rotate in the opposite direction, the structure of the ventilation system, characterized in that the external air outlet and the indoor air outlet is configured to face in the same direction of the upper side or the lower side.